Your search keyword '"Manuel A. Patarroyo"' showing total 279 results

1. The molecular basis for peptide-based antimalarial vaccine development targeting erythrocyte invasion by P. falciparum

Author

Carlos F. Suárez, Manuel A. Patarroyo, Jorge Aza-Conde, César Reyes, and Manuel E. Patarroyo

Subjects

0301 basic medicine, Erythrocytes, Magnetic Resonance Spectroscopy, In silico, Plasmodium falciparum, Antigen presentation, Protozoan Proteins, Biophysics, Antigens, Protozoan, Peptide, Biology, Biochemistry, Host-Parasite Interactions, Epitopes, 03 medical and health sciences, 0302 clinical medicine, Immune system, Western blot, Malaria Vaccines, parasitic diseases, medicine, Animals, Humans, Malaria, Falciparum, Molecular Biology, chemistry.chemical_classification, medicine.diagnostic_test, Malaria vaccine, Histocompatibility Antigens Class II, Cell Biology, medicine.disease, Virology, Amino acid, 030104 developmental biology, chemistry, 030220 oncology & carcinogenesis, Vaccines, Subunit, Aotidae, Carrier Proteins, Peptides, Malaria

Abstract

This work describes a methodology for developing a minimal, subunit-based, multi-epitope, multi-stage, chemically-synthesised, anti-Plasmodium falciparum malaria vaccine. Some modified high activity binding peptides (mHABPs) derived from functionally relevant P. falciparum MSP, RH5 and AMA-1 conserved amino acid regions (cHABPs) for parasite binding to and invasion of red blood cells (RBC) were selected. They were highly immunogenic as assessed by indirect immunofluorescence (IFA) and Western blot (WB) assays and protective immune response-inducers against malarial challenge in the Aotus monkey experimental model. NetMHCIIpan 4.0 was used for predicting peptide-Aotus/human major histocompatibility class II (MHCII) binding affinity in silico due to the similarity between Aotus and human immune system molecules; ∼50% of Aotus MHCII allele molecules have a counterpart in the human immune system, being Aotus-specific, whilst others enabled recognition of their human counterparts. Some peptides’ 1H-NMR-assessed structural conformation was determined to explain residue modifications in mHABPs inducing secondary structure changes. These directly influenced immunological behaviour, thereby highlighting the relationship with MHCII antigen presentation. The data obtained in such functional, immunological, structural and predictive approach suggested that some of these peptides could be excellent components of a fully-protective antimalarial vaccine.

Published

2021

2. Malaria: Paving the way to developing peptide-based vaccines against invasion in infectious diseases

Author

Manuel A. Patarroyo, Carlos F. Suárez, Laura Pabón, Manuel E. Patarroyo, Jorge Aza-Conde, Jessica Molina-Franky, Armando Moreno-Vranich, and César Reyes

Subjects

Models, Molecular, 0301 basic medicine, Aotus animal model, In silico, Plasmodium falciparum, Protozoan Proteins, DBL protein Family, Biophysics, Peptide based vaccine, Peptide, Communicable Diseases, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Immune system, Animal model, Malaria Vaccines, parasitic diseases, medicine, Animals, Humans, Amino Acid Sequence, Merozoítos, Malaria, Falciparum, Allele, Molecular Biology, chemistry.chemical_classification, RH protein family, biology, Histocompatibility Antigens Class II, Péptidos, Cell Biology, biology.organism_classification, medicine.disease, Virology, Malaria, MHCII binding Prediction, Disease Models, Animal, 030104 developmental biology, chemistry, 030220 oncology & carcinogenesis, Communicable Disease Control, Vaccines, Subunit, Aotidae, Major histocompatibility

Abstract

Malaria remains a large-scale public health problem, killing more than 400,000 people and infecting up to 230 million worldwide, every year. Unfortunately, despite numerous efforts and research concerning vaccine development, results to date have been low and/or strain-specific. This work describes a strategy involving Plasmodium falciparum Duffy binding-like (DBL) and reticulocyte-binding protein homologue (RH) family-derived minimum functional peptides, netMHCIIpan3.2 parental and modified peptides’ in silico binding prediction and modeling some Aotus major histocompatibility class II (MHCII) molecules based on known human molecules’ structure to understand their differences. These are used to explain peptides’ immunological behaviour when used as vaccine components in the Aotus model. Despite the great similarity between human and Aotus immune system molecules, around 50% of Aotus allele molecules lack a counterpart in the human immune system which could lead to an Aotus-specific vaccine. It was also confirmed that functional Plasmodium falciparum’ conserved proteins are immunologically silent (in both the animal model and in-silico prediction); they must therefore be modified to elicit an appropriate immune response. Some peptides studied here had the desired behaviour and can thus be considered components of a fully-protective antimalarial vaccine.

Published

2020

3. The Cellular and Molecular Interaction Between Erythrocytes and

Author

Jessica, Molina-Franky, Manuel Elkin, Patarroyo, Markus, Kalkum, and Manuel Alfonso, Patarroyo

Subjects

Erythrocytes, Merozoites, Plasmodium falciparum, Protozoan Proteins, Animals, Humans, Malaria, Falciparum, Malaria

Published

2021

4. Identification of Babesia bovis MSA-1 functionally constraint regions capable of binding to bovine erythrocytes

Author

Laura Cuy-Chaparro, Laura Alejandra Ricaurte-Contreras, Michel David Bohórquez, Gabriela Arévalo-Pinzón, Adriana Barreto-Santamaria, Laura Pabón, César Reyes, Darwin Andrés Moreno-Pérez, and Manuel Alfonso Patarroyo

Subjects

Erythrocytes, General Veterinary, Protozoan Proteins, Péptidos, Cattle Diseases, Antigens, Protozoan, General Medicine, Proteínas Protozoarias, Enfermedades del ganado, Babesiosis, Babesia bovis, Adhesión de parásitos, Animals, Parasitology, Cattle, Merozoite Surface Protein 1, Parásitos

Abstract

Merozoite surface antigen-1 is a glycoprotein expressed by Babesia bovis and is considered a vaccine candidate given that antibodies against it are able to partially block in vitro invasion of bovine erythrocytes. Despite this, no study to date has confirmed the target cell binding properties of the full MSA-1 or its fragments. This research has thus been focused on identifying protein regions playing a role in erythrocyte attachment, based on genetic diversity and natural selection analysis. Two regions under functional constraint (nucleotides 134–428 and 464–629) having a preponderance of negatively-selected signals were identified in silico. Three non-overlapping peptides derived from functionally constraint regions (42422 (39PEGSFYDDMSKFYGAVGSFD58), 42424 (91NALIKNNPMIRPDLFNATIV110) and 42426 (150TDIVEEDREKAVEYFKKHVY169)) were able to specifically bind to a sialoglycoprotein located on the bovine erythrocyte surface as confirmed by sensitive and specific peptide-cell interaction competition assays using both enzymatically treated and untreated red blood cells. Interestingly, it was predicted that peptides 42422 and 42426 have a helical structure and conserved motifs in all strain/isolates. These findings provide evidence, for the first time, related to B. bovis MSA-1 short regions used by the parasite in erythrocyte binding which could be predicted using natural selection analysis. Future work focused on evaluating these peptides’ antigenic ability during natural infection, and their ability to induce protection in immunisation assays are needed to confirm their usefulness as synthetic vaccine candidates. Incluye referencias bibliográficas

Published

2022

5. The First Chemically-Synthesised, Highly Immunogenic Anti-SARS-CoV-2 Peptides in DNA Genotyped Aotus Monkeys for Human Use

Author

Manuel E. Patarroyo, Manuel A. Patarroyo, Martha P. Alba, Laura Pabon, María T. Rugeles, Wbeimar Aguilar-Jimenez, Lizdany Florez, Adriana Bermudez, Ashok K. Rout, Christian Griesinger, Carlos F. Suarez, Jorge Aza-Conde, César Reyes, Catalina Avendaño, Jhoan Samacá, Anny Camargo, Yolanda Silva, Martha Forero, and Edgardo Gonzalez

Subjects

Antigenicity, Anticuerpos, COVID-19 Vaccines, Coronavirus M Proteins, Immunology, Population, Human leukocyte antigen, Biology, Antibodies, Viral, immune response, Coronavirus Envelope Proteins, chemistry.chemical_compound, Immune system, Animals, Humans, Immunology and Allergy, Allele, education, Original Research, education.field_of_study, MHC class II, Antígenos HLA-DR, SARS-CoV-2, HLA-DRβ1*/Aona-DRβ, Péptidos, COVID-19, neutralising antibody, RC581-607, modified synthetic peptide, PPIIL-propensity, Antibodies, Neutralizing, Virology, chemistry, Spike Glycoprotein, Coronavirus, Vaccines, Subunit, biology.protein, Aotidae, Vírus del SARS, Immunologic diseases. Allergy, MHCII-peptide-TCR complex, Antibody, Peptides, DNA, HLA-DRB1 Chains

Abstract

Thirty-five peptides selected from functionally-relevant SARS-CoV-2 spike (S), membrane (M), and envelope (E) proteins were suitably modified for immunising MHC class II (MHCII) DNA-genotyped Aotus monkeys and matched with HLA-DRβ1* molecules for use in humans. This was aimed at producing the first minimal subunit-based, chemically-synthesised, immunogenic molecules (COLSARSPROT) covering several HLA alleles. They were predicted to cover 48.25% of the world’s population for 6 weeks (short-term) and 33.65% for 15 weeks (long-lasting) as they induced very high immunofluorescent antibody (IFA) and ELISA titres against S, M and E parental native peptides, SARS-CoV-2 neutralising antibodies and host cell infection. The same immunological methods that led to identifying new peptides for inclusion in the COLSARSPROT mixture were used for antigenicity studies. Peptides were analysed with serum samples from patients suffering mild or severe SARS-CoV-2 infection, thereby increasing chemically-synthesised peptides’ potential coverage for the world populations up to 62.9%. These peptides’ 3D structural analysis (by 1H-NMR acquired at 600 to 900 MHz) suggested structural-functional immunological association. This first multi-protein, multi-epitope, minimal subunit-based, chemically-synthesised, highly immunogenic peptide mixture highlights such chemical synthesis methodology’s potential for rapidly obtaining very pure, highly reproducible, stable, cheap, easily-modifiable peptides for inducing immune protection against COVID-19, covering a substantial percentage of the human population.

Published

2021

6. Strong-LAMP Assay Based on a Strongyloides spp.-Derived Partial Sequence in the 18S rRNA as Potential Biomarker for Strongyloidiasis Diagnosis in Human Urine Samples

Author

Óscar Gorgojo, Manuel A. Patarroyo, Pedro Fernández-Soto, Antonio Muro, Milena Camargo, Jose Muñoz, Carmen Teresa Celis-Giraldo, Joaquín Salas-Coronas, and Coralina Collar-Fernández

Subjects

Male, Medicine (General), RNA 18S, Clinical Biochemistry, Urine analysis, Urine, Serology, 0302 clinical medicine, Strongyloides, 030212 general & internal medicine, biology, Biochemical markers, General Medicine, Middle Aged, Parasitic diseases, Serología, Malalties parasitàries, Strongyloidiasis, Molecular Diagnostic Techniques, Marcadors bioquímics, Female, medicine.symptom, Nucleic Acid Amplification Techniques, Research Article, Adult, Article Subject, 030231 tropical medicine, Loop-mediated isothermal amplification, Sensitivity and Specificity, Asymptomatic, Strongyloides stercoralis, Estrongiloidiasis, 03 medical and health sciences, R5-920, Helminths, RNA, Ribosomal, 18S, Genetics, medicine, Animals, Humans, Helmints, Molecular Biology, Feces, business.industry, Biochemistry (medical), Anàlisi d'orina, Marker, Biological, biology.organism_classification, medicine.disease, Immunology, business

Abstract

Human strongyloidiasis a soil-transmitted infection caused by Strongyloides stercoralis is one of the most neglected amongst the so-called Neglected Tropical Diseases (NTDs). S. stercoralis is a nematode, which is distributed worldwide; it has been estimated that it could affect millions of people, mainly in tropical and subtropical endemic regions. The difficulties of diagnosis lead to infection rates being underreported. Asymptomatic patients have chronic infections that can lead to severe hyperinfection syndrome or disseminated strongyloidiasis in immunocompromised patients. Strongyloidiasis can easily be misdiagnosed because conventional faecal-based techniques lack of sensitivity for the morphological identification of infective larvae in faeces. None of the currently used molecular methods have used urine samples as an alternative to faecal samples for diagnosing strongyloidiasis. This study was thus aimed at comparing, for the first time, the use of a new loop-mediated isothermal amplification (LAMP) molecular assay (Strong-LAMP) to traditional methods on patients’ urine samples. Twenty-four urine samples were taken from patients included in a study involving two Spanish hospitals for strongyloidiasis screening using parasitological and serological tests. Strongyloides larvae were found in 11 patients’ faecal samples, thereby ascertaining that they had the disease. Other patients had high antibody titres but no larvae were found in their faeces. All urine samples were analysed by PCR and Strong-LAMP assay. No amplification occurred when using PCR. Strong-LAMP led to detecting S. stercoralis DNA in urine samples from patients having previously confirmed strongyloidiasis by parasitological tests and/or a suspicion of being infected by serological ones. The Strong-LAMP assay is a useful molecular tool for research regarding strongyloidiasis in human urine samples. After further validation, the Strong-LAMP assay could also be used for complementary and effective diagnosis of strongyloidiasis in a clinical setting.

Published

2020

7. Molecular characterisation of parvorder Platyrrhini IgG sub-classes

Author

Diana Diaz-Arévalo, Kewin Rodríguez-Obediente, Yoelis Yepes-Pérez, Manuel A. Patarroyo, Anny Camargo, and Manuel E. Patarroyo

Subjects

Cloning, biology, Genes, Immunoglobulin, Immunology, Catarrhini, Platyrrhini, Computational biology, biology.organism_classification, Evolution, Molecular, Animal model, Immune system, Immunoglobulin G, biology.protein, Animals, Antibody, Molecular Biology, Gene, Phylogeny, New World monkey

Abstract

Non-human primates (NHP) are essential in modern biomedical research; New World monkeys (NWM) are mainly used as an experimental model regarding human malaria as they provide useful information about the parasite’s biology and an induced immune response. It is known that a vaccine candidate’s efficacy is mediated by a protection-inducing antibody response (IgG). Not enough information is available concerning IgG subclasses’ molecular characteristics regarding NHP from parvorder Platyrrhini. Understanding the nature of the humoral immune response and characterising the IgG subclasses’ profile will provide valuable information about the immunomodulator mechanisms of vaccines evaluated using an NHP animal model. This article has characterised IgG subclasses in NWM (i.e. genera Aotus, Cebus, Ateles and Alouatta) based on the amplification, cloning and sequencing of the immunoglobulin heavy constant gamma (IGHG) gene’s CH1 to CH3 regions. The resulting sequences enabled elucidating IGHG gene organisation; two IgG variants were found in the Aotus and Ateles monkey group and three IgG variants in the Cebus and Alouatta group. The sequences were highly conserved in Platyrrhini and had a similar structure to that reported for monkeys from parvorder Catarrhini. Such information will help in developing tools for a detailed characterisation of the humoral immune response in an NWM experimental animal model.

Published

2021

8. Hotspots in Plasmodium and RBC Receptor-Ligand Interactions: Key Pieces for Inhibiting Malarial Parasite Invasion

Author

Manuel E. Patarroyo, Marcela Gómez, Manuel A. Patarroyo, Jessica Molina-Franky, and Gabriela Arévalo-Pinzón

Subjects

0301 basic medicine, Chemokine, Plasmodium, Erythrocytes, Reticulocytes, Plasmodium vivax, Protozoan Proteins, Review, Ligands, receptor-ligand structure, lcsh:Chemistry, 0302 clinical medicine, Parasite hosting, Glycophorins, Receptor, lcsh:QH301-705.5, Spectroscopy, General Medicine, structure activity relationship, Computer Science Applications, Cell biology, Protein Binding, 030231 tropical medicine, Plasmodium falciparum, Antigens, Protozoan, Receptors, Cell Surface, Biology, Catalysis, Inorganic Chemistry, 03 medical and health sciences, Antigen, parasitic diseases, medicine, Structure–activity relationship, Animals, Humans, Parasites, Physical and Theoretical Chemistry, Molecular Biology, Organic Chemistry, biology.organism_classification, medicine.disease, Malaria, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, biology.protein, Carrier Proteins, Duffy Blood-Group System

Abstract

Protein-protein interactions (IPP) play an essential role in practically all biological processes, including those related to microorganism invasion of their host cells. It has been found that a broad repertoire of receptor-ligand interactions takes place in the binding interphase with host cells in malaria, these being vital interactions for successful parasite invasion. Several trials have been conducted for elucidating the molecular interface of interactions between some Plasmodium falciparum and Plasmodium vivax antigens with receptors on erythrocytes and/or reticulocytes. Structural information concerning these complexes is available; however, deeper analysis is required for correlating structural, functional (binding, invasion, and inhibition), and polymorphism data for elucidating new interaction hotspots to which malaria control methods can be directed. This review describes and discusses recent structural and functional details regarding three relevant interactions during erythrocyte invasion: Duffy-binding protein 1 (DBP1)–Duffy antigen receptor for chemokines (DARC); reticulocyte-binding protein homolog 5 (PfRh5)-basigin, and erythrocyte binding antigen 175 (EBA175)-glycophorin A (GPA).

Published

2020

9. Plasmodium falciparum pre-erythrocytic stage vaccine development

Author

César Reyes, Anny Camargo, Manuel E. Patarroyo, Laura Cuy-Chaparro, Manuel A. Patarroyo, Jessica Molina-Franky, Marcela Gómez, and David Ricardo Salamanca

Subjects

Erythrocytes, Esporozoítos, Unclassified drug, Vaccine efficacy, Mva metrap vaccine, Recombinant viral vector vaccine, Review, Azithromycin, Malaria vaccine, Hepatitis, Chloroquine, Malaria, Falciparum, Drug safety, Vaccines, Synthetic, Plasmodium (life cycle stage), Attenuated vaccine, biology, Sporozoite, Vaccine production, Atovaquone plus proguanil, Mefloquine, Clinical trial, Pyrimethamine, Infectious Diseases, Liver, Sporozoites, Vaccines, Subunit, Vaccine immunogenicity, Virus vector, Human, medicine.drug, s vaccine, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Malaria control, Plasmodium falciparum, Live vaccine, Mosquito Vectors, Csvac vaccine, Rts, Vaccines, Attenuated, lcsh:Infectious and parasitic diseases, Radiation attenuated sporozoite, Anopheles, Malaria Vaccines, medicine, Animals, Humans, lcsh:RC109-216, Chimpanzee adenovirus 63 modified vaccinia virus, Immune response, Vaccination coverage, Recombinant protein vaccine, R21 vaccine, Genetically attenuated sporozoite vaccine, Nonhuman, medicine.disease, biology.organism_classification, Virology, Ensayo Clínico, Malaria, Parasitology, Vaccine

Abstract

Worldwide strategies between 2010 and 2017 aimed at controlling malarial parasites (mainly Plasmodium falciparum) led to a reduction of just 18% regarding disease incidence rates. Many biologically-derived anti-malarial vaccine candidates have been developed to date; this has involved using many experimental animals, an immense amount of work and the investment of millions of dollars. This review provides an overview of the current state and the main results of clinical trials for sporozoite-targeting vaccines (i.e. the parasite stage infecting the liver) carried out by research groups in areas having variable malaria transmission rates. However, none has led to promising results regarding the effective control of the disease, thereby making it necessary to complement such efforts at finding/introducing new vaccine candidates by adopting a multi-epitope, multi-stage approach, based on minimal subunits of the main sporozoite proteins involved in the invasion of the liver.

Published

2020

10. Genetic diversity and population structure of Rhipicephalus sanguineus sensu lato across different regions of Colombia

Author

Juan David Ramírez, Diego Montenegro, Alberto Paniz-Mondolfi, Manuel A. Patarroyo, Marina Muñoz, Giovanny Herrera, Luisa Páez-Triana, Gabriel Andres Tafur-Gómez, and Darwin A. Moreno-Pérez

Subjects

Rhipicephalus sanguineus, Lineage (evolution), Population, Infectious and parasitic diseases, RC109-216, Colombia, Variación genética, Genetic diversity, Electron Transport Complex IV, Dogs, Sensu, RNA, Ribosomal, 16S, parasitic diseases, Vector-borne diseases, Animals, Internal transcribed spacer, education, Phylogeny, Demography, education.field_of_study, biology, Phylogenetic tree, Research, Genetic Variation, Sequence Analysis, DNA, biology.organism_classification, Tick Infestations, Enfermedades Transmitidas por Vectores, Infectious Diseases, Evolutionary biology, Genetic structure, DNA, Intergenic, Parasitology, Tick

Abstract

Background There has been a long-standing debate over the taxonomic status of Rhipicephalus sanguineus sensu lato. Different studies worldwide have reported the occurrence of different well-defined lineages, in addition to Rhipicephalus sanguineus sensu stricto. To date, there are very few studies examining the diverse aspects of this tick in Colombia. We assessed the population structure and genetic diversity of R. sanguineus s.l. in eight departmental regions across Colombia. Methods A total of 170 ticks were collected from dogs in different departments of Colombia. All specimens were morphologically compatible with R. sanguineus s.l. and subjected to genetic analysis. DNA sequences were obtained for the 12S rDNA, cytochrome oxidase I (COI) and internal transcribed spacer 2 (ITS2) markers. A concatenated set of all mitochondrial markers was also constructed. Next, maximum likelihood phylogenetic trees were constructed using the sequences generated herein and sequences available in GenBank. Finally, we assessed different summary statistics and analysed population structure and divergence with Fst and Dxy and demographic changes with Tajima's D and Fu and Li’s statistical tests. Results Analysis of the 12S rDNA and COI revealed that all R. sanguineus s.l. specimens collected across different regions of Colombia clustered within the tropical lineage. Micro-geographical analyses showed that the tick population from Amazonas formed a distinct cluster separated from the other sequences, with moderate Fst and Dxy values. However, no signs of a robust population structure were found within the country. The results of Fu’s FS tests, together with the haplotype networks and diversity values, signal a possible population expansion of this tick species in Colombia. Conclusions Evidence provided herein supports the tropical lineage as the main circulating lineage in Colombia, exhibiting a general lack of genetic structure except for the Amazonas region. Graphical Abstract

Published

2021

11. Characterising four Sarconesiopsis magellanica (Diptera: Calliphoridae) larval fat body-derived antimicrobial peptides

Author

Yahson Varela, Felio J. Bello, Andrea Díaz-Roa, Dario E. Kalume, Pedro Ismael da Silva Junior, Manuel A. Patarroyo, Nelson E. Arenas, Yuly Bernal, Orlando Torres, Cindy Pérez, and Luzia Monteiro de Castro Côrtes

Subjects

Microbiology (medical), Pore Forming Cytotoxic Proteins, Sarconesiopsis magellanica, antimicrobial peptide, medicine.drug_class, Antibiotics, Antimicrobial peptides, RC955-962, Fat Body, Microbial Sensitivity Tests, Microbiology, Antibiotic resistance, Calliphoridae, larval fat body, physicochemical characterization, Arctic medicine. Tropical medicine, medicine, Animals, biology, Chemistry, Diptera, ExPASy, antibacterial evaluation, biology.organism_classification, Antimicrobial, QR1-502, Anti-Bacterial Agents, Biochemistry, Larva, Original Article, Antibacterial activity, Bacteria

Abstract

BACKGROUND The inappropriate use of antibiotics has led to the accelerated growth of resistance to antibiotics. The search for new therapeutic strategies (i.e., antimicrobial peptides-AMPs) has thus become a pressing need. OBJECTIVE Characterising and evaluating Sarconesiopsis magellanica larval fat body-derived AMPs. METHODS Fat body extracts were analysed by reversed-phase high-performance liquid chromatography (RP-HPLC); mass spectrometry was used for characterising the primary structure of the AMPs so found. ProtParam (Expasy) was used for analysing the AMPs’ physico-chemical properties. Synthetic AMPs’ antibacterial activity was evaluated. FINDINGS Four new AMPs were obtained and called sarconesin III, IV, V and VI. Sarconesin III had an α-helix structure and sarconesins IV, V and VI had linear formations. Oligomer prediction highlighted peptide-peptide interactions, suggesting that sarconesins III, V and VI could form self-aggregations when in contact with the microbial membrane. AMPs synthesised from their native molecules’ sequences had potent activity against Gram-positive bacteria and, to a lesser extent, against Gram-negative and drug-resistant bacteria. Sarconesin VI was the most efficient AMP. None of the four synthetic AMPs had a cytotoxic effect. MAIN CONCLUSIONS S. magellanica larval fat body-derived antimicrobial peptides are an important source of AMPs and could be used in different antimicrobial therapies and overcoming bacterial resistance

Published

2021

12. Experimental models used in evaluating anti-tuberculosis vaccines: the latest advances in the field

Author

Manuel A. Patarroyo, Alejandra Mantilla Galindo, and Marisol Ocampo

Subjects

0301 basic medicine, Survival, Review, Mice, 0302 clinical medicine, Anti tuberculosis, Drug Discovery, Medicine, 030212 general & internal medicine, Tuberculosis Vaccines, Zebrafish, Priority journal, Mycobacterium bovis, biology, Vaccination, Haplorhini, Mycobacterium spp, BCG Vaccine, Cytokines, Molecular Medicine, Human, Bacilli, Tuberculosis, Pan troglodytes, Guinea Pigs, Immunology, 03 medical and health sciences, Animal model, Primate model, Animals, Humans, Experimental model, Cytokine, BCG vaccine, Pharmacology, Zebra fish, business.industry, In vitro study, Mycobacterium tuberculosis, Nonhuman, medicine.disease, biology.organism_classification, Virology, Guinea pig model, Disease Models, Animal, Drug efficacy, 030104 developmental biology, Infectious disease (medical specialty), business, Bacterial load, Vaccine

Abstract

Introduction: Tuberculosis is an infectious disease which is caused by bacilli from the M. tuberculosis complex. The Mycobacterium bovis Bacillus Calmette-Guérin vaccine is currently available as a prophylactic tool for preventing the disease; it has been shown to be efficient in preventing disseminated forms of tuberculosis during early ages; however, its efficiency is limited in areas where individuals have had prior exposure to environmental mycobacteria, and its efficacy decreases with a host’s age. Areas covered: Following a comprehensive search of the available literature, this review describes some of the most frequently used animal models, the most frequently used methods for evaluating efficacy in animal models and some in vitro strategies as alternatives for evaluating vaccines. Expert opinion: Identifying the animal models used up to now for evaluating vaccines during their development stages, their characteristics and limitations, as well as knowledge regarding strategies for evaluating promising vaccine candidate efficacy, will ensure more efficient, reliable and reproducible pre-clinical trials. Although much of the knowledge accrued to date concerning vaccine effectiveness against tuberculosis has been based on animal models, it is clear that large questions still need to be resolved and that extrapolation of such efficacy to humans has yet to be achieved. © 2019, © 2019 Informa UK Limited, trading as Taylor and Francis Group.

Published

2019

13. Co-Circulation of Bovine Leukemia Virus Haplotypes among Humans, Animals, and Food Products: New Insights of Its Zoonotic Potential

Author

Sandra P. Salas-Cárdenas, Sebastian Velandia-Álvarez, Adriana P. Corredor-Figueroa, María Fernanda Gutiérrez, Milcíades Ibáñez-Pinilla, Manuel A. Patarroyo, Nury N. Olaya-Galán, and Marina Muñoz

Subjects

haplotypes, Health, Toxicology and Mutagenesis, Population, Colombia, molecular epidemiology, Article, law.invention, 03 medical and health sciences, law, medicine, Leukemia Virus, Bovine, Animals, Humans, education, Phylogeny, 030304 developmental biology, Genetics, 0303 health sciences, education.field_of_study, Phylogenetic tree, Bovine leukemia virus, biology, Molecular epidemiology, 030306 microbiology, recombination analysis, Haplotype, Public Health, Environmental and Occupational Health, Enzootic Bovine Leukosis, medicine.disease, biology.organism_classification, zoonoses, Leukemia, Transmission (mechanics), bovine leukemia virus, GenBank, Medicine, Cattle

Abstract

Bovine leukemia virus (BLV) is the causative agent of leukemia/lymphoma in cattle. It has been found in humans and cattle-derived food products. In humans, it is described as a potential risk factor for breast cancer development. However, the transmission path remains unclear. Here, a molecular epidemiology analysis was performed to identify signatures of genetic flux of BLV among humans, animals, and food products. Sequences obtained from these sources in Colombia were used (n = 183) and compared with reference sequences available in GenBank. Phylogenetic reconstruction was performed in IQ-TREE software with the maximum likelihood algorithm. Haplotype (hap) distribution among the population was carried out with a median-joining model in Network5.0. Recombination events were inferred using SplitsTree4 software. In the phylogenetic analysis, no specific branches were identified for the Colombian sequences or for the different sources. A total of 31 haps were found, with Hap 1, 4, 5 and 7 being shared among the three sources of the study. Reticulation events among the different sources were also detected during the recombination analysis. These results show new insights about the zoonotic potential of BLV, showing evidence of genetic flux between cattle and humans. Prevention and control strategies should be considered to avoid viral dissemination as part of the One Health program policies.

Published

2021

14. Two 20-Residue-Long Peptides Derived from Plasmodium vivax Merozoite Surface Protein 10 EGF-Like Domains Are Involved in Binding to Human Reticulocytes

Author

Carlos F. Suárez, Diego Garzón-Ospina, Darwin A. Moreno-Pérez, Laura Cuy-Chaparro, Laura Alejandra Ricaurte-Contreras, Michel David Bohórquez, Andrea Lovera, Manuel A. Patarroyo, and Elizabeth Gutiérrez-Vásquez

Subjects

0301 basic medicine, Models, Molecular, surface molecule, Reticulocytes, reticulocyte population, Plasmodium vivax, Genes, Protozoan, Protozoan Proteins, Epitope, law.invention, lcsh:Chemistry, Epitopes, 0302 clinical medicine, law, Epidermal growth factor, Merozoite surface protein, lcsh:QH301-705.5, Spectroscopy, Conserved Sequence, biology, Chemistry, General Medicine, Adhesion, protein-cell interaction, Recombinant Proteins, Computer Science Applications, Cell biology, Recombinant DNA, PvMSP10, 030231 tropical medicine, Static Electricity, Antigens, Protozoan, In Vitro Techniques, Catalysis, Article, Inorganic Chemistry, 03 medical and health sciences, Residue (chemistry), Protein Domains, Malaria, Vivax, Animals, Humans, Amino Acid Sequence, Physical and Theoretical Chemistry, Molecular Biology, Binding Sites, Plasmodium (life cycle), Organic Chemistry, biology.organism_classification, Peptide Fragments, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999

Abstract

Plasmodium parasites’ invasion of their target cells is a complex, multi-step process involving many protein-protein interactions. Little is known about how complex the interaction with target cells is in Plasmodium vivax and few surface molecules related to reticulocytes’ adhesion have been described to date. Natural selection, functional and structural analysis were carried out on the previously described vaccine candidate P. vivax merozoite surface protein 10 (PvMSP10) for evaluating its role during initial contact with target cells. It has been shown here that the recombinant carboxyl terminal region (rPvMSP10-C) bound to adult human reticulocytes but not to normocytes, as validated by two different protein-cell interaction assays. Particularly interesting was the fact that two 20-residue-long regions (388DKEECRCRANYMPDDSVDYF407 and 415KDCSKENGNCDVNAECSIDK434) were able to inhibit rPvMSP10-C binding to reticulocytes and rosette formation using enriched target cells. These peptides were derived from PvMSP10 epidermal growth factor (EGF)-like domains (precisely, from a well-defined electrostatic zone) and consisted of regions having the potential of being B- or T-cell epitopes. These findings provide evidence, for the first time, about the fragments governing PvMSP10 binding to its target cells, thus highlighting the importance of studying them for inclusion in a P. vivax antimalarial vaccine.

Published

2021

15. A comparative analysis of SLA-DRB1 genetic diversity in Colombian (creoles and commercial line) and worldwide swine populations

Author

Milena Camargo, Raúl Manzano-Román, Carlos Edmundo Lucero, Anny Camargo, Kewin Rodríguez-Obediente, Carlos F. Suárez, Michel David Bohórquez, Alejandra Martínez, Byron Hernández, Manuel A. Patarroyo, Carmen Teresa Celis-Giraldo, and Universidad de Ciencias Aplicadas y Ambientales (Colombia)

Subjects

0301 basic medicine, Swine, Population genetics, Science, Sus scrofa, Zoology, Locus (genetics), Breeding, Colombia, Biology, Article, 03 medical and health sciences, Gene Frequency, Animals, Typing, DNA sequencing, Allele, Créole pig, Allele frequency, Alleles, Phylogeny, Hybrid, Genetic diversity, Multidisciplinary, Histocompatibility Antigens Class II, 0402 animal and dairy science, Genetic Variation, 04 agricultural and veterinary sciences, 040201 dairy & animal science, Phylogeography, Domestic pig, Genetics, Population, 030104 developmental biology, Haplotypes, Medicine, human activities

Abstract

Analysing pig class II mayor histocompatibility complex (MHC) molecules is mainly related to antigen presentation. Identifying frequently-occurring alleles in pig populations is an important aspect to be considered when developing peptide-based vaccines. Colombian creole pig populations have had to adapt to local conditions since entering Colombia; a recent census has shown low amounts of pigs which is why they are considered protected by the Colombian government. Commercial hybrids are more attractive regarding production. This research has been aimed at describing the allele distribution of Colombian pigs from diverse genetic backgrounds and comparing Colombian SLA-DRB1 locus diversity to that of internationally reported populations. Twenty SLA-DRB1 alleles were identified in the six populations analysed here using sequence-based typing. The amount of alleles ranged from six (Manta and Casco Mula) to nine (San Pedreño). Only one allele (01:02) having > 5% frequency was shared by all three commercial line populations. Allele 02:01:01 was shared by five populations (around > 5% frequency). Global FST indicated that pig populations were clearly structured, as 20.6% of total allele frequency variation was explained by differences between populations (FST = 0.206). This study’s results confirmed that the greatest diversity occurred in wild boars, thereby contrasting with low diversity in domestic pig populations., This work was supported by the Universidad de Ciencias Aplicadas y Ambientales (U.D.C.A).

Published

2021

16. Evaluating the immunogenicity of chemically-synthesised peptides derived from foot-and-mouth disease VP1, VP2 and VP3 proteins as vaccine candidates

Author

Catalina Avendaño, Jairo Oviedo, Diana Diaz-Arévalo, Manuel A. Patarroyo, Fredy Martínez-Panqueva, Manuel E. Patarroyo, César Reyes, Hernando Curtidor, Ibett Rodríguez-Habibe, Michel David Bohórquez, Andrea Camargo-Castañeda, Daniela Cantor, Magnolia Vanegas, Diego Ordóñez, Carmen Teresa Celis-Giraldo, and Sebastián García-Castiblanco

Subjects

Serotype, medicine.medical_treatment, viruses, 030231 tropical medicine, Antibodies, Viral, Virus, 03 medical and health sciences, 0302 clinical medicine, Immune system, Viral entry, Péptidos sintéticos, medicine, Animals, A24 Cruzeiro serotype, 030212 general & internal medicine, General Veterinary, General Immunology and Microbiology, biology, Vacuna, Foot-and-mouth disease virus, Immunogenicity, Public Health, Environmental and Occupational Health, Viral Vaccines, Fiebre aftosa, O1 Campos serotype, biology.organism_classification, Virology, Synthetic peptide, Infectious Diseases, Capsid proteins, Foot-and-Mouth Disease Virus, Foot-and-Mouth Disease, Proteínas, biology.protein, Molecular Medicine, Serotipos, Capsid Proteins, Cattle, Antibody, Peptides, Adjuvant

Abstract

Foot-and-mouth disease (FMD) is one of the most contagious veterinary viral diseases known, having economic, social and potentially devastating environmental impacts. The vaccines currently being marketed/sold around the world for disease control and prevention in bovines do not stimulate the production of antibodies having crossed reactions to different serotypes. This means that if an animal becomes infected by a serotype which has not been included in a vaccine then it will develop the disease. Synthetic peptide vaccines represent a safer option and (depending on the design) can stimulate antibodies protecting against different variants. Based on the forgoing, this work was aimed at evaluating FMDV VP1, VP2 and VP3 protein-derived, modified and chemically-synthesised peptides’ ability to induce an immune response for developing a vaccine contributing towards controlling the disease. VP1, VP2 and VP3 proteins’ conserved regions were selected for this. Peptides from these regions were chemically synthesised; binding assays were then carried out for ascertaining whether they were involved in BHK-21 cell binding. Selected peptides’ structure and location were studied. Peptides which did bind were modified and formulated with Montanide ISA 70 adjuvant; 17 animals were immunised twice with the formulation. The animals were genotyped by amplifying the BoLA-DRB3.2 gene. Blood samples were taken from 17 cattle on day 43 post-first immunisation for studying the formulation's immunogenicity. The sera were used in ELISA, immunofluorescence, flow cytometry, immunoadsorption and seroneutralisation assays. The A24 Cruzeiro and O1 Campos virus serotypes were used for these assays. The results revealed that even though protein exposure and 3D structure might be different amongst serotypes, the antibodies so produced could inhibit virus entry to cells, thereby showing the selected peptides’ in vitro protection-inducing ability. © 2020 Elsevier Ltd

Published

2019

17. Preliminary Evaluation of the Safety and Immunogenicity of an Antimalarial Vaccine Candidate Modified Peptide (IMPIPS) Mixture in a Murine Model

Author

Leonardo Roa, Magnolia Vanegas, Catalina Avendaño, Manuel E. Patarroyo, Diana Diaz-Arévalo, Jennifer Lambraño, Manuel A. Patarroyo, and Hernando Curtidor

Subjects

0301 basic medicine, Single drug dose, Male, Mouse, Unclassified drug, medicine.medical_treatment, Protozoan Proteins, Antibodies, Protozoan, Eritrocitos, Malaria vaccine, In vivo study, Mice, 0302 clinical medicine, Malaria Falciparum, Immunology and Allergy, Medicine, Drug safety, Adjuvant, Mice, Inbred BALB C, biology, Immunogenicity, Immunological tolerance, General Medicine, Repeated drug dose, Erythrocyte, 030220 oncology & carcinogenesis, Vaccine immunogenicity, Female, Antibody, Animal cell, Merozoite, Research Article, lcsh:Immunologic diseases. Allergy, Article Subject, Immunology, Plasmodium falciparum, Antigens, Protozoan, Protozoal protein, Article, 03 medical and health sciences, Drug synthesis, Immune system, Drug formulation, Malaria Vaccines, parasitic diseases, Animals, Animal experiment, business.industry, In vitro study, medicine.disease, biology.organism_classification, Nonhuman, Virology, Malaria, Immune protection inducing protein structure vaccine, Humoral immunity, Disease Models, Animal, 030104 developmental biology, biology.protein, Protein structure, Plasmodium falciparum protein, Immunization, lcsh:RC581-607, business, Peptides, Controlled study

Abstract

Malaria continues being a high-impact disease regarding public health worldwide; the WHO report for malaria in 2018 estimated that ~219 million cases occurred in 2017, mostly caused by the parasite Plasmodium falciparum. The disease cost the lives of more than 400,000 people, mainly in Africa. In spite of great efforts aimed at developing better prevention (i.e., a highly effective vaccine), diagnosis, and treatment methods for malaria, no efficient solution to this disease has been advanced to date. The Fundación Instituto de Inmunología de Colombia (FIDIC) has been developing studies aimed at furthering the search for vaccine candidates for controlling P. falciparum malaria. However, vaccine development involves safety and immunogenicity studies regarding their formulation in animal models before proceeding to clinical studies. The present work has thus been aimed at evaluating the safety and immunogenicity of a mixture of 23 chemically synthesised, modified peptides (immune protection-inducing protein structure (IMPIPS)) derived from different P. falciparum proteins. Single and repeat dose assays were thus used with male and female BALB/c mice which were immunised with the IMPIPS mixture. It was found that single and repeat dose immunisation with the IMPIPS mixture was safe, both locally and systemically. It was observed that the antibodies so stimulated recognised the parasite’s native proteins and inhibited merozoite invasion of red blood cells in vitro when evaluating the humoral immune response induced by the IMPIPS mixture. Such results suggested that the IMPIPS peptide mixture could be a safe candidate to be tested during the next stage involved in developing an antimalarial vaccine, evaluating local safety, immunogenicity, and protection in a nonhuman primate model.

Published

2019

18. Behavior and abundance of Anopheles darlingi in communities living in the Colombian Amazon riverside

Author

Cesar Camilo Prado, Paola Andrea Camargo-Ayala, Manuel A. Patarroyo, Milena Camargo, Sara C. Soto-De Leon, Diego Garzón-Ospina, Carmen Teresa Celis-Giraldo, Manuel E. Patarroyo, Luis Antonio Alvarado-Cabrera, and Juan Ricardo Cubides

Subjects

0301 basic medicine, Plasmodium, Physiology, Plasmodium vivax, Plasmodium malariae, Disease Vectors, Mosquitoes, Population density, Gene, Geographical locations, 0302 clinical medicine, Abundance (ecology), Medicine and Health Sciences, Anopheles darlingi, Species difference, Community living, Species diversity, Protozoans, River, education.field_of_study, Mosquito vector, Multidisciplinary, biology, Amazon rainforest, Malarial Parasites, Anopheles, Eukaryota, Classification, Insects, Plasmodium Falciparum, Parasite identification, Infectious Diseases, Malaria vectors, Nested polymerase chain reaction, Medicine, Female, Brazil, Animal behavior, Research Article, Human, Comportamiento animal, Arthropoda, Evolution, Science, 030231 tropical medicine, Population, Plasmodium falciparum, Zoology, Mosquito Vectors, Colombia, Article, 03 medical and health sciences, Coi gene, Species Specificity, Parasite Groups, parasitic diseases, Parasitic Diseases, Genetics, Animals, Humans, education, Species specificity, Population Density, Mosquito vectors, Animal, Organisms, Biology and Life Sciences, Population abundance, South America, Tropical Diseases, biology.organism_classification, Nonhuman, Invertebrates, Parasitic Protozoans, Insect Vectors, Malaria, Species Interactions, 030104 developmental biology, Isolation and purification, Parasitology, Risk factor, People and places, Apicomplexa, Controlled study

Abstract

In the past few years, relative frequencies of malaria parasite species in communities living in the Colombian Amazon riverside have changed, being Plasmodium vivax (61.4%) and Plasmodium malariae (43.8%) the most frequent. Given this epidemiological scenario, it is important to determine the species of anophelines involved in these parasites’ transmission. This study was carried out in June 2016 in two indigenous communities living close to the tributaries of the Amazon River using protected human bait. The results of this study showed a total abundance of 1,085 mosquitos, of which 99.2% corresponded to Anopheles darlingi. Additionally, only two anopheline species were found, showing low diversity in the study areas. Molecular confirmation of some individuals was then followed by evolutionary analysis by using the COI gene. Nested PCR was used for identifying the three Plasmodium species circulating in the study areas. Of the two species collected in this study, 21.0% of the An. darlingi mosquitoes were infected with P. malariae, 21.9% with P. vivax and 10.3% with Plasmodium falciparum. It exhibited exophilic and exophagic behavior in both study areas, having marked differences regarding its abundance in each community (Tipisca first sampling 49.4%, Tipisca second sampling 39.6% and Doce de Octubre 10.9%). Interestingly, An. mattogrossensis infected by P. vivax was found for the first time in Colombia (in 50% of the four females collected). Analysis of An. darlingi COI gene diversity indicated a single population maintaining a high gene flow between the study areas. The An. darlingi behavior pattern found in both communities represents a risk factor for the region’s inhabitants living/working near these sites. This highlights the need for vector control efforts such as the use of personal repellents and insecticides for use on cattle, which must be made available in order to reduce this Anopheline’s abundance. © 2019 Prado et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Published

2019

19. Loop-Mediated Isothermal Amplification as Point-of-Care Diagnosis for Neglected Parasitic Infections

Author

Manuel A. Patarroyo and Catalina Avendaño

Subjects

0301 basic medicine, medicine.medical_specialty, Trichuriasis, Esquistosomiasis Urinaria, Point-of-Care Systems, 030231 tropical medicine, Helminthiasis, Review, Infecciones por Uncinaria, Catalysis, Helmintiasis, Administración Masiva de Medicamentos, lcsh:Chemistry, Inorganic Chemistry, 03 medical and health sciences, 0302 clinical medicine, LAMP, medicine, neglected parasitic infection, Parasitic Diseases, Taeniasis, Animals, Humans, Parasites, Physical and Theoretical Chemistry, Intensive care medicine, lcsh:QH301-705.5, Molecular Biology, Spectroscopy, Lymphatic filariasis, business.industry, Organic Chemistry, Neglected Diseases, Cysticercosis, General Medicine, medicine.disease, sensitivity, Echinococcosis, Computer Science Applications, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, Molecular Diagnostic Techniques, diagnostic test, Neglected tropical diseases, business, Onchocerciasis, Nucleic Acid Amplification Techniques

Abstract

The World Health Organisation (WHO) has placed twenty diseases into a group known as neglected tropical diseases (NTDs), twelve of them being parasitic diseases: Chagas’ disease, cysticercosis/taeniasis, echinococcosis, food-borne trematodiasis, human African trypanosomiasis (sleeping sickness), leishmaniasis, lymphatic filariasis, onchocerciasis (river blindness), schistosomiasis, soil-transmitted helminthiasis (ascariasis, hookworm, trichuriasis), guinea-worm and scabies. Such diseases affect millions of people in developing countries where one of the main problems concerning the control of these diseases is diagnosis-based due to the most affected areas usually being far from laboratories having suitable infrastructure and/or being equipped with sophisticated equipment. Advances have been made during the last two decades regarding standardising and introducing techniques enabling diagnoses to be made in remote places, i.e., the loop-mediated isothermal amplification (LAMP) technique. This technique’s advantages include being able to perform it using simple equipment, diagnosis made directly in the field, low cost of each test and the technique’s high specificity. Using this technique could thus contribute toward neglected parasite infection (NPI) control and eradication programmes. This review describes the advances made to date regarding LAMP tests, as it has been found that even though several studies have been conducted concerning most NPI, information is scarce for others.

Published

2020

20. Molecular Markers for Detecting Schistosoma Species by Loop-Mediated Isothermal Amplification

Author

Begoña Febrer-Sendra, Julio López-Abán, Pedro Fernández-Soto, Anna Sala-Vizcaíno, Manuel A. Patarroyo, Ana Oleaga, Catalina Avendaño, Beatriz Crego-Vicente, Juan García-Bernalt Diego, Belén Vicente, Antonio Muro, European Commission, Junta de Castilla y León, Fernández Soto, Pedro [0000-0002-4089-4307], Avendaño, Catalina [0000-0001-6466-5181], Crego Vicente, Beatriz [0000-0002-9560-0492], García-Bernalt Diego, Juan [0000-0001-6947-6806], Oleaga, Ana [0000-0002-8019-7354], López Abán, Julio [0000-0001-8509-0727], Patarroyo, Manuel A. [0000-0002-4751-2500], Muro, Antonio [0000-0003-0244-4740], Fernández Soto, Pedro, Avendaño, Catalina, Crego Vicente, Beatriz, García-Bernalt Diego, Juan, Oleaga, Ana, López Abán, Julio, Patarroyo, Manuel A., and Muro, Antonio

Subjects

0301 basic medicine, LAMP method, Medicine (General), Article Subject, Schistosoma intercalatum, 030231 tropical medicine, Clinical Biochemistry, Reduced nicotinamide adenine dinucleotide, Loop-mediated isothermal amplification, Esquistosomiasis, Genomic DNA, Esquistosomosis, Schistosomiasis, Molecular marker, Helmintiasis, 03 medical and health sciences, 0302 clinical medicine, R5-920, Species Specificity, Limit of Detection, Diagnosis, parasitic diseases, Genetics, medicine, Animals, Humans, Molecular Biology, Schistosoma haematobium, biology, Schistosoma japonicum, Biochemistry (medical), Computational Biology, General Medicine, DNA, Protozoan, biology.organism_classification, medicine.disease, Virology, Early Diagnosis, Schistosoma bovis, 030104 developmental biology, Molecular Diagnostic Techniques, Parasitic disease, Schistosoma mekongi, Schistosoma, Schistosoma mansoni, Nucleic Acid Amplification Techniques, Internal transcribed spacer 1, Research Article

Abstract

11 páginas, 1 tablas, 6 figuras, Schistosomiasis is considered a neglected parasitic disease. Around 280,000 people die from it annually, and more than 779 million people are at risk of getting infected. The schistosome species which infect human beings are Schistosoma mansoni, Schistosoma haematobium, Schistosoma intercalatum, Schistosoma japonicum, Schistosoma guineensis, and Schistosoma mekongi. This disease is also of veterinary significance; the most important species being Schistosoma bovis since it causes the disease in around 160 million livestock in Africa and Asia. This work was aimed at designing and developing a genus-specific loop-mediated isothermal amplification (LAMP) method for detecting the most important schistosome species affecting humans and for the species-specific detection of S. bovis. Bioinformatics tools were used for primer design, and the LAMP method was standardised for detecting the ITS-1 region from S. intercalatum, S. haematobium, S. mansoni, S. japonicum, and S. bovis DNA (generic test) and the NADH 1 gene for specifically detecting S. bovis (at different DNA concentrations). Detection limits achieved were 1 pg DNA for S. mansoni, 0.1 pg for S. haematobium, 1 pg for S. intercalatum, and 10 pg for S. bovis. No amplification for S. japonicum DNA was obtained. The LAMP designed for the amplification of S. bovis NADH-1 worked specifically for this species, and no other DNA from other schistosome species included in the study was amplified. Two highly sensitive LAMP methods for detecting different Schistosoma species important for human and veterinary health were standardised. These methods could be very useful for the diagnosis and surveillance of schistosome infections., This work was funded by the Institute of Health Carlos III, ISCIII, Spain (http:// www.isciii.es), grants: RICET RD16/0027/0018 (AMA), PI19/01727 (PFS), PI-0001-2019 Junta de Andalucía (AMA, PFS), European Union cofinancing by FEDER (Fondo Europeo de Desarrollo Regional) “Una manera de hacer Europa” and by the Plan TCUE 2018–2020 European Union cofinancing by FEDER and the Junta de Castilla y León.

Published

2020

21. The prevalence of Chlamydia psittaci in confiscated Psittacidae in Colombia

Author

Alejandra Ruiz-Laiton, Norela Molano-Ayala, Sebastián García-Castiblanco, Angie Melissa Puentes-Orozco, Ana Carolina Falla, Milena Camargo, Leonardo Roa, Alexander Rodríguez-López, Manuel Alfonso Patarroyo, and Catalina Avendaño

Subjects

Parrots, Chlamydophila psittaci, Food Animals, Bird Diseases, Seroepidemiologic Studies, Prevalence, Animals, Animal Science and Zoology, Colombia, Psittacosis

Abstract

Chlamydia psittaci is a highly zoonotic bacteria distributed worldwide; it is responsible for psittacosis, one of the most important infectious diseases affecting the Psittacidae, mostly parrots. This work was aimed at determining C. psittaci prevalence and genotype in 177 parrots confiscated in Colombia; cloacal swab (166) and faecal (177) samples were analysed from birds confiscated and housed in a Temporary Wildlife Reception Centre (Centro de Reception de Fauna Temporal). Conventional PCR was run on the samples for amplifying the MOMP gene and then the ompA gene. The C. psittaci genotype A was found in 81.3 % (144/177) of the birds analysed. Cloacal swabs accounted for 129/166 (77.7 %) positive samples and faecal matter for 53/177 (29.9 %), 38 birds proving positive for both types of sample; there was an 8.15 times greater probability of detection for cloacal swabs compared to faecal swabs (p0.05). Clinical examination findings were correlated with the animals' positivity for cloacal swabs, faecal matter or both, finding a statistically significant relationship with low respiratory rate (p0.05) and broken plumage for cloacal swab sample results (p0.1). Even though 85 % seroprevalence has previously been reported in Colombia using indirect ELISA, this study reports for the first time C. psittaci genotype A endemicity in psittacines in captivity in Colombia using molecular techniques, considering the zoonotic risk involved in having these birds as pets.

Published

2022

22. Evaluating the anti-leishmania activity of Lucilia sericata and Sarconesiopsis magellanica blowfly larval excretions/secretions in an in vitro model

Author

María Clara Echeverry, Manuel A. Patarroyo, Felio J. Bello, and Mayra Juliana Laverde-Paz

Subjects

Sarconesiopsis magellanica, 0301 basic medicine, Meglumine antimonate, Macrophage, Cytotoxicity, Parasite load, Parasite Load, Antiprotozoal activity, 0302 clinical medicine, Parasite hosting, Disease, Promastigote, Quantitative analysis, Leishmaniasis, Leishmania, Leishmania panamensis, Microscopy, biology, Ic50, Parasite, Infectious Diseases, Insect proteins, Larva, Insect Proteins, Insect protein, Human, Lucilia sericata, Veterinary (miscellaneous), 030231 tropical medicine, 030106 microbiology, Excretion, U937, Concentration response, Lc50, Lucilia, Fly, Article, Survival index, Microbiology, Secretion (process), 03 medical and health sciences, Calliphoridae, medicine, Animals, U-937 cell line, Amastigote, Larval excretion/secretion, Drug effects, Animal, Cell viability assay, Diptera, Macrophages, Intracellular parasite, fungi, Modeling, In vitro study, Nonhuman, biology.organism_classification, medicine.disease, In vitro, Human cell, Host cell, Insect Science, Concentration (parameters), Immunology, Resazurin assay, Antileishmanial agent, Parasitology, Controlled study

Abstract

Leishmaniasis is a vector-borne disease caused by infection by parasites from the genus Leishmania. Clinical manifestations can be visceral or cutaneous, the latter mainly being chronic ulcers. This work was aimed at evaluating Calliphoridae Lucilia sericata- and Sarconesiopsis magellanica-derived larval excretions and secretions' (ES) in vitro anti-leishmanial activity against Leishmania panamensis. Different larval-ES concentrations from both blowfly species were tested against either L. panamensis promastigotes or intracellular amastigotes using U937-macrophages as host cells. The Alamar Blue method was used for assessing parasite half maximal inhibitory concentration (IC50) and macrophage cytotoxicity (LC50). The effect of larval-ES on L. panamensis intracellular parasite forms was evaluated by calculating the percentage of infected macrophages, parasite load and toxicity. L. sericata–derived larval-ES L. panamensis macrophage LC50 was 72.57 ?g/mL (65.35–80.58 ?g/mL) and promastigote IC50 was 41.44 ?g/mL (38.57–44.52 ?g/mL), compared to 34.93 ?g/mL (31.65–38.55 ?g/mL) LC50 and 23.42 ?g/mL (22.48–24.39 ?g/mL) IC50 for S. magellanica. Microscope evaluation of intracellular parasite forms showed that treatment with 10 ?g/mL L. sericata ES and 5 ?g/mL S. magellanica ES led to a decrease in the percentage of infected macrophages and the amount of intracellular amastigotes. This study produced in vitro evidence of the antileishmanial activity of larval ES from both blowfly species on different parasitic stages and showed that the parasite was more susceptible to the ES than it's host cells. The antileishmanial effect on L. panamensis was more evident from S. magellanica ES. © 2017 Elsevier B.V.

Published

2018

23. Bovine leukaemia virus DNA in fresh milk and raw beef for human consumption

Author

María Fernanda Gutiérrez, K S Ríos-Hernandez, Sandra P. Salas-Cárdenas, Manuel A. Patarroyo, Adriana P. Corredor-Figueroa, T C Guzmán-Garzón, and Nury N. Olaya-Galán

Subjects

0301 basic medicine, Sanger sequencing, Epidemiology, Multiplex polymerase chain reaction, viruses, Bovine leukemia virus, Polymerase Chain Reaction, law.invention, Zoonosis, law, Leukemia Virus, Bovine, Viral, Polymerase chain reaction, Bovine, Leukemia Virus, Provirus, Raw milk, Milk, Infectious Diseases, Beef, Sequence Analysis, Human, Meat, DNA sequence, DNA determination, Biology, Article, Virus, Leucosis, 03 medical and health sciences, Viral entry, Virology, Virus DNA, Genetics, Transmission, Animals, Humans, Foodborne infection, Animal, Bovine leukaemia virus, DNA, Sequence Analysis, DNA, Enzootic Bovine Leukosis, Nonhuman, biology.organism_classification, 030104 developmental biology, Structural gene, DNA, Viral, Raw meat, Cattle, Fresh Milk, Controlled study, Multiplex Polymerase Chain Reaction

Abstract

Bovine leukaemia virus (BLV) is the causative agent of enzootic bovine leucosis, which has been reported worldwide. BLV has been found recently in human tissue and it could have a significant impact on human health. A possible hypothesis regarding viral entry to humans is through the consumption of infected foodstuffs. This study was aimed at detecting the presence of BLV DNA in raw beef and fresh milk for human consumption. Nested PCR directed at the BLV gag gene (272 bp) was used as a diagnostic test. PCR products were confirmed by Sanger sequencing. Forty-nine per cent of the samples proved positive for the presence of proviral DNA. This is the first study highlighting the presence of the BLV gag gene in meat products for human consumption and confirms the presence of the viral DNA in raw milk, as in previous reports. The presence of viral DNA in food products could suggest that viral particles may also be found. Further studies are needed to confirm the presence of infected viral particles, even though the present findings could represent a first approach to BLV transmission to humans through foodstuff consumption. Copyright © Cambridge University Press 2017. This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.

Published

2017

24. Peptides derived of kunitz-type serine protease inhibitor as potential vaccine against experimental schistosomiasis

Author

Manuel A. Patarroyo, Pedro Fernández-Soto, Julio López-Abán, Antonio Muro, Juan Hernández-Goenaga, Belén Vicente Santiago, Anna V. Protasio, Esther del Olmo, and Magnolia Vanegas

Subjects

0301 basic medicine, CD1 antigen, Mouse, Enzyme linked immunosorbent assay, Immunomodulator AA0029, Gene Expression, Peptide, Biomphalaria glabrata, Animal tissue, Schistosoma japonicum, Epitope, kunitz-type proteins, 0302 clinical medicine, synthetic peptide, Gene expression, Immunology and Allergy, Schistosomiasis, RNA-Seq, Molecular genetics, Schistosoma granulosus, Cercaria, Original Research, chemistry.chemical_classification, Mice, Inbred BALB C, Vaccines, biology, Fibrinolysis, Vaccination, Helminth Proteins, Schistosoma mansoni, Kunitz-type proteins, helminth vaccines, immunomodulator AA0029, Polymerase chain reaction, Peptide synthesis, Schistosoma haematobium, Female, Ion channel, lcsh:Immunologic diseases. Allergy, Adult, Stereomicroscopy, Serine Proteinase Inhibitors, Schistosomulum, Bioinformatics, Immunology, Helminth vaccines, Reversed phase high performance liquid chromatography, Article, Microbiology, 03 medical and health sciences, Upregulation, parasitic diseases, medicine, Animals, Animal model, Protease inhibitor (pharmacology), Animal experiment, Inflammation, Serine protease, Serine proteinase inhibitor, Fasciola hepatica, Nonhuman, biology.organism_classification, medicine.disease, Virology, Schistosomiasis mansoni, Drug efficacy, Synthetic peptide, 030104 developmental biology, chemistry, biology.protein, Echinococcus multilocularis, lcsh:RC581-607, Peptides, Vaccine, Controlled study, ADAD vaccination system, 030215 immunology

Abstract

Schistosomiasis is a significant public health problem in sub-Saharan Africa, China, Southeast Asia, and regions of South and Central America affecting about 189 million people. Kunitz-type serine protease inhibitors have been identified as important players in the interaction of other flatworm parasites with their mammalian hosts. They are involved in host blood coagulation, fibrinolysis, inflammation, and ion channel blocking, all of them critical biological processes, which make them interesting targets to develop a vaccine. Here, we evaluate the protective efficacy of chemically synthesized T- and B-cell peptide epitopes derived from a kunitz protein from Schistosoma mansoni. Putative kunitz-type protease inhibitor proteins were identified in the S. mansoni genome, and their expression was analyzed by RNA-seq. Gene expression analyses showed that the kunitz protein Smp_147730 (Syn. Smp_311670) was dramatically and significantly up-regulated in schistosomula and adult worms when compared to the invading cercariae. T- and B-cell epitopes were predicted using bioinformatics tools, chemically synthesized, and formulated in the Adjuvant Adaptation (ADAD) vaccination system. BALB/c mice were vaccinated and challenged with S. mansoni cercariae. Kunitz peptides were highly protective in vaccinated BALB/c mice showing significant reductions in recovery of adult females (89–91%) and in the numbers of eggs trapped in the livers (77–81%) and guts (57–77%) of mice. Moreover, liver lesions were significantly reduced in vaccinated mice (64–65%) compared to infected control mice. The vaccination regime was well-tolerated with both peptides. We propose the use of these peptides, alone or in combination, as reliable candidates for vaccination against schistosomiasis. © Copyright © 2019 Hernández-Goenaga, López-Abán, Protasio, Vicente Santiago, del Olmo, Vanegas, Fernández-Soto, Patarroyo and Muro.

Published

2019

25. NHP-immunome: A translational research-oriented database of non-human primate immune system proteins

Author

Manuel A. Patarroyo, David F. Plaza, and Manuel F. Gómez

Subjects

Molecular phylogeny, Immune system orthology, Translational Research, Biomedical, Callithrix jacchus, Rna sequence, Drug Discovery, Protein Isoforms, Drug safety, Databases, Protein, Phylogeny, Priority journal, Drug discovery, Genetic transcription, Isoprotein, Callithrix, Models, Animal, Aotidae, Chemokines, Databases, Nucleic Acid, Human, Primates, Pan troglodytes, Immunology, Splicing/protein isoforms, Translational research, Genomics, Computational biology, Biology, Article, Interleukin-12 Subunit p35, Immune system, Phylogenetics, Animals, Humans, Gene, Interleukin 12p35, Non human primate, Primate, Nonhuman, Macaca mulatta, Rna analysis, Immunome, Drug Design, Immune System, Rhesus monkey, Protein expression, Aotus nancymaae, Gene expression

Abstract

We are currently living the advent of a new age for medicine in which basic research is being quickly translated into marketable drugs, and the widespread access to genomics data is allowing the design and implementation of personalized solutions to medical conditions. Non-human primates (NHP) have gained an essential role in drug discovery and safety testing due to their close phylogenetic relationship to humans. In this study, a collection of well characterized genes of the human immune system was used to define the orthology-based immunome in four NHP species, with carefully curated annotations available based on multi-tissue RNA-seq datasets. A broad variation in the frequency of expressed protein isoforms was observed between species. Finally, this analysis also revealed the lack of expression of at least four different chemokines in new-world primates. In addition, transcripts corresponding to four genes including interleukin 12 subunit alpha were expressed in humans but no other primate species analyzed. Access to the non-human primate immunome is available in http://www.fidic.org.co:90/proyecto/. © 2019 Elsevier Inc.

Published

2019

26. Designing and optimizing new antimicrobial peptides: all targets are not the same

Author

Manuel E. Patarroyo, Adriana Barreto-Santamaría, and Hernando Curtidor

Subjects

Antibiotic resistance, Clinical Biochemistry, Antibiotics, Hydrophobicity, Review, 030204 cardiovascular system & hematology, Antimicrobial activity, Antiparasitic activity, Minimum inhibitory concentration (mic), 0302 clinical medicine, Selectivity, Antifungal activity, Antiviral activity, Priority journal, Structure activity relation, Sar study, Antineoplastic agent, 030220 oncology & carcinogenesis, Antibiofilm activity, Drug selectivity, Antimicrobial peptides, Antifungal agent, Drug stability, Human, Antiinflammatory activity, Drug Industry, medicine.drug_class, Microbial Sensitivity Tests, Saccharomyces cerevisiae, Static electricity, General Biochemistry, Genetics and Molecular Biology, Drug design, Microbiology, Amino acid sequence, Drug cost, 03 medical and health sciences, Antiinflammatory agent, medicine, Animals, Humans, Polypeptide antibiotic agent, Antivirus agent, Antineoplastic activity, Antiparasitic agent, business.industry, Amino acid composition, Bacterial membrane, Biochemistry (medical), Hemolytic activity, Computational Biology, Nonhuman, Drug Design, Protein structure, Antibacterial activity, business, Antimicrobial Cationic Peptides

Abstract

Because the resistance of microorganisms to the available antibiotics is a growing healthcare problem worldwide, the search for new antimicrobial peptides (AMPs) that provide useful therapeutic options has been increasing in importance. Many initial candidates have had to be discarded after having advanced to the preclinical and clinical stages. This has led to substantial losses in terms of time and money. For that reason, the essential characteristics of AMPs (i.e. their activity, selectivity, stability in physiological conditions and low production cost) must be considered in their design. In addition, peptides could be active against several kinds of cells with activity and selectivity resulting from interaction with multiple target cell components, which sometimes are present in mammalian cells as well. Thus, the cellular composition is important in the AMP-target cell interaction and must be considered in the design of AMPs, too. This review describes general aspects of AMP design, limitations concerning their therapeutic application, and optimization strategies for overcoming such limitations. © 2019, © 2019 Informa UK Limited, trading as Taylor and Francis Group.

Published

2019

27. Sarconesin II, a New Antimicrobial Peptide Isolated from Sarconesiopsis magellanica Excretions and Secretions

Author

Andrea Díaz-Roa, Flávio Lopes Alves, Orlando Torres-García, Antonio Miranda, Monamaris M. Borges, Felio J. Bello, Abraham Espinoza-Culupú, Ivan N. Avino, Manuel A. Patarroyo, and Pedro Ismael da Silva

Subjects

Models, Molecular, Sarconesiopsis magellanica, antimicrobial peptide, Chemical Phenomena, Dose-response relationship, Protein Conformation, Pharmaceutical Science, Microbial sensitivity tests, medicine.disease_cause, Mass Spectrometry, Analytical Chemistry, Chemical phenomena, alpha-helix, Bacterium, Models, Drug Discovery, high pressure liquid, Alpha-helix, Antiinfective agent, Chromatography, High Pressure Liquid, Antimicrobial cationic peptides, 0303 health sciences, Antimicrobial cationic peptide, Chromatography, Structure activity relation, biology, Chemistry, drug, Microbial sensitivity test, Calliphoridae, Antimicrobial, Anti-Bacterial Agents, Protein conformation, Chemistry (miscellaneous), Staphylococcus aureus, Molecular Medicine, Antimicrobial peptide, Antimicrobial peptides, Microbial Sensitivity Tests, Biosynthesis, Article, Molecular model, Microbiology, lcsh:QD241-441, Amino acid sequence, Structure-Activity Relationship, 03 medical and health sciences, Minimum inhibitory concentration, lcsh:Organic chemistry, Anti-bacterial agents, Dose response, medicine, Animals, Amino Acid Sequence, molecular, Physical and Theoretical Chemistry, Escherichia coli, 030304 developmental biology, Dose-Response Relationship, Drug, Mass spectrometry, Bacteria, 030306 microbiology, Pseudomonas aeruginosa, Animal, Diptera, Organic Chemistry, biology.organism_classification, Structure-activity relationship, Drug effect, Metabolism, Isolation and purification, Micrococcus luteus, Antimicrobial Cationic Peptides, High performance liquid chromatography

Abstract

Antibiotic resistance is at dangerous levels and increasing worldwide. The search for new antimicrobial drugs to counteract this problem is a priority for health institutions and organizations, both globally and in individual countries. Sarconesiopsis magellanica blowfly larval excretions and secretions (ES) are an important source for isolating antimicrobial peptides (AMPs). This study aims to identify and characterize a new S. magellanica AMP. RP-HPLC was used to fractionate ES, using C18 columns, and their antimicrobial activity was evaluated. The peptide sequence of the fraction collected at 43.7 min was determined by mass spectrometry (MS). Fluorescence and electronic microscopy were used to evaluate the mechanism of action. Toxicity was tested on HeLa cells and human erythrocytes, physicochemical properties were evaluated. The molecule in the ES was characterized as sarconesin II and it showed activity against Gram-negative (Escherichia coli MG1655, Pseudomonas aeruginosa ATCC 27853, P. aeruginosa PA14) and Gram-positive (Staphylococcus aureus ATCC 29213, Micrococcus luteus A270) bacteria. The lowest minimum inhibitory concentration obtained was 1.9 &mu, M for M. luteus A270, the AMP had no toxicity in any cells tested here and its action in bacterial membrane and DNA was confirmed. Sarconesin II was documented as a conserved domain of the ATP synthase protein belonging to the Fli-1 superfamily. The data reported here indicated that peptides could be alternative therapeutic candidates for use in infections against Gram-negative and Gram-positive bacteria and eventually as a new resource of compounds for combating multidrug-resistant bacteria.

Published

2019

28. Critical role of HLA-DRβ* binding peptides' peripheral flanking residues in fully-protective malaria vaccine development

Author

César Reyes, Luisa Tabares, Manuel A. Patarroyo, Manuel E. Patarroyo, Rocío Rojas-Luna, and Jorge Aza-Conde

Subjects

0301 basic medicine, HLA DRB1 antigen, Peptide binding, HLA DR antigen, Malaria vaccine, Immunological memory, Peripheral flanking residues, Biochemistry, Synthesis, 0302 clinical medicine, Aminoácidos, Immune protection-inducing peptide structure, Priority journal, Amino acid side-chain polarity, Sequence analysis, Immune protection-inducing peptide structure (IMPIPS), Aotus, Immunogenicity, Chemistry, Physical chemistry, Vacunas contra la Malaria, 030220 oncology & carcinogenesis, Peptide, Aotidae, Immunology, Antigen presentation, Biophysics, Human leukocyte antigen, Biology, Structure analysis, Article, Binding site, 03 medical and health sciences, Immune system, Antigen, Malaria Vaccines, Animals, Animal experiment, Merozoítos, Molecular Biology, Hydrogen bond, Binding Sites, Animal, T-cell receptor, Cell Biology, Nonhuman, Molecular biology, complexPeripheral flanking residues, Binding affinity, 030104 developmental biology, Protein structure, MHCII-peptide-TCR complex, Peptides, Plasmodium vivax, HLA-DRB1 Chains, SLPI

Abstract

A vaccine candidate component must fit perfectly into the antigen presenting HLA-DR?* molecule's groove (or canonical nonapeptide) peptide binding region (PBR) during antigen presentation to the T-cell receptor (TCR), conforming a specific and stable macromolecular complex and induce an appropriate immune response. Antigen's peripheral flanking residues (PFR, positions (p) -p2 and p10) must thus establish strong interactions with the HLA-DR?* - TCR complex. These amino acids (aa) have specific physico-chemical characteristics enabling differentiation between non-protective but antibody-inducer (NPAI), short-lived protection inducer (SLPI) and long-lasting protection inducer (LLPI) peptides when used as an antimalarial vaccine component. Their identification (through 1H-NMR and Aotus monkey immunization) and proper modification contributes to a logical and rational methodology for long-lasting and protective immunological memory. © 2017 Elsevier Inc.

Published

2017

29. Structural analysis of owl monkey MHC-DR shows that fully-protective malaria vaccine components can be readily used in humans

Author

Jorge Aza-Conde, Laura Pabón, Ana Barrera, Manuel A. Patarroyo, Manuel E. Patarroyo, and Carlos F. Suárez

Subjects

0301 basic medicine, HLA DRB1 antigen, HLA antigen class 2, Hydrophobicity, Biochemistry, Malaria vaccine, Western blotting, Antigen-Antibody Reactions, 0302 clinical medicine, Antigen antibody reaction, HLA-peptide binding, Priority journal, biology, Proton nuclear magnetic resonance, Vaccination, Aotus, Immunogenicity, Chemistry, 030220 oncology & carcinogenesis, Aotidae, Human, Plasmodium falciparum, Immunology, Biophysics, Human leukocyte antigen, Major histocompatibility complex, Static electricity, Article, 03 medical and health sciences, Immune system, Immunity, parasitic diseases, Malaria Vaccines, medicine, Animals, Humans, Animal model, Molecular Biology, Malaria falciparum, IMPIPS, Animal, Histocompatibility Antigens Class II, Cell Biology, medicine.disease, biology.organism_classification, Nonhuman, Virology, MHC-DR, Immunofluorescence test, 030104 developmental biology, biology.protein, Genetic variability, Malarial-vaccine, Controlled study, Malaria

Abstract

More than 50 years ago the owl monkey (genus Aotus) was found to be highly susceptible to developing human malaria, making it an excellent experimental model for this disease. Microbes and parasites' (especially malaria) tremendous genetic variability became resolved during our malaria vaccine development, involving conserved peptides having high host cell binding activity (cHABPs); however, cHABPs are immunologically silent and must be specially modified (mHABPs) to induce a perfect fit into major histocompatibility complex (MHC) molecules (HLA in humans). Since malarial immunity is mainly antibody-mediated and controlled by the HLA-DRB genetic region, ?1000 Aotus have been molecularly characterised for MHC-DRB, revealing striking similarity between human and Aotus MHC-DRB repertories. Such convergence suggested that a large group of immune protection-inducing protein structures (IMPIPS), highly immunogenic and protection inducers against malarial intravenous challenge in Aotus, could easily be used in humans for inducing full protection against malaria. We highlight the value of a logical and rational methodology for developing a vaccine in an appropriate animal model: Aotus monkeys. © 2017 Elsevier Inc.

Published

2017

30. The effect of Lucilia sericata - and Sarconesiopsis magellanica -derived larval therapy on Leishmania panamensis

Author

Andrea Díaz-Roa, María Antonia Gaona, Lissa Cruz-Saavedra, Jesús A. Cortés-Vecino, Martha S. Ayala, Manuel A. Patarroyo, Felio J. Bello, and Mónica L. Cruz

Subjects

Sarconesiopsis magellanica, 0301 basic medicine, Klebsiella pneumoniae infection, Physiology, Procedures, Animal tissue, In vivo study, 0302 clinical medicine, Cricetinae, Mixed infection, Parasite hosting, Biological therapy, Treatment outcome, Escherichia coli infection, Leishmania guyanensis, Bacteria (microorganisms), Antiinfective agent, Leishmaniasis, Leishmania panamensis, Larva, Rodent, biology, Coinfection, cutaneous, Larval therapy, Anti-Bacterial Agents, Co-infection, Biological Therapy, Parasite, Maggot therapy, Treatment Outcome, Infectious Diseases, Skin ulcer, Insect proteins, Insect Proteins, medicine.symptom, Insect protein, Human, medicine.medical_specialty, Lucilia sericata, Syrian hamster, Veterinary (miscellaneous), 030106 microbiology, 030231 tropical medicine, Leishmaniasis, Cutaneous, Histopathology, Lucilia, Fly, Article, Scar formation, Skin leishmaniasis, Secretion (process), 03 medical and health sciences, Calliphoridae, Cutaneous leishmaniasis, Mesocricetus auratus, Anti-bacterial agents, Hamster, medicine, Animalia, Animals, Humans, Animal model, Animal experiment, Disease severity, Ulcer, Experimental study, Mesocricetus, Animal, Diptera, Nonhuman, medicine.disease, biology.organism_classification, Surgery, Clinical effectiveness, Debridement, Insect Science, Parasitology, Antibacterial activity, Larval excretions and secretions, Controlled study

Abstract

This study's main objective was to evaluate the action of larval therapy derived from Lucilia sericata and Sarconesiopsis magellanica (blowflies) regarding Leishmania panamensis using an in vivo model. Eighteen golden hamsters (Mesocricetus auratus) were used; they were divided into 6 groups. The first three groups consisted of 4 animals each; these, in turn, were internally distributed into subgroups consisting of 2 hamsters to be used separately in treatments derived from each blowfly species. Group 1 was used in treating leishmanial lesions with larval therapy (LT), whilst the other two groups were used for evaluating the used of larval excretions and secretions (ES) after the ulcers had formed (group 2) and before they appeared (group 3). The three remaining groups (4, 5 and 6), consisting of two animals, were used as controls in the experiments. Biopsies were taken for histopathological and molecular analysis before, during and after the treatments; biopsies and smears were taken for assessing parasite presence and bacterial co-infection. LT and larval ES proved effective in treating the ulcers caused by the parasite. There were no statistically significant differences between the blowfly species regarding the ulcer cicatrisation parameters. There were granulomas in samples taken from lesions at the end of the treatments. The antibacterial action of larval treatment regarding co-infection in lesions caused by the parasite was also verified. These results potentially validate effective LT treatment against cutaneous leishmaniasis aimed at using it with humans in the future. © 2016 Elsevier B.V.

Published

2016

31. Gauche+ side-chain orientation as a key factor in the search for an immunogenic peptide mixture leading to a complete fully protective vaccine

Author

Andrés Poloche, Adriana Bermúdez, Hannia Almonacid, Manuel A. Patarroyo, Armando Moreno-Vranich, Dayana Calderon, and Manuel E. Patarroyo

Subjects

Unclassified drug, Protein Conformation, Enzyme linked immunosorbent assay, Immunofluorescence, HLA-DR beta-Chains, Antibody formation, Antibodies, Protozoan, Peptide binding, Antibody production, Malaria vaccine, Western blotting, falciparum, Protein structure, Malaria vaccines, immunologic, Malaria, Falciparum, Peptide sequence, Priority journal, Peptide vaccine, chemistry.chemical_classification, Antibody titer, Protection, Proton nuclear magnetic resonance, Sporozoite, Vaccination, Antimalarial vaccine, Gauche(+), Aotus, Immunogenicity, Amino acid, Peptide mixtures, Infectious Diseases, Protein conformation, Aotus trivirgatus, Molecular Medicine, Oligopeptides, Genotype, ?(1) angle, Stereochemistry, Protective immunity, Binding sites, Protein subunit, Molecular Sequence Data, Hla-dr beta-chains, Biology, Antibodies, Article, Amino acid sequence, Adjuvants, Immunologic, Molecular sequence data, Malaria Vaccines, Animals, Adjuvants, Animal experiment, Amino Acid Sequence, Immune response, Binding site, Polyproline helix, Binding Sites, General Veterinary, General Immunology and Microbiology, protozoan, Drug mixture, Public Health, Environmental and Occupational Health, Nonhuman, Virology, Malaria, Very high long lasting antibody inducing modified high activity binding peptide, chemistry, Antibody Formation, Gauche side chain orientation, Controlled study

Abstract

Topological and stereo-electron characteristics are essential in major histocompability class II-peptide-T-cell receptor (MHC-p-TCR) complex formation for inducing an appropriate immune response. Modified high activity binding peptides (mHABPs) were synthesised for complete full protection antimalarial vaccine development producing a large panel of individually fully protection-inducing protein structures (FPIPS) and very high long-lasting antibody-inducing (VHLLAI) mHABPs. Most of those which did not interfere, compete, inhibit or suppress their individual VHLLAI or FPIPS activity contained or displayed a polyproline II-like (PPIIL) structure when mixed. Here we show that amino acid side-chains located in peptide binding region (PBR) positions p3 and p7 displayed specific electron charges and side-chain gauche+ orientation for interacting with the TCR. Based on the above, and previously described physicochemical principles, non-interfering, long-lasting, full protection-inducing, multi-epitope, multistage, minimal subunit-based chemically synthesised mHABP mixtures can be designed for developing vaccines against diseases scourging humankind, malaria being one of them. © 2014 Elsevier Ltd.

Published

2014

32. Plasmodium vivax in vitro continuous culture: the spoke in the wheel

Author

Darwin A. Moreno-Pérez, Maritza Bermúdez, Gabriela Arévalo-Pinzón, Manuel A. Patarroyo, and Hernando Curtidor

Subjects

0301 basic medicine, Microbiological Techniques, Reticulocytes, Plasmodium vivax, Growth, Review, Cell Maturation, Procedures, Development And Aging, Parasite hosting, Plasmodium Vivax, Reticulocyte, Genetics, Genetic Strain, biology, Continuous Culture, Culture Medium, Reticulocitos, Chemistry, Infectious Diseases, Parasite Isolation, Receptor, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, Medios de Cultivo, Parasite Phenomena And Functions, Plasmodium falciparum, Ligand, Protein Function, Parasite Development, Parasite Strain, Parasite Replication, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, parasitic diseases, medicine, Animals, lcsh:RC109-216, Controlled Study, Tropism, Animal, Parasite Growth, Genetic strain, Host Cell, In vitro culture, biology.organism_classification, medicine.disease, Nonhuman, Enfermedades, Malaria, Culture Media, 030104 developmental biology, Parasitology, Microbiological Examination, Cd71 Antigen, Target Cell, Function (biology)

Abstract

Understanding the life cycle of Plasmodium vivax is fundamental for developing strategies aimed at controlling and eliminating this parasitic species. Although advances in omic sciences and high-throughput techniques in recent years have enabled the identification and characterization of proteins which might be participating in P. vivax invasion of target cells, exclusive parasite tropism for invading reticulocytes has become the main obstacle in maintaining a continuous culture for this species. Such advance that would help in defining each parasite protein's function in the complex process of P. vivax invasion, in addition to evaluating new therapeutic agents, is still a dream. Advances related to maintenance, culture medium supplements and the use of different sources of reticulocytes and parasites (strains and isolates) have been made regarding the development of an in vitro culture for P. vivax; however, only some cultures having few replication cycles have been obtained to date, meaning that this parasite's maintenance goes beyond the technical components involved. Although it is still not yet clear which molecular mechanisms P. vivax prefers for invading young CD71+ reticulocytes [early maturation stages (I-II-III)], changes related to membrane proteins remodelling of such cells could form part of the explanation. The most relevant aspects regarding P. vivax in vitro culture and host cell characteristics have been analysed in this review to explain possible reasons why the species' continuous in vitro culture is so difficult to standardize. Some alternatives for P. vivax in vitro culture have also been described. © 2018 The Author(s).

Published

2018

33. In silico and in vitro analysis of boAP3d1 protein interaction with bovine leukaemia virus gp51

Author

Nury N. Olaya-Galán, Janneth Gonzalez, María Fernanda Gutiérrez, Luis Alfredo Baquero, Adriana Patricia Corredor, Manuel A. Patarroyo, and Hernando Curtidor

Subjects

Sitio de unión, Protein Expression, Bovine Leukemia Virus, Plasma protein binding, No humano, Biochemistry, Binding Analysis, Viral Envelope Proteins, línea celular mdbk, Mdbk Cell Line, Protein Interaction Mapping, Macromolecular Structure Analysis, Formación compleja, Protein Protein Interaction, lcsh:Science, Peptide sequence, Alanine, Bovine leukemia virus, Alanina, Dominio de proteínas, Molecular Docking, Quimotripsina, Amino Terminal Sequence, Glicoproteína viral, Boap3D1 Protein, Asparagine, Hydrophobic and Hydrophilic Interactions, Asparagina, Cell Binding, Glicoproteína 5, Protein Structure, Cell Physiology, Bioinformatics, In silico, 030106 microbiology, Article, 03 medical and health sciences, Unclassified Drug, Protein Domains, Expresión de proteínas, Interacción Proteína Proteína, Computer Simulation, Amino Acid Sequence, Molecular Biology, Chemical Characterization, Ácido aspártico, Virus Glycoprotein, Proteína Boap3D1, Lysine, lcsh:R, Binding Site, Biology and Life Sciences, Proteins, Cell Interaction, Molecular Sequence Annotation, Lisina, Tripsina, Proteína adaptadora, In Vitro Study, 030104 developmental biology, Virus de la leucemia bovina, Secuencia amino terminal, Cattle, lcsh:Q, Secuencia terminal carboxi, 0301 basic medicine, lcsh:Medicine, Acoplamiento molecular, Protein Structure Prediction, Protein Structure, Secondary, Database and Informatics Methods, Protein structure, Leukemia Virus, Bovine, Serine, Chymotrypsin, Ácido glutamico, Trypsin, Serina, Multidisciplinary, biology, Chemistry, Tryptophan, Signal transducing adaptor protein, Bioinformática, Triptófano, Recombinant Proteins, Adaptor Protein Complex delta Subunits, Molecular Docking Simulation, Thermodynamics, Glycoprotein 5, Sequence Analysis, Research Article, Protein Binding, Producción animal (Zootecnia), Leucemia bovina, Medicamento no clasificado, Protein Domain, Protein domain, Arginina, Glutamic Acid, Interacción celular, Research and Analysis Methods, Arginine, Cell Line, Protein–protein interaction, Estudio in vitro, Histidina, Animals, Histidine, Controlled Study, Complex Formation, Protein Interactions, Aspartic Acid, Reproducibility of Results, Cell Biology, Estudio controlado, Carboxy Terminal Sequence, biology.organism_classification, Nonhuman, Adaptor Protein, Enlace proteico, Sequence Alignment

Abstract

The envelope glycoprotein 51 (gp51) is essential for bovine leukaemia virus (BLV) entry to bovine B-lymphocytes. Although the bovine adaptor protein 3 complex subunit delta-1 (boAP3D1) has been proposed as the potential receptor, the specific ligand-receptor interaction has not yet been completely defined and boAP3D1 receptor and gp51 3D structures have not been determined. This study was thus aimed at a functional annotation of boAP3D1 cellular adaptor protein and BLV gp51 and, proposing a reliable model for gp51-AP3D1 interaction using bioinformatics tools. The boAP3D1 receptor interaction patterns were calculated based on models of boAP3D1 receptor and gp51 complexes’ 3D structures, which were constructed using homology techniques and data-driven docking strategy. The results showed that the participation of 6 key amino acids (aa) on gp51 (Asn170, Trp127, His115, Ala97, Ser98 and Glu128) and 4 aa on AP3D1 (Lys925, Asp807, Asp695 and Arg800) was highly probable in the interaction between gp51 and BLVR domains. Three gp51 recombinant peptides were expressed and purified to validate these results: the complete domain (rgp51), the N-terminal portion (rNgp51) and the C-terminal fragment (rCgp51); and binding assays to Madin-Darby bovine kidney (MDBK) cells were then carried out with each recombinant. It was found that rNgp51 preferentially bound to MDBK cells, suggesting this domain’s functional role during invasion. The rNgp51-MDBK cell interaction was sensitive to trypsin (98% reduction) and chymotrypsin treatment (80% reduction). These results highlighted that the N-terminal portion of gp51 interacted in vitro with the AP3D1 receptor and provides a plausible in silico interaction model. © 2018 Corredor et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Published

2018

34. Far from the Madding Crowd: the Molecular Basis for Immunological Escape of

Author

Manuel E, Patarroyo, Jorge, Aza-Conde, Armando, Moreno-Vranich, Laura, Pabón, Yahson, Varela, and Manuel A, Patarroyo

Subjects

Plasmodium falciparum, Animals, Antigens, Protozoan, Malaria, Falciparum, Host-Parasite Interactions

Abstract

Like Thomas Hardy's famous novel Far from the Madding Crowd

Published

2016

35. TCR-contacting residues orientation and HLA-DRβ* binding preference determine long-lasting protective immunity against malaria

Author

Manuel A. Patarroyo, Martha Patricia Alba, Yahson Varela, Adriana Bermúdez, Carlos F. Suárez, and Manuel E. Patarroyo

Subjects

0301 basic medicine, Antimalarial-vaccine, Unclassified drug, HLA-DR beta-Chains, Plasma protein binding, Parasitemia, Biochemistry, Malaria vaccine, Immunological memory, Monkey model, Protein structure, Binding protein, Receptors, Provocation test, Priority journal, Innate immunity, Antibody titer, Structure activity relation, Quinine, Quinina, Aotus, Major histocompatibility antigen class 2, Chemistry, Immunogenic protection inducing peptide structure, Aotus trivirgatus, Antibody response, Hla drb4 antigen, Multiprotein complex, Protein Binding, Recombinant protein, Stereochemistry, Parasite antibody, Binding sites, Immunology, Immunologic memory, Plasmodium falciparum, Biophysics, Hla drb3 antigen, Receptors, Antigen, T-Cell, Human leukocyte antigen, Hla-dr beta-chains, Biology, Antigen binding, Article, Rotamer-orientation, Binding site, 03 medical and health sciences, Structure-Activity Relationship, Immune system, antigen, t-cell, Immunogenetics, innate, Structure–activity relationship, Protein binding, Animals, Animal model, Animal experiment, Hla dr antigen, MHC-II, Molecular Biology, T-cell-receptor, Memoria Inmunológica, Malaria falciparum, Binding Sites, 030102 biochemistry & molecular biology, Animal, T-cell receptor, Immunity, Cell Biology, biology.organism_classification, Nonhuman, Structure-activity relationship, Immunity, Innate, Malaria, 030104 developmental biology, Binding affinity, T lymphocyte receptor, Hla drb5 antigen, Controlled study, Immunologic Memory, Lymphocyte antigen receptor

Abstract

Fully-protective, long-lasting, immunological (FPLLI) memory against Plasmodium falciparum malaria regarding immune protection-inducing protein structures (IMPIPS) vaccinated into monkeys previously challenged and re-challenged 60 days later with a lethal Aotus monkey-adapted P. falciparum strain was found to be associated with preferential high binding capacity to HLA-DR?1* allelic molecules of the major histocompatibility class II (MHC-II), rather than HLA-DR?3*, ?4*, ?5* alleles. Complete PPIIL 3D structure, a longer distance (26.5 Å ± 1.5 Å) between residues perfectly fitting into HLA-DR?1*PBR pockets 1 and 9, a gauche? rotamer orientation in p8 TCR-contacting polar residue and a larger volume of polar p2 residues was also found. This data, in association with previously-described p3 and p7 apolar residues having gauche+ orientation to form a perfect MHC-II-peptide-TCR complex, determines the stereo-electronic and topochemical characteristics associated with FPLLI immunological memory. © 2016 Elsevier Inc.

Published

2016

36. Atomic fidelity of subunit-based chemically-synthesized antimalarial vaccine components

Author

Manuel E. Patarroyo, Manuel A. Patarroyo, Gladys Cifuentes, and Nora L. Martínez

Subjects

Protein subunit, Immunology, Plasmodium falciparum, Biophysics, Chemically-synthesized vaccines, Review, Biology, law.invention, Synthesis, Antimalarials, falciparum, Immune system, Antigen, law, Animals, Malaria, Falciparum, Receptor, Molecular Biology, Mhc ii-peptide-tcr complex, chemistry.chemical_classification, Malaria falciparum, Vaccines, Strain (chemistry), Animal, biology.organism_classification, Molecular biology, Malaria, Amino acid, Drug effect, Chemistry, Hla-dr?1* molecules, Biochemistry, chemistry, Recombinant DNA, Antimalarial agent, Vaccine

Abstract

The tri-dimensional (3D) structure determined by NMR of functionally relevant High Activity Binding Peptides (HABPs) of chemically-synthesized malarial proteins, involved in invasion to target cells, is practically identical, at the atomic level, to their corresponding recombinantly produced proteins, determined by X-ray crystallography. Both recombinant proteins as well as these chemically-synthesized HABPs bind to host-cell receptors through channels or troughs formation, stabilized by hydrogen bonding; most of them are located on distant segments to the highly polymorphic, highly antigenic, strain specific amino acid sequences the parasite uses to evade immune pressure. When these immunologically silent conserved HABPs are specifically modified, they become highly immunogenic and capable of inducing protective immune responses, supporting the specifically modified minimal subunit-based, multiepitopic, chemically-synthesized vaccines concept. © 2009 Elsevier Ltd. All rights reserved.

Published

2010

37. A Large Size Chimeric Highly Immunogenic Peptide Presents Multistage Plasmodium Antigens as a Vaccine Candidate System against Malaria

Author

Manuel E. Patarroyo, Adriana Bermúdez, Yahson F Varela, Yuly Andrea Guerrero, Patricia Alba, Laura Guasca, Magnolia Vanegas, Martha Forero, José Manuel Lozano, Karen Ardila, and Yolanda Silva

Subjects

0301 basic medicine, macromolecule synthesis, Plasmodium, Immunogen, Mouse, vaccine candidate, Protozoan Proteins, inbred balb c, Pharmaceutical Science, Malaria vaccine, 01 natural sciences, Epitope, Analytical Chemistry, Epitopes, Mice, Bagg albino mouse, Malaria vaccines, Drug Discovery, Macromolecule synthesis, Chimeric immunogen, chimeric immunogen, malaria, Mice, Inbred BALB C, biology, Antibody titer, Chemistry (miscellaneous), Peptide, Molecular Medicine, Vaccine candidate, Protozoan proteins, Antigenicity, Immunology, Plasmodium falciparum, Antigens, Protozoan, Protozoal protein, Article, lcsh:QD241-441, 03 medical and health sciences, Antigen, lcsh:Organic chemistry, Malaria Vaccines, parasitic diseases, medicine, Pathogenicity, Animals, Parasite antigen, Antigens, Physical and Theoretical Chemistry, Animal, protozoan, 010405 organic chemistry, Organic Chemistry, medicine.disease, biology.organism_classification, Virology, Malaria, 0104 chemical sciences, 030104 developmental biology, Peptides

Abstract

Rational strategies for obtaining malaria vaccine candidates should include not only a proper selection of target antigens for antibody stimulation, but also a versatile molecular design based on ordering the right pieces from the complex pathogen molecular puzzle towards more active and functional immunogens. Classical Plasmodium falciparum antigens regarded as vaccine candidates have been selected as model targets in this study. Among all possibilities we have chosen epitopes of PfCSP, STARP; MSA1 and Pf155/RESA from pre- A nd erythrocyte stages respectively for designing a large 82-residue chimeric immunogen. A number of options aimed at diminishing steric hindrance for synthetic procedures were assessed based on standard Fmoc chemistry such as building block orthogonal ligation; pseudo-proline and microwave-assisted procedures, therefore the large-chimeric target was produced, characterized and immunologically tested. Antigenicity and functional in vivo efficacy tests of the large-chimera formulations administered alone or as antigen mixtures have proven the stimulation of high antibody titers, showing strong correlation with protection and parasite clearance of vaccinated BALB/c mice after being lethally challenged with both P. berghei-ANKA and P. yoelii 17XL malaria strains. Besides, 3D structure features shown by the large-chimera encouraged as to propose using these rational designed large synthetic molecules as reliable vaccine candidate-presenting systems.

Published

2017

38. A novel loop-mediated isothermal amplification-based test for detecting Neospora caninum DNA

Author

Manuel A. Patarroyo, Andrea E. Ramos, Marina Muñoz, Jesús A. Cortés-Vecino, and Paola Barato

Subjects

0301 basic medicine, Limit of detection, Primer dna, Dna sequence, Procedures, Gene, Semi-nested pcr, Neosporosis, Polymerase Chain Reaction, law.invention, Dna determination, chemistry.chemical_compound, Feces, 0302 clinical medicine, Loop mediated isothermal amplification, Sequence alignment, law, Limit of Detection, Pregnancy, Dog, Nucleic acid amplification, Dog Diseases, Polymerase chain reaction, Dog diseases, Protozoal dna, biology, Temperature, Bovine, 030108 mycology & parasitology, Neospora caninum, Coccidiosis, Infectious Diseases, Sensitivity and specificity, Veterinary, Female, Dna primers, Nucleic Acid Amplification Techniques, Protozoon, 030231 tropical medicine, Loop-mediated isothermal amplification, Toxoplasma gondii, Cattle Diseases, Antigens, Protozoan, Sensitivity and Specificity, Article, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Nc-5 gene, Neospora, Dogs, Dog disease, Sarcocystis cruzi, parasitic diseases, medicine, Genetics, Animals, lcsh:RC109-216, Parasite antigen, Antigens, Hammondia hammondi, DNA Primers, Cryptosporidium parvum, Gene amplification, Sarcocystis hominis, Animal, protozoan, Research, fungi, Sarcocystis, Nucleic acid amplification technique, Dna, DNA, Protozoan, biology.organism_classification, medicine.disease, Nonhuman, Virology, Semi-nested PCR, Nc 5 gene, Nucleic acid amplification techniques, Cattle diseases, Parasitology, chemistry, Isolation and purification, Cattle disease, Cattle, Controlled study, DNA

Abstract

Background Neospora caninum is a cyst-forming, coccidian parasite which is known to cause neurological disorders in dogs and abortion and neonatal mortality in cows and other livestock. This study reports the development of a loop-mediated isothermal amplification (LAMP) assay based on the Neospora caninum Nc-5 gene and compares its efficacy for detecting DNA to that of a semi-nested PCR test. Results Six primers were designed based on the Nc-5 repeat region of N. caninum. Specific LAMP primers led to successful amplification of N. caninum DNA at 63 °C in 30 min. The LAMP assay was highly specific (i.e. it did not reveal cross-reactivity with other parasite species) and had a low N. caninum plasmid DNA limit of detection (1 fg), which is ten times higher than that for the semi-nested PCR. LAMP applicability was evaluated using a set of naturally-infected samples (59 from canine faeces and five from bovine abortions). Thirty-nine percent (25/64) of the naturally-infected samples were positive for N. caninum DNA by LAMP and 36% (23/64) by semi-nested PCR. However, the LAMP assay is much faster to perform than semi-nested PCR and provides results in 30 min. Conclusion The optimized reaction conditions described in this study resulted in a sensitive, specific and rapid technique for detecting N. caninum DNA. Considering the advantages of LAMP for detecting N. caninum DNA, further assays aimed at testing its usefulness on a wider range of field samples are recommended. Electronic supplementary material The online version of this article (doi: 10.1186/s13071-017-2549-y) contains supplementary material, which is available to authorized users.

Published

2017

39. Functionally relevant proteins in Plasmodium falciparum host cell invasion

Author

Adriana Bermúdez, Jorge Aza-Conde, Rocío Rojas-Luna, Martha Patricia Alba, and Manuel E. Patarroyo

Subjects

Host parasite interaction, Erythrocytes, Magnetic Resonance Spectroscopy, Erythrocyte binding ligand 1, Eritrocitos, Review, Thrombospondin related sporozoite protein, Parasite survival, Malaria vaccine, Sporozoite microneme protein essential for cell transversal 1, Sporozoite microneme protein essential for cell transversal 2, 0302 clinical medicine, Malaria vaccines, Drug safety, chemistry.chemical_classification, Apical membrane antigen 1, Sporozoite invasion associated protein 1, Crystallography, Sporozoite invasion associated protein 2, Sporozoite, Vaccination, Merozoite apical erythrocyte binding ligand, Immunogenicity, Chabp, Cell invasion, Transport protein, Cell biology, Oncology, Serine repeat antigen 5, Host pathogen interaction, Interacciones Huésped-Patógeno, Protein secondary structure, Sporozoite protein, Human, Thrombospondin related anonymous protein, Protein tertiary structure, Hepatocitos, Immunology, Plasmodium falciparum, Antigens, Protozoan, 03 medical and health sciences, Magnetic resonance spectroscopy, Malaria Vaccines, Protein binding, Humans, Parasite antigen, Erythrocyte binding antigen 75, Binding function, Malaria falciparum, Erythrocyte binding antigen 140, Animal, protozoan, Diseño de drogas, Merozoite surface protein 1, Merozoite surface protein 2, Merozoite surface protein 4, Virology, Merozoite surface protein 7, Merozoite surface protein 9, 030104 developmental biology, x-ray, chemistry, Drug Design, Animales, Parasitology, Erythrocyte binding ligand, 0301 basic medicine, Unclassified drug, Crystallography, X-Ray, Circumsporozoite protein 1, Liver cell, Sporozoite threonine and asparagine rich protein, falciparum, Immunology and Allergy, Parasite hosting, Malaria, Falciparum, biology, Parasite immunity, Amino acid, Erythrocyte, Host-Pathogen Interactions, Invasion-proteins, Merozoite, 030231 tropical medicine, Merozoite surface protein 10, Drug design, Amino acid sequence, Antígenos de Protozoos, Multidomain sporozoite surface protein 2, High activity, Animals, Antigens, Nuclear magnetic resonance spectroscopy, Erythrocyte binding antigen 181, Host-pathogen interactions, Espectroscopía de Resonancia Magnética, X ray crystallography, Cristalografía por Rayos X, Nonhuman, biology.organism_classification, Malaria, Drug efficacy, Metabolism, Liver stage antigen 1, Host cell invasion, Liver stage antigen 3, Protein structure, Hepatocytes, Unindexed drug, Cell transversal protein for ookinetes and spzs, Vaccine

Abstract

A totally effective, antimalarial vaccine must involve sporozoite and merozoite proteins (or their fragments) to ensure complete parasite blocking during critical invasion stages. This Special Report examines proteins involved in critical biological functions for parasite survival and highlights the conserved amino acid sequences of the most important proteins involved in sporozoite invasion of hepatocytes and merozoite invasion of red blood cells. Conserved high activity binding peptides are located in such proteins' functionally strategic sites, whose functions are related to receptor binding, nutrient and protein transport, enzyme activity and molecule-molecule interactions. They are thus excellent targets for vaccine development as they block proteins binding function involved in invasion and also their biological function. © 2017 Future Medicine Ltd.

Published

2017

40. Purification of Trypanosoma cruzi metacyclic trypomastigotes by ion exchange chromatography in sepharose-DEAE, a novel methodology for host-pathogen interaction studies

Author

Gabriela Arevalo, Paula Pavia, Cielo León, Lissa Cruz-Saavedra, Gustavo Adolfo Vallejo, Julio César Carranza, Juan David Ramírez, Marina Muñoz, and Manuel A. Patarroyo

Subjects

0301 basic medicine, Metacyclic trypomastigotes, Mouse, Ion chromatography, Culture, ion exchange, Procedures, Vero cell line, Sepharose, In vivo study, Mice, 0302 clinical medicine, Chlorocebus aethiops, Axenic, Priority journal, Infectivity, Mice, Inbred ICR, Chromatography, biology, Diethylaminoethyldextran, Chromatography, Ion Exchange, Biochemistry, Host-Pathogen Interactions, Host pathogen interaction, Vero cells, Deae-dextran, Microbiology (medical), Life cycle, Trypanosoma cruzi, 030231 tropical medicine, Trypomastigote, Microbiology, Article, Cell Line, Cercopithecus aethiops, 03 medical and health sciences, In vivo, Epimastigote, Animals, Animal experiment, Molecular Biology, Vero Cells, Host-pathogen interactions, Animal, DEAE-Dextran, In vitro study, biology.organism_classification, Nonhuman, In vitro, Institute for cancer research mouse, 030104 developmental biology, Isolation and purification, inbred icr, Ion exchange chromatography, Vero cell, Cell line, Parasitosis, Sepharose-deae

Abstract

Metacyclic trypomastigotes are essential for the understanding of the biology of Trypanosoma cruzi, the agent of Chagas disease. However, obtaining these biological stages in axenic medium is difficult. Techniques based on charge and density of the parasite during different stages have been implemented, without showing a high efficiency in the purification of metacyclic trypomastigotes. So far, there is no protocol implemented where sepharose-DEAE is used as a resin. Therefore, herein we tested its ability to purify metacyclic trypomastigotes in Liver Infusion Triptose (LIT) medium cultures. A simple, easy-to-execute and effective protocol based on ion exchange chromatography on Sepharose-DEAE resin for the purification of T. cruzi trypomastigotes is described. T. cruzi strains from the Discrete Typing Units (DTUs) I and II were used. The strains were harvested in LIT medium at a concentration of 1 × 107 epimastigotes/mL. We calculated the time of trypomastigotes increment (TTI). Based on the data obtained, Ion exchange chromatography was performed with DEAE-sepharose resin. To verify the purity and viability of the trypomastigotes, a culture was carried out in LIT medium with subsequent verification with giemsa staining. To evaluate if the technique affected the infectivity of trypomastigotes, in vitro assays were performed in Vero cells and in vivo in ICR-CD1 mice. The technique allowed the purification of metacyclic trypomastigotes of other stages of T. cruzi in a percentage of 100%, a greater recovery was observed in cultures of 12 days. There were differences regarding the recovery of metacyclic trypomastigotes for both DTUs, being DTU TcI the one that recovered a greater amount of these forms. The technique did not affect parasite infectivity in vitro or/and in vivo. © 2017 Elsevier B.V.

Published

2017

41. Plasmodium vivax ligand-receptor interaction : PvAMA-1 domain I contains the minimal regions for specific interaction with CD71+ reticulocytes

Author

Diana Hernandez, Hernando Curtidor, Gabriela Arévalo-Pinzón, Manuel A. Patarroyo, and Maritza Bermúdez

Subjects

Models, Molecular, 0301 basic medicine, expresión condicional, Erythrocytes, Protein Conformation, Plasmodium vivax, Protozoan Proteins, lcsh:Medicine, conditional expression, Plasma protein binding, proteína de superficie de merozoito-1, host erythrocyte, Conserved sequence, las células rojas de la sangre, parásitos de apicomplexano, 0302 clinical medicine, Protein structure, Reticulocyte, antígeno de membrana apical-1, lcsh:Science, Conserved Sequence, Multidisciplinary, biology, anticuerpo monoclonal, falciparum merozoites, Ligand (biochemistry), Cell biology, candidato a la vacuna contra la malaria, medicine.anatomical_structure, merozoite surface protein-1, Hydrophobic and Hydrophilic Interactions, Protein Binding, eritrocito huésped, erythrocyte-binding ligand, 030231 tropical medicine, apical membrane antigen-1, Antigens, Protozoan, Receptors, Cell Surface, Article, Cell Line, Structure-Activity Relationship, 03 medical and health sciences, Antigens, CD, Receptors, Transferrin, parasitic diseases, Malaria, Vivax, medicine, ligando de unión a eritrocitos, red-blood-cells, Animals, Humans, Protein Interaction Domains and Motifs, Amino Acid Sequence, Apical membrane antigen 1, lcsh:R, Membrane Proteins, biology.organism_classification, Enfermedades, Malaria, 030104 developmental biology, apicomplexan parasites, Membrane protein, Immunology, malaria vaccine candidate, monoclonal-antibody, lcsh:Q, falciparum merozoitos

Abstract

The malarial parasite’s invasion is complex, active and coordinated, involving many low and high affinity interactions with receptors on target cell membrane. Proteomics analysis has described around 40 proteins in P. vivax which could be involved in reticulocyte invasion; few have been studied with the aim of elucidating how many of them establish specific interactions with their respective host cells. Given the importance of knowing which of the parasite’s protein regions are functionally important for invasion, minimum regions mediating specific interaction between Plasmodium vivax apical membrane antigen 1 (PvAMA-1) and its host cell were here elucidated. The region covering PvAMA-1 domains I and II (PvAMA-DI-II) specifically bound to the CD71+ red blood cell subpopulation. A 20 residue-long region (81EVENAKYRIPAGRCPVFGKG100) located in domain I was capable of inhibiting PvAMA-DI-II recombinant protein binding to young reticulocytes (CD71+CD45−) and rosette formation. This conserved peptide specifically interacted with high affinity with reticulocytes (CD71+) through a neuraminidase- and chymotrypsin-treatment sensitive receptor. Such results showed that, despite AMA-1 having universal functions during late Plasmodium invasion stages, PvAMA-1 had reticulocyte-preferring binding regions, suggesting that P. vivax target cell selection is not just restricted to initial interactions but maintained throughout the erythrocyte invasion cycle, having important implications for designing a specific anti-P. vivax vaccine.

Published

2017

42. The Aotus nancymaae erythrocyte proteome and its importance for biomedical research

Author

Manuel A. Patarroyo, Rodrigo Garcia-Valiente, Darwin A. Moreno-Pérez, Nieves Ibarrola, Antonio Muro, and Colciencias (Colombia)

Subjects

0301 basic medicine, Biomedical Research, Erythrocytes, Proteome, Plasmodium vivax, Protozoan Proteins, Procedures, Proteomics, Bioinformatics, Biochemistry, Genome, Plasmodium, Transcriptome, 0302 clinical medicine, Membrane proteins, Protein analysis, Reticulocyte, Aotus nancymaae, Priority journal, biology, Plasmodium vivax malaria, Haplorhini, Aotus, vivax, Erythrocyte, Chemistry, Blood, 030220 oncology & carcinogenesis, Animal cell, Human, Protozoan proteins, Biophysics, Protozoal protein, Computational biology, Article, 03 medical and health sciences, Medical research, parasitic diseases, Malaria, Vivax, Animals, Humans, Biomedical research, Experimental model, Animal, Membrane Proteins, Nonhuman, biology.organism_classification, Non-human primate, Malaria, 030104 developmental biology, Human cell, Homo sapiens, Membrane protein, Gene ontology, Cell maturation, Controlled study

Abstract

The Aotus nancymaae species has been of great importance in researching the biology and pathogenesis of malaria, particularly for studying Plasmodium molecules for including them in effective vaccines against such microorganism. In spite of the forgoing, there has been no report to date describing the biology of parasite target cells in primates or their biomedical importance. This study was thus designed to analyse A. nancymaae erythrocyte protein composition using MS data collected during a previous study aimed at characterising the Plasmodium vivax proteome and published in the pertinent literature. Most peptides identified were similar to those belonging to 1189 Homo sapiens molecules; > 95% of them had orthologues in New World primates. GO terms revealed a correlation between categories having the greatest amount of proteins and vital cell function. Integral membrane molecules were also identified which could be possible receptors facilitating interaction with Plasmodium species. The A. nancymaae erythrocyte proteome is described here for the first time, as a starting point for more in-depth/extensive studies. The data reported represents a source of invaluable information for laboratories interested in carrying out basic and applied biomedical investigation studies which involve using this primate. [Significance]: An understanding of the proteomics characteristics of A. nancymaae erythrocytes represents a fascinating area for research regarding the study of the pathogenesis of malaria since these are the main target for Plasmodium invasion. However, and even though Aotus is one of the non-human primate models considered most appropriate for biomedical research, knowledge of its proteome, particularly its erythrocytes, remains unknown. According to the above and bearing in mind the lack of information about the A. nancymaae species genome and transcriptome, this study involved a search for primate proteins for comparing their MS/MS spectra with the available information for Homo sapiens. The great similarity found between the primate's molecules and those for humans supported the use of the monkeys or their cells for continuing assays involved in studying malaria. Integral membrane receptors used by Plasmodium for invading cells were also found; this required timely characterisation for evaluating their therapeutic role. The list of erythrocyte protein composition reported here represents a useful source of basic knowledge for advancing biomedical investigation in this field., This research received financing through Departamento Administrativo de Ciencia, Tecnología e Innovación (COLCIENCIAS), contract RC#309-2013.

Published

2017

43. Conserved binding regions provide the clue for peptide-based vaccine development: A chemical perspective

Author

Adriana Bermúdez, Hernando Curtidor, César Reyes, Yahson Varela, Magnolia Vanegas, and Manuel E. Patarroyo

Subjects

Models, Molecular, 0301 basic medicine, Protein Conformation, Terapéutica, Major histocompatibility complex, Pharmaceutical Science, Review, Plasma protein binding, immunogenicity, Malaria vaccine, Epitope, Analytical Chemistry, Major Histocompatibility Complex, 0302 clinical medicine, Protein structure, Malaria vaccines, Models, Drug Discovery, Receptors, therapeutics, Peptide sequence, biology, Chemistry, Synthetic peptides, Invasión de eritrocitos, Haplorhini, Immunogenicity, Protein conformation, Chemistry (miscellaneous), 030220 oncology & carcinogenesis, Peptide, Molecular Medicine, synthetic peptides, Protein Binding, Human, malaria vaccine, Binding sites, Immunology, Plasmodium falciparum, Receptors, Antigen, T-Cell, Computational biology, Therapeutics, Molecular model, lcsh:QD241-441, Amino acid sequence, Binding site, 03 medical and health sciences, antigen, Antigen, lcsh:Organic chemistry, Malaria Vaccines, t-cell, Protein binding, Animals, Humans, Amino Acid Sequence, structure, molecular, Physical and Theoretical Chemistry, Binding Sites, Animal, Organic Chemistry, T-cell receptor, Structure, Malaria, Erythrocyte invasion, 030104 developmental biology, Metabolism, biology.protein, Peptides, Lymphocyte antigen receptor

Abstract

Synthetic peptides have become invaluable biomedical research and medicinal chemistry tools for studying functional roles, i.e., binding or proteolytic activity, naturally-occurring regions' immunogenicity in proteins and developing therapeutic agents and vaccines. Synthetic peptides can mimic protein sites; their structure and function can be easily modulated by specific amino acid replacement. They have major advantages, i.e., they are cheap, easily-produced and chemically stable, lack infectious and secondary adverse reactions and can induce immune responses via T- and B-cell epitopes. Our group has previously shown that using synthetic peptides and adopting a functional approach has led to identifying Plasmodium falciparum conserved regions binding to host cells. Conserved high activity binding peptides' (cHABPs) physicochemical, structural and immunological characteristics have been taken into account for properly modifying and converting them into highly immunogenic, protection-inducing peptides (mHABPs) in the experimental Aotus monkey model. This article describes stereo-electron and topochemical characteristics regarding major histocompatibility complex (MHC)-mHABP-T-cell receptor (TCR) complex formation. Some mHABPs in this complex inducing long-lasting, protective immunity have been named immune protection-inducing protein structures (IMPIPS), forming the subunit components in chemically synthesized vaccines. This manuscript summarizes this particular field and adds our recent findings concerning intramolecular interactions (H-bonds or-interactions) enabling proper IMPIPS structure as well as the peripheral flanking residues (PFR) to stabilize the MHCII-IMPIPS-TCR interaction, aimed at inducing long-lasting, protective immunological memory. © 2017 by the authors. Licensee MDPI, Basel, Switzerland.1.

Published

2017

44. Sarconesiopsis magellanica (Diptera: Calliphoridae) excretions and secretions have potent antibacterial activity

Author

María Antonia Gaona, Felio J. Bello, Andrea Díaz-Roa, Diana Suárez, Manuel A. Patarroyo, and Nydia A. Segura

Subjects

Sarconesiopsis magellanica, Bodily Secretions, Staphylococcus, Bacterial strain, Antimicrobial activity, Microbial sensitivity tests, medicine.disease_cause, Turbidity, Gram positive bacterium, Staphylococcus epidermidis, Antiinfective agent, Species comparison, Minimum inhibitory concentration, biology, Microbial sensitivity test, Larval therapy, Anti-Bacterial Agents, Chemistry, Infectious Diseases, Insect proteins, Staphylococcus aureus, Pseudomonas aeruginosa, Insect Proteins, Incubation, Insect protein, Antibacterial activity, Inhibitor, Lucilia sericata, Veterinary (miscellaneous), Gram-positive bacteria, Excretion, Gram negative bacterium, Excretions and secretions, Microbial Sensitivity Tests, Natural product, Article, Microbiology, Incubation time, Calliphoridae, Drug potency, Agar diffusion, Anti-bacterial agents, medicine, Animals, Agar diffusion test, Secretion, Drug effects, Larval stage, Animal, Biological activity, Diptera, fungi, In vitro study, Colony formation, Nonhuman, biology.organism_classification, Bodily secretions, Metabolism, Insect Science, Parasitology, Comparative study, Insect, Controlled study

Abstract

The most important mechanism for combating infection using larval therapy depends on larval excretions and secretions (ES). The present work was aimed at evaluating Sarconesiopsis magellanica (Diptera: Calliphoridae) ES antibacterial activity in six bacterial strains (three Gram-positive and three Gram-negative) and comparing this to the effect of Lucilia sericata-derived ES. Antibacterial activity at 50. ?g/mL minimum inhibitory concentration (MIC) was observed for Staphylococcus epidermidis ATCC-12228 and Staphylococcus aureus ATCC-29213 strains, when the turbidimetry test involving S. magellanica ES was used; the rest of the bacterial strains (Staphylococcus aureus ATCC-6538, Pseudomonas aeruginosa ATCC-10145, Pseudomonas aeruginosa ATCC-9027 and Pseudomonas aeruginosa ATCC-27853) were inhibited at a 100. ?g/mL MIC. Twice the amount was required to inhibit the aforementioned bacteria with L. sericata-derived ES using this same technique; a similar trend was observed when the agar diffusion method was used instead. Furthermore, when the previously established MIC for each bacterial strain was used, their colonies became reduced following 1-6. h incubation with S. magellanica derived ES, whilst the reduction occurred from 2 to 6. hours with those from L. sericata. Although the MIC for each strain obtained with ciprofloxacin was lower than those established when using either blowfly derived-ES, the gradual reduction of the colonies occurred at a longer incubation time (6. h or more). The results showed that S. magellanica ES antibacterial activity was more potent and effective, compared to that of L. sericata-derived ES. © 2014 Elsevier B.V.

Published

2014

45. Estrategias para desarrollar vacunas antipalúdicas sintetizadas químicamente, basadas en subunidades y multiepítopos

Author

Adriana Bermúdez, Manuel A. Patarroyo, Manuel E. Patarroyo, and Gladys Cifuentes

Subjects

Circular dichroism, Protein subunit, Plasmodium falciparum, 030231 tropical medicine, Reviews, P. falciparum, Biology, Models, Biological, Epitope, Anti?malarial vaccine, Epitopes, 03 medical and health sciences, 0302 clinical medicine, Malaria Vaccines, Animals, Humans, HLA?DR?1* molecules, HLA-DR Antigen, 030304 developmental biology, chemistry.chemical_classification, Vaccines, Synthetic, 0303 health sciences, Immunogenicity, T-cell receptor, HLA-DR Antigens, anti-malarial vaccine, Cell Biology, biology.organism_classification, Virology, Malaria, HLA-DRβ1* molecules, 3. Good health, Amino acid, chemistry, Vaccines, Subunit, Molecular Medicine

Abstract

Introduction•P. falciparum invasion of RBCs•Merozoite proteins involved in invading erythrocytes•Erythrocyte proteins involved in merozoite invasionThe state of current worldwide anti?malarial vaccine approaches • A rational approach towards developing subunit?based synthetic vaccines • The immune response elicited by conserved HABPs • Structural analysis of native and modified HABPs • Secondary structure analysis • Native and modified HABP 3D structure explains some immunological phenomena • Supporting the haplotype – and allele?conscious TCR concept • Modified HABPs' 3D structure revealed a fit into HLA molecules • Conclusion Abstract An anti?malarial vaccine against the extremely lethal Plasmodium falciparum is desperately needed. Peptides from this parasite's proteins involved in invasion and having high red blood cell?binding ability were identified; these conserved peptides were not immun genic or protection?inducing when used for immunizing Aotus monkeys. Modifying some critical binding residues in these high?activi binding peptides' (HABPs') attachment to red blood cells (RBC) allowed them to induce immunogenicity and protection against expermental challenge and acquire the ability to bind to specific HLA?DRp1* alleles. These modified HABPs adopted certain characterist structural configurations as determined by circular dichroism (CD) and 1H nuclear magnetic resonance (NMR) associated with certain HLA?DR?1* haplotype binding activities and characteristics, such as a 2?Å?distance difference between amino acids fitting into HLA?DRp1 Pockets 1 to 9, residues participating in binding to HLA?DR pockets and residues making contact with the TCR, suggesting haplotyp and allele?conscious TCR. This has been demonstrated in HLA?DR?like genotyped monkeys and provides the basis for designing high effective, subunit?based, multi?antigen, multi?stage, synthetic vaccines, for immediate human use, malaria being one of them.

Published

2008

46. Functional characterization of Mycobacterium tuberculosis Rv2969c membrane protein

Author

Manuel A. Patarroyo, Manuel E. Patarroyo, Luis E. Rodriguez, Hernando Curtidor, David F. Plaza, Marisol Ocampo, and Martha Forero

Subjects

Rv2969c, Rabbit, immunoelectron, Gene sequence, Monocyte, Oryctolagus cuniculus, Biochemistry, Bacterial proteins, Membrane proteins, Microscopy, Immunoelectron, Tuberculosis Vaccines, Peptide sequence, Phenylalanyltyrosylisoleucylvalylthreonylserylarginylaspartyl aspartyllysyllysylaspartylglycylvalylalanylglycylprolylglycylaspartylalanine, Priority journal, Microscopy, biology, Isoleucyllysylglutamylisoleucylvalylglycylaspartylvalylprolyl glycylisoleucylaspartylserylalanylalanylalanylthreonylalanyl threonylseryltyrosine, Antibodies, Bacterial, Polymerase chain reaction, Peptide, Rabbits, Tuberculosis vaccines, Lung alveolus epithelium, Human, Tuberculosis, Immunoelectron microscopy, Protein subunit, Molecular Sequence Data, Biophysics, Article, Antibodies, Cell Line, Amino acid sequence, Mycobacterium tuberculosis, Gene product, Bacterial Proteins, Molecular sequence data, medicine, Animals, Humans, bacterial, Amino Acid Sequence, Animal experiment, Molecular Biology, Antibody, Membrane Proteins, Cell Biology, Nonhuman, biology.organism_classification, medicine.disease, Molecular biology, Synthetic peptide, Human cell, Genes, Membrane protein, Genes, Bacterial, High activity binding peptide (habp), Immunization, Cell line, Peptides, Mycobacterium tuberculosis-host cell interaction, Controlled study, Nucleotide sequence

Abstract

Identifying Mycobacterium tuberculosis membrane proteins involved in binding to and invasion of host cells is important in designing subunit-based anti-tuberculosis vaccines. The Rv2969c gene sequence was identified by PCR in M. tuberculosis complex strains, being transcribed in M. tuberculosis H37Rv, M. tuberculosis H37Ra, and M. bovis BCG. Rabbits immunized with synthetic peptides from highly specific conserved regions of this protein produced antibodies recognizing 27 and 29 kDa bands in M. tuberculosis lysate, which is consistent with the molecular weight of the Rv2969c gene product in M. tuberculosis H37Rv. Immunoelectron microscopy revealed the protein was localized on the bacillus surface. Four and three specific high activity binding peptides (HABPs) to the A549 alveolar epithelial and U937 monocyte cell lines were found, respectively. Two of the HABPs found inhibited M. tuberculosis invasion of A549 cells, suggesting that these peptides might be good candidates to be included in a multiepitopic, subunit-based anti-tuberculosis vaccine. © 2008 Elsevier Inc. All rights reserved.

Published

2008

47. Synthetic vaccine update: Applying lessons learned from recent SPf66 malarial vaccine physicochemical, structural and immunological characterization

Author

Claudia Marcela Rozo Reyes, Manuel E. Patarroyo, Magnolia Vanegas, Raul Rodriguez, Roberto Amador, Adriana Bermúdez, Fanny Guzmán, Jaiver E. Rosas, and Manuel A. Patarroyo

Subjects

Adult, Male, Synthetic vaccine, Magnetic Resonance Spectroscopy, Adolescent, Molecular Sequence Data, Plasmodium falciparum, Population, Protozoan Proteins, Antibodies, Protozoan, Antigens, Protozoan, Biology, Epitope, Antigen, Malaria Vaccines, parasitic diseases, medicine, Animals, Humans, Amino Acid Sequence, Malaria, Falciparum, Child, education, Chromatography, High Pressure Liquid, Clinical Trials as Topic, Vaccines, Synthetic, education.field_of_study, General Veterinary, General Immunology and Microbiology, Malaria vaccine, Immunogenicity, Public Health, Environmental and Occupational Health, Infant, Reproducibility of Results, medicine.disease, biology.organism_classification, Virology, Recombinant Proteins, Infectious Diseases, Child, Preschool, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Aotidae, Molecular Medicine, Female, Malaria

Abstract

The SPf66 synthetic malaria vaccine, developed and obtained almost 2 decades ago, represents the first approach towards developing a multi-antigenic, multi-stage synthetic malarial vaccine composed of subunits derived from different Plasmodium falciparum stage proteins. It is shown here that batches 03, 04, 05, 06, 07, 08, 09, 10, 11, 12, 13, 14, 15 and 16 produced from a few milligrams to kilogram amounts and used in assays on monkeys and humans showed high reproducibility in physicochemical analysis. 1H NMR two-dimensional studies also revealed high similarity, even in non-oxidized batches. Reproducibility was also high, especially in preclinical studies carried out on Aotus, clinical trials Phase I, IIa and IIb and field-studies carried out in La Tola, Rio Rosario (Colombia), Majadas (Venezuela), La Te (Ecuador), Ifakara (Tanzania) in which there was high antibody titer production, having similar population distribution when done with different batches. These results provide great support for peptide-synthesized vaccines containing minimal epitopes from protection-inducing antigens which have several advantages, such as low cost, safety, reproducibility, stability, being straightforwardly scaled-up from milligram to kilogram amounts; make them the vaccines of choice for the future in a worldwide attempt to scourge diseases such as malaria.

Published

2007

48. The Malaria Parasite's Achilles' Heel: Functionally-relevant Invasion Structures

Author

Manuel E, Patarroyo, Martha P, Alba, Cesar, Reyes, Rocio, Rojas-Luna, and Manuel A, Patarroyo

Subjects

Antimalarials, Plasmodium falciparum, Protozoan Proteins, Animals, Humans, Amino Acid Sequence, Malaria, Falciparum, Host-Parasite Interactions

Abstract

Malaria parasites have their Achilles' heel; they are vulnerable in small parts of their relevant molecules where they can be wounded and killed. These are sporozoite and merozoite protein conserved high activity binding peptides (cHABPs), playing a critical role in binding to and invasion of host cells (hepatocytes and erythrocytes, respectively). cHABPs can be modified by specific amino acid replacement, according to previously published physicochemical rules, to produce analogues (mHABPs) having left-handed polyproline II (PPIIL)-like structures which can modulate an immune response due to fitting perfectly into the HLA-DRβ1* peptide binding region (PBR) and having an appropriate presentation to the T-cell receptor (TCR).

Published

2015

49. IMPIPS : The Immune Protection-Inducing Protein Structure concept in the search for steric-electron and topochemical principles for complete fully-protective chemically synthesised vaccine development

Author

Manuel E. Patarroyo, Manuel A. Patarroyo, Luis A. Poloche, Martha Patricia Alba, Adriana Bermúdez, Magnolia Vanegas, and Armando Moreno-Vranich

Subjects

Síntesis de péptidos, Protein Conformation, Sitio de unión, Virulencia del parásito, Biología, Cloruro de sodio, lcsh:Medicine, Plasma protein binding, Respuesta inmune, No humano, Sodium Chloride, Physical Chemistry, chemistry.chemical_compound, Protein structure, Vacuna contra la malaria, Estructura de la droga, Peptide synthesis, Oxígeno, lcsh:Science, Proteínas portadoras, Péptido sintético, Immune Response, Immunoassay, Vaccines, Synthetic, Vaccines, Multidisciplinary, Aoto, Nitrógeno, Modelo animal, Haplorhini, Antígenos, Aotus, Immunogenicity, Plasmodium Falciparum, Antígeno Hla Dr, Chemistry, Immune Protection Inducing Protein, Proteína de unión, Enlace de hidrógeno, Epitope, Drug Structure, Vacuna recombinante, Research Article, Protein Binding, Steric effects, Electrón, inmunogenicidad, Protein Structure, Proline, Stereochemistry, Nitrogen, Protein subunit, Inmunología, Electrons, Biology, Hidrógeno, Estructura proteica inductora de protección inmunitaria, Electron, Prolina, Reacción de anticuerpo de antígeno, Hydrogen Bond, Malaria Vaccine, Malaria Vaccines, inmunoensayo, Hla Dr Antigen, Synthetic Peptide, Animals, Química Física, Controlled Study, Binding site, Peptide Synthesis, Polyproline helix, Animal, Parasite Virulence, Binding protein, lcsh:R, Synthetic, Binding Site, Structure, Estudio controlado, Animal Experiment, Nonhuman, Virology, Conformación de proteínas, Malaria, Recombinant Vaccine, Oxygen, Antigen Antibody Reaction, chemistry, Haplorhin, lcsh:Q, Animal Model, epítopo, Enlace proteico, Binding Protein, Estructura de la proteína, Hydrogen

Abstract

Determining immune protection-inducing protein structures (IMPIPS) involves defining the stereo-electron and topochemical characteristics which are essential in MHC-p-TCR complex formation. Modified high activity binding peptides (mHABP) were thus synthesised to produce a large panel of IMPIPS measuring 26.5 ±3.5Å between the farthest atoms fitting into Pockets 1 to 9 of HLA-DRβ1∗structures. They displayed a polyproline II-like (PPIIL) structure with their backbone O and N atoms orientated to establish H-bonds with specific residues from HLA-DRβ∗-peptide binding regions (PBR). Residues having specific charge and gauche+ orientation regarding p3χ1, p5χ2, and p7χ1 angles determined appropriate rotamer orientation for perfectly fitting into the TCR to induce an appropriate immune response. Immunological assays in Aotus monkeys involving IMPIPS mixtures led to promising results; taken together with the aforementioned physicochemical principles, noninterfering, long-lasting, protection-inducing, multi-epitope, multistage, minimal subunit-based chemically-synthesised peptides can be designed against diseases scourging humankind. © 2015 Patarroyo et al.

Published

2015

50. Plasmodium falciparum TryThrA antigen synthetic peptides block in vitro merozoite invasion to erythrocytes

Author

Lina J. Cortes, Yolanda Lopez, John Valbuena, Manuel E. Patarroyo, Ramses López, Ricardo Vera, Alvaro Puentes, Luis E. Rodríguez, Hernando Curtidor, Manuel A. Patarroyo, Jesus Leiton, Javier García, and Marisol Ocampo

Subjects

Erythrocytes, Protozoan Proteins, Biophysics, Antigens, Protozoan, Biochemistry, Antigen, Biological property, Animals, Humans, High activity, Molecular Biology, Cells, Cultured, Merozoite Surface Protein 1, Antiserum, Dose-Response Relationship, Drug, biology, Goats, Membrane Proteins, Plasmodium falciparum, Cell Biology, biology.organism_classification, Molecular biology, In vitro, Polyclonal antibodies, biology.protein, Peptides, Plasmodium yoelii

Abstract

Tryptophan–threonine-rich antigen (TryThrA) is a Plasmodium falciparum homologue of Plasmodium yoelii -infected erythrocyte membrane pypAg-1 antigen. pypAg-1 binds to the surface of uninfected mouse erythrocytes and has been used successfully in vaccine studies. The two antigens are characterized by an unusual tryptophan-rich domain, suggesting similar biological properties. Using synthetic peptides spanning the TryThrA sequence and human erythrocyte we have done binding assays to identify possible TryThrA functional regions. We describe four peptides outside the tryptophan-rich domain having high activity binding to normal human erythrocytes. The peptides termed HABPs (high activity binding peptides) are 30884 ( 61 LKEKKKKVLEFFENLVLNKKY 80 ) located at the N-terminal and 30901 ( 401 RKSLEQQFGDNMDKMNKLKKY 420 ), 30902 ( 421 KKILKFFPLFNYKSDLESIM 440 ) and 30913 ( 641 DLESTAEQKAEKKGGKAKAKY 660 ) located at the C-terminal. Studies with polyclonal goat antiserum against synthetic peptides chosen to represent the whole length of the protein showed that TryThrA has fluorescence pattern similar to PypAg-1 of P. yoelii . All HABPs inhibited merozoite in vitro invasion, suggesting that TryThrA protein may be participating in merozoite–erythrocyte interaction during invasion.

Published

2006