Your search keyword '"Myron Christodoulides"' showing total 167 results

1. Antimicrobial activity of compounds identified by artificial intelligence discovery engine targeting enzymes involved in Neisseria gonorrhoeae peptidoglycan metabolism

Author

Ravi Kant, Hannah Tilford, Camila S. Freitas, Dayana A. Santos Ferreira, James Ng, Gwennan Rucinski, Joshua Watkins, Ryan Pemberton, Tigran M. Abramyan, Stephanie C. Contreras, Alejandra Vera, and Myron Christodoulides

Subjects

Neisseria gonorrhoeae, Artificial intelligence, Peptidoglycan, Bactericidal, Computational modelling, Biology (General), QH301-705.5

Abstract

Abstract Background Neisseria gonorrhoeae (Ng) causes the sexually transmitted disease gonorrhoea. There are no vaccines and infections are treated principally with antibiotics. However, gonococci rapidly develop resistance to every antibiotic class used and there is a need for developing new antimicrobial treatments. In this study we focused on two gonococcal enzymes as potential antimicrobial targets, namely the serine protease L,D-carboxypeptidase LdcA (NgO1274/NEIS1546) and the lytic transglycosylase LtgD (NgO0626/NEIS1212). To identify compounds that could interact with these enzymes as potential antimicrobials, we used the AtomNet virtual high-throughput screening technology. We then did a computational modelling study to examine the interactions of the most bioactive compounds with their target enzymes. The identified compounds were tested against gonococci to determine minimum inhibitory and bactericidal concentrations (MIC/MBC), specificity, and compound toxicity in vitro. Results AtomNet identified 74 compounds that could potentially interact with Ng-LdcA and 84 compounds that could potentially interact with Ng-LtgD. Through MIC and MBC assays, we selected the three best performing compounds for both enzymes. Compound 16 was the most active against Ng-LdcA, with a MIC50 value

Published

2024

2. Comparison of urine and serum IgG detection ELISA for tegumentary leishmaniasis diagnosis and prognosis

Author

Raquel S.B. Câmara, Isabela A.G. Pereira, Daniela P. Lage, Danniele L. Vale, Fernanda Ludolf, Nathália C. Galvani, Camila S. Freitas, João A. Oliveira-da-Silva, Bárbara P.N. Assis, Ana T. Chaves, Mário S. Giusta, Grasiele S.V. Tavares, César N. Pereira, Alexsandro S. Galdino, Unaí Tupinambás, Miguel A. Chávez-Fumagalli, Vanessa P.M. Pascoal, Marcela T.C. Eller, Manoel O. da Costa Rocha, Myron Christodoulides, Ricardo A. Machado-de-Ávila, Denise U. Gonçalves, and Eduardo A.F. Coelho

Subjects

Tegumentary leishmaniasis, Leishmania braziliensis, Enzyme-linked immunosorbent assay, Urine, Diagnosis, Recombinant protein, Biology (General), QH301-705.5, Medicine

Abstract

Laboratorial diagnosis of tegumentary leishmaniasis (TL) is hampered by variable sensitivity and/or specificity of the tests, which are still hampered by blood́ invasive collection. In this context, in the present study, we develop a serum- and urine-based ELISA to TL diagnoses. A recombinant protein (rLiHyA), which was previously showed to be antigenic for the disease, as well as a B-cell epitope produced as synthetic peptide and a Leishmania antigenic extract (SLA), were used as antigens. A total of paired 205 urine and serum samples were used, which were comprised by samples from cutaneous (n = 30) and mucosal (n = 30) leishmaniasis patients, as well as from healthy individuals living in endemic region of disease (n = 45), of patients with Chagas disease (n = 30), leprosy (n = 35), malaria (n = 15) or HIV-infected (n = 20). Results showed that serum-based ELISA presented sensitivity of 24.0 %, 100 % and 41.0 %, when SLA, rLiHyA and synthetic peptide were used as antigens, and specificity of 98.4 %, 98.4 % and 98.4 %, respectively. The area under the curve (AUC) was calculated and results were 0.74, 1.0, and 0.71, respectively, when SLA, rLiHyA and synthetic peptide were used as antigens. Performing an urine-based ELISA, sensitivity was 28.0 %, 100 % and 75.0 %, respectively, when SLA, rLiHyA, and synthetic peptide were used, while specificity values were of 98.4 %, 98.4 % and 98.4 %, respectively. In addition, the AUC values were 0.82, 1.0, and 0.94, respectively. A significant drop in specific antibodies levels in both patientś serum and urine samples was found six months after treatment, suggesting a prognostic role of rLiHyA for TL. In conclusion, preliminary data suggest the potential of use patient urine to TL diagnoses.

Published

2024

3. A urine-based ELISA with recombinant non-glycosylated SARS-CoV-2 spike protein for detecting anti-SARS-CoV-2 spike antibodies

Author

Fernanda F. Ramos, Flávia F. Bagno, Paula F. Vassallo, João A. Oliveira-da-Silva, Thiago A. R. Reis, Raquel S. Bandeira, Amanda S. Machado, Daniela P. Lage, Vivian T. Martins, Ana P. Fernandes, Myron Christodoulides, Cecilia G. Ravetti, Vandack Nobre, Flávio G. da Fonseca, Eduardo A. F. Coelho, and Fernanda Ludolf

Subjects

Medicine, Science

Abstract

Abstract Serological assays have been widely used to detect anti-SARS-CoV-2 antibodies, which are generated from previous exposure to the virus or after vaccination. The presence of anti-SARS-CoV-2 Nucleocapsid antibodies was recently reported in patients´ urine using an in-house urine-based ELISA-platform, allowing a non-invasive way to collect clinical samples and assess immune conversion. In the current study, we evaluated and validated another in-house urine-based ELISA for the detection of anti-SARS-CoV-2 Spike antibodies. Three partial recombinant SARS-CoV-2 Spike proteins comprising the Receptor Binding Domain, expressed in eukaryotic or prokaryotic systems, were tested in an ELISA platform against a panel of over 140 urine and paired serum samples collected from 106 patients confirmed positive for SARS-CoV-2 by qRT-PCR. The key findings from our study were that anti-SARS-CoV-2 Spike antibodies could be detected in urine samples and that the prokaryotic expression of the rSARS-CoV-2 Spike protein was not a barrier to obtain relatively high serology efficiency for the urine-based assay. Thus, use of a urine-based ELISA assay with partial rSARS-CoV-2 Spike proteins, expressed in a prokaryotic system, could be considered as a convenient tool for screening for the presence of anti-SARS-CoV-2 Spike antibodies, and overcome the difficulties arising from sample collection and the need for recombinant proteins produced with eukaryotic expression systems.

Published

2023

4. Saturated Iso-Type Fatty Acids from the Marine Bacterium Mesoflavibacter zeaxanthinifaciens with Anti-Trypanosomal Potential

Author

Dayana Agnes Santos Ferreira, Erica Valadares de Castro Levatti, Lucas Monteiro Santa Cruz, Alan Roberto Costa, Álvaro E. Migotto, Amanda Yaeko Yamada, Carlos Henrique Camargo, Myron Christodoulides, João Henrique G. Lago, and Andre Gustavo Tempone

Subjects

marine bacteria, Trypanosoma cruzi, iso-fatty acids, metabolites, antimicrobial, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Chagas disease is a Neglected Tropical Disease with limited and ineffective therapy. In a search for new anti-trypanosomal compounds, we investigated the potential of the metabolites from the bacteria living in the corals and sediments of the southeastern Brazilian coast. Three corals, Tubastraea coccinea, Mussismilia hispida, Madracis decactis, and sediments yielded 11 bacterial strains that were fully identified by MALDI-ToF/MS or gene sequencing, resulting in six genera—Vibrio, Shewanella, Mesoflavibacter, Halomonas, Bacillus, and Alteromonas. To conduct this study, EtOAc extracts were prepared and tested against Trypanosoma cruzi. The crude extracts showed IC50 values ranging from 15 to 51 μg/mL against the trypomastigotes. The bacterium Mesoflavibacter zeaxanthinifaciens was selected for fractionation, resulting in an active fraction (FII) with IC50 values of 17.7 μg/mL and 23.8 μg/mL against the trypomastigotes and amastigotes, respectively, with neither mammalian cytotoxicity nor hemolytic activity. Using an NMR and ESI-HRMS analysis, the FII revealed the presence of unsaturated iso-type fatty acids. Its lethal action was investigated, leading to a protein spectral profile of the parasite altered after treatment. The FII also induced a rapid permeabilization of the plasma membrane of the parasite, leading to cell death. These findings demonstrate that these unsaturated iso-type fatty acids are possible new hits against T. cruzi.

Published

2024

5. Development of a multicellular in vitro model of the meningeal blood-CSF barrier to study Neisseria meningitidis infection

Author

Leo M. Endres, Marvin Jungblut, Mustafa Divyapicigil, Markus Sauer, Christian Stigloher, Myron Christodoulides, Brandon J. Kim, and Alexandra Schubert-Unkmeir

Subjects

Brain endothelial cells, Leptomeningeal cells, Neisseria meningitidis, Induced pluripotent stem cells, Meningeal blood-CSF barrier, Bacterial meningitis, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Bacterial meningitis is a life-threatening disease that occurs when pathogens such as Neisseria meningitidis cross the meningeal blood cerebrospinal fluid barrier (mBCSFB) and infect the meninges. Due to the human-specific nature of N. meningitidis, previous research investigating this complex host–pathogen interaction has mostly been done in vitro using immortalized brain endothelial cells (BECs) alone, which often do not retain relevant barrier properties in culture. Here, we developed physiologically relevant mBCSFB models using BECs in co-culture with leptomeningeal cells (LMCs) to examine N. meningitidis interaction. Methods We used BEC-like cells derived from induced pluripotent stem cells (iBECs) or hCMEC/D3 cells in co-culture with LMCs derived from tumor biopsies. We employed TEM and structured illumination microscopy to characterize the models as well as bacterial interaction. We measured TEER and sodium fluorescein (NaF) permeability to determine barrier tightness and integrity. We then analyzed bacterial adherence and penetration of the cell barrier and examined changes in host gene expression of tight junctions as well as chemokines and cytokines in response to infection. Results Both cell types remained distinct in co-culture and iBECs showed characteristic expression of BEC markers including tight junction proteins and endothelial markers. iBEC barrier function as determined by TEER and NaF permeability was improved by LMC co-culture and remained stable for seven days. BEC response to N. meningitidis infection was not affected by LMC co-culture. We detected considerable amounts of BEC-adherent meningococci and a relatively small number of intracellular bacteria. Interestingly, we discovered bacteria traversing the BEC-LMC barrier within the first 24 h post-infection, when barrier integrity was still high, suggesting a transcellular route for N. meningitidis into the CNS. Finally, we observed deterioration of barrier properties including loss of TEER and reduced expression of cell-junction components at late time points of infection. Conclusions Here, we report, for the first time, on co-culture of human iPSC derived BECs or hCMEC/D3 with meningioma derived LMCs and find that LMC co-culture improves barrier properties of iBECs. These novel models allow for a better understanding of N. meningitidis interaction at the mBCSFB in a physiologically relevant setting.

Published

2022

6. B-Cell Epitopes-Based Chimeric Protein from SARS-CoV-2 N and S Proteins Is Recognized by Specific Antibodies in Serum and Urine Samples from Patients

Author

Fernanda F. Ramos, Isabela A. G. Pereira, Mariana M. Cardoso, Raquel S. Bandeira, Daniela P. Lage, Rahisa Scussel, Rafaela S. Anastacio, Victor G. Freire, Marina F. N. Melo, Joao A. Oliveira-da-Silva, Vivian T. Martins, Grasiele S. V. Tavares, Danniele L. Vale, Camila S. Freitas, Ana Thereza Chaves, Júlia F. M. Caporali, Paula F. Vassallo, Cecilia G. Ravetti, Vandack Nobre, Flavio G. Fonseca, Myron Christodoulides, Ricardo A. Machado-de-Ávila, Eduardo A. F. Coelho, and Fernanda Ludolf

Subjects

B-cell epitopes, chimeric protein, diagnosis, urine, serum, SARS-CoV-2, Microbiology, QR1-502

Abstract

The impact of the COVID-19 pandemic caused by the SARS-CoV-2 virus underscored the crucial role of laboratorial tests as a strategy to control the disease, mainly to indicate the presence of specific antibodies in human samples from infected patients. Therefore, suitable recombinant antigens are relevant for the development of reliable tests, and so far, single recombinant proteins have been used. In this context, B-cell epitopes-based chimeric proteins can be an alternative to obtain tests with high accuracy through easier and cheaper production. The present study used bioinformatics tools to select specific B-cell epitopes from the spike (S) and the nucleocapsid (N) proteins from the SARS-CoV-2 virus, aiming to produce a novel recombinant chimeric antigen (N4S11-SC2). Eleven S and four N-derived B-cell epitopes were predicted and used to construct the N4S11-SC2 protein, which was analyzed in a recombinant format against serum and urine samples, by means of an in house-ELISA. Specific antibodies were detected in the serum and urine samples of COVID-19 patients, which were previously confirmed by qRT-PCR. Results showed that N4S11-SC2 presented 83.7% sensitivity and 100% specificity when using sera samples, and 91.1% sensitivity and 100% specificity using urine samples. Comparable findings were achieved with paired urine samples when compared to N and S recombinant proteins expressed in prokaryotic systems. However, better results were reached for N4S11-SC2 in comparison to the S recombinant protein when using paired serum samples. Anti-N4S11-SC2 antibodies were not clearly identified in Janssen Ad26.COV2.S COVID-19-vaccinated subjects, using serum or paired urine samples. In conclusion, this study presents a new chimeric recombinant antigen expressed in a prokaryotic system that could be considered as an alternative diagnostic marker for the SARS-CoV-2 infection, with the potential benefits to be used on serum or urine from infected patients.

Published

2023

7. Establishing an invertebrate Galleria mellonella greater wax moth larval model of Neisseria gonorrhoeae infection

Author

Aiste Dijokaite, Maria Victoria Humbert, Emma Borkowski, Roberto M La Ragione, and Myron Christodoulides

Subjects

neisseria gonorrhoeae, galleria mellonella, infection, histopathology, Infectious and parasitic diseases, RC109-216

Abstract

Neisseria gonorrhoeae (gonococcus) causes the human sexually transmitted disease gonorrhea. Studying gonococcal pathogenesis and developing new vaccines and therapies to combat the increasing prevalence of multi-antibiotic resistant bacteria has made use of many ex vivo models based on human cells and tissues, and in vivo vertebrate models, for example, rodent, pig and human. The focus of the current study was to examine the utility of the invertebrate greater wax moth Galleria mellonella as an in vivo model of gonococcal infection. We observed that a threshold of ~106 – 107 gonococci/larva was required to kill >50% of larvae (P 0.05) than Pseudomonas aeruginosa. Larvae primed with nontoxic doses of gonococci were more susceptible to subsequent challenge with homologous and heterologous bacteria, and larval survival was significantly reduced (P 0.05).

Published

2021

8. Efficacy of an Immunotherapy Combining Immunogenic Chimeric Protein Plus Adjuvant and Amphotericin B against Murine Visceral Leishmaniasis

Author

Danniele L. Vale, Camila S. Freitas, Vívian T. Martins, Gabriel J. L. Moreira, Amanda S. Machado, Fernanda F. Ramos, Isabela A. G. Pereira, Raquel S. Bandeira, Marcelo M. de Jesus, Grasiele S. V. Tavares, Fernanda Ludolf, Miguel A. Chávez-Fumagalli, Alexsandro S. Galdino, Ricardo T. Fujiwara, Lílian L. Bueno, Bruno M. Roatt, Myron Christodoulides, Eduardo A. F. Coelho, and Daniela P. Lage

Subjects

Leishmania, visceral leishmaniasis, immunotherapy, chimera vaccine, T cell response, mouse, Biology (General), QH301-705.5

Abstract

Visceral leishmaniasis (VL) in the Americas is a chronic systemic disease caused by infection with Leishmania infantum parasites. The toxicity of antileishmanial drugs, long treatment course and limited efficacy are significant concerns that hamper adequate treatment against the disease. Studies have shown the promise of an immunotherapeutics approach, combining antileishmanial drugs to reduce the parasitism and vaccine immunogens to activate the host immune system. In the current study, we developed an immunotherapy using a recombinant T cell epitope-based chimeric protein, ChimT, previously shown to be protective against Leishmania infantum, with the adjuvant monophosphoryl lipid A (MPLA) and amphotericin B (AmpB) as the antileishmanial drug. BALB/c mice were infected with L. infantum stationary promastigotes and later they received saline or were treated with AmpB, MPLA, ChimT/Amp, ChimT/MPLA or ChimT/MPLA/AmpB. The combination of ChimT/MPLA/AmpB significantly reduced the parasite load in mouse organs (p < 0.05) and induced a Th1-type immune response, which was characterized by higher ratios of anti-ChimT and anti-parasite IgG2a:IgG1 antibodies, increased IFN-γ mRNA and IFN-γ and IL-12 cytokines and accompanied by lower levels of IL-4 and IL-10 cytokines, when compared to other treatments and controls (all p < 0.05). Organ toxicity was also lower with the ChimT/MPLA/AmpB immunotherapy, suggesting that the inclusion of the vaccine and adjuvant ameliorated the toxicity of AmpB to some degree. In addition, the ChimT vaccine alone stimulated in vitro murine macrophages to significantly kill three different internalized species of Leishmania parasites and to produce Th1-type cytokines into the culture supernatants. To conclude, our data suggest that the combination of ChimT/MPLA/AmpB could be considered for further studies as an immunotherapy for L. infantum infection.

Published

2023

9. Vertebrate and Invertebrate Animal and New In Vitro Models for Studying Neisseria Biology

Author

Michael M. Girgis and Myron Christodoulides

Subjects

Neisseria meningitidis, Neisseria gonorrhoeae, vertebrate, invertebrate, vaccine, immunology, Medicine

Abstract

The history of Neisseria research has involved the use of a wide variety of vertebrate and invertebrate animal models, from insects to humans. In this review, we itemise these models and describe how they have made significant contributions to understanding the pathophysiology of Neisseria infections and to the development and testing of vaccines and antimicrobials. We also look ahead, briefly, to their potential replacement by complex in vitro cellular models.

Published

2023

10. Update on the Neisseria Macrophage Infectivity Potentiator-Like PPIase Protein

Author

Myron Christodoulides

Subjects

Neisseria meningitidis, Neisseria gonorrhoeae, Macrophage Infectivity Potentiator, vaccine, targeted treatments, commensal Neisseriae, Microbiology, QR1-502

Abstract

Neisseria pathogens express a Macrophage Infectivity Potentiator Protein (MIP), which belongs to the FK506 binding protein (FKBP) family of proteins that exhibit peptidyl-prolyl cis/trans isomerase (PPIase) activity. Neisseria MIP proteins are potential candidates for inclusion into vaccines for gonorrhoea caused by N. gonorrhoeae infection, and meningitis/sepsis caused by M. meningitidis infection. Neisseria MIP proteins are also potential targets for directed drug treatments, although this remains relatively unexplored. In this mini-review, we provide an update into the vaccine potential of Neisseria MIP and the few published drug targeting studies, and explore further the diversity of this protein amongst both pathogenic and commensal Neisseria spp.

Published

2022

11. Synthetic Analogues of Gibbilimbol B Induce Bioenergetic Damage and Calcium Imbalance in Trypanosoma cruzi

Author

Maiara Amaral, Marina T. Varela, Ravi Kant, Myron Christodoulides, João Paulo S. Fernandes, and Andre G. Tempone

Subjects

Trypanosoma cruzi, natural products, gibbilimbol, mechanism of action, drugs, treatment, Science

Abstract

Chagas disease is an endemic tropical disease caused by the protozoan Trypanosoma cruzi, which affects around 7 million people worldwide, mostly in development countries. The treatment relies on only two available drugs, with severe adverse effects and a limited efficacy. Therefore, the search for new therapies is a legitimate need. Within this context, our group reported the anti-Trypanosoma cruzi activity of gibbilimbol B, a natural alkylphenol isolated from the plant Piper malacophyllum. Two synthetic derivatives, LINS03018 (1) and LINS03024 (2), demonstrated a higher antiparasitic potency and were selected for mechanism of action investigations. Our studies revealed no alterations in the plasma membrane potential, but a rapid alkalinization of the acidocalcisomes. Nevertheless, compound 1 exhibit a pronounced effect in the bioenergetics metabolism, with a mitochondrial impairment and consequent decrease in ATP and reactive oxygen species (ROS) levels. Compound 2 only depolarized the mitochondrial membrane potential, with no interferences in the respiratory chain. Additionally, no macrophages response of nitric oxide (NO) was observed in both compounds. Noteworthy, simple structure modifications in these derivatives induced significant differences in their lethal effects. Thus, this work reinforces the importance of the mechanism of action investigations at the early phases of drug discovery and support further developments of the series.

Published

2023

12. Dual RNASeq Reveals NTHi-Macrophage Transcriptomic Changes During Intracellular Persistence

Author

Jodie Ackland, Ashley I. Heinson, David W. Cleary, Myron Christodoulides, Tom M. A. Wilkinson, and Karl J. Staples

Subjects

macrophage, NTHi, intracellular persistence, dual RNAseq, host-pathogen interactions, Microbiology, QR1-502

Abstract

Nontypeable Haemophilus influenzae (NTHi) is a pathobiont which chronically colonises the airway of individuals with chronic respiratory disease and is associated with poor clinical outcomes. It is unclear how NTHi persists in the airway, however accumulating evidence suggests that NTHi can invade and persist within macrophages. To better understand the mechanisms of NTHi persistence within macrophages, we developed an in vitro model of NTHi intracellular persistence using human monocyte-derived macrophages (MDM). Dual RNA Sequencing was used to assess MDM and NTHi transcriptomic regulation occurring simultaneously during NTHi persistence. Analysis of the macrophage response to NTHi identified temporally regulated transcriptomic profiles, with a specific ‘core’ profile displaying conserved expression of genes across time points. Gene list enrichment analysis identified enrichment of immune responses in the core gene set, with KEGG pathway analysis revealing specific enrichment of intracellular immune response pathways. NTHi persistence was facilitated by modulation of bacterial metabolic, stress response and ribosome pathways. Levels of NTHi genes bioC, mepM and dps were differentially expressed by intracellular NTHi compared to planktonic NTHi, indicating that the transcriptomic adaption was distinct between the two different NTHi lifestyles. Overall, this study provides crucial insights into the transcriptomic adaptations facilitating NTHi persistence within macrophages. Targeting these reported pathways with novel therapeutics to reduce NTHi burden in the airway could be an effective treatment strategy given the current antimicrobial resistance crisis and lack of NTHi vaccines.

Published

2021

13. Characterization of two putative Dichelobacter nodosus footrot vaccine antigens identifies the first lysozyme inhibitor in the genus

Author

Maria Victoria Humbert, Alexandra Jackson, Christian M. Orr, Ivo Tews, and Myron Christodoulides

Subjects

Medicine, Science

Abstract

Abstract The Gram-negative anaerobic bacterium Dichelobacter nodosus (Dn) causes footrot in ruminants, a debilitating and highly contagious disease that results in necrotic hooves and significant economic losses in agriculture. Vaccination with crude whole-cell vaccine mixed with multiple recombinant fimbrial proteins can provide protection during species-specific outbreaks, but subunit vaccines containing broadly cross-protective antigens are desirable. We have investigated two D. nodosus candidate vaccine antigens. Macrophage Infectivity Potentiator Dn-MIP (DNO_0012, DNO_RS00050) and Adhesin Complex Protein Dn-ACP (DNO_0725, DNO_RS06795) are highly conserved amongst ~170 D. nodosus isolates in the https://pubmlst.org/dnodosus/ database. We describe the presence of two homologous ACP domains in Dn-ACP with potent C-type lysozyme inhibitor function, and homology of Dn-MIP to other putative cell-surface and membrane-anchored MIP virulence factors. Immunization of mice with recombinant proteins with a variety of adjuvants induced antibodies that recognised both proteins in D. nodosus. Notably, immunization with fimbrial-whole-cell Footvax vaccine induced anti-Dn-ACP and anti-Dn-MIP antibodies. Although all adjuvants induced high titre antibody responses, only antisera to rDn-ACP-QuilA and rDn-ACP-Al(OH)3 significantly prevented rDn-ACP protein from inhibiting lysozyme activity in vitro. Therefore, a vaccine incorporating rDn-ACP in particular could contribute to protection by enabling normal innate immune lysozyme function to aid bacterial clearance.

Published

2019

14. A rapid diagnostic test for human Visceral Leishmaniasis using novel Leishmania antigens in a Laser Direct-Write Lateral Flow Device

Author

Maria Victoria Humbert, Lourena Emanuele Costa, Ioannis Katis, Fernanda Fonseca Ramos, Amanda Sanchéz Machado, Collin Sones, Eduardo Antonio Ferraz Coelho, and Myron Christodoulides

Subjects

Leishmania infantum, Visceral Leishmaniasis, Laser Direct-Write, Lateral Flow Device, immunochromatographic test, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTVisceral Leishmaniasis (VL) causes high morbidity and mortality in low-to-middle-income countries worldwide. In this study, we used Laser Direct-Write (LDW) technology to develop a new Lateral Flow Device (LFD) with double-channel geometry on a low-cost paper platform as a rapid and accurate serodiagnostic assay for human VL. This Duplex VL-LFD was based on a laser-patterned microfluidic device using two recombinant Leishmania proteins, β-tubulin and LiHyp1, as novel diagnostic antigens. The VL-LFD assay was tested with blood/serum samples from patients diagnosed with VL, Tegumentary Leishmaniasis, Leishmaniasis of unknown identity, other parasitic diseases with similar clinical symptoms, i.e. Leprosy Disease and Chagas Disease, and blood from healthy donors, and compared in parallel with commercial rK39 IT-LEISH® Kit. Clinical diagnosis and real-time Polymerase Chain Reaction assay were used as reference standards. VL-LFD Sensitivity (S ± 95% Confidence Intervals (CI)) of 90.9 (78.9-100) and Specificity (Sp ± 95% CI) of 98.7 (96.1-100) outperformed the IT-LEISH® Kit [S = 77.3 (59.8-94.8), Sp = 94.7 (89.6-99.8)]. This is the first study reporting successful development of an LFD assay using the LDW technology and the VL-LFD warrants comparative testing in larger patient cohorts and in areas with endemic VL in order to improve diagnosis and disease management.

Published

2019

15. A Recombinant Chimeric Protein-Based Vaccine Containing T-Cell Epitopes from Amastigote Proteins and Combined with Distinct Adjuvants, Induces Immunogenicity and Protection against Leishmania infantum Infection

Author

Daniela P. Lage, Danniele L. Vale, Flávia P. Linhares, Camila S. Freitas, Amanda S. Machado, Jamille M. O. Cardoso, Daysiane de Oliveira, Nathália C. Galvani, Marcelo P. de Oliveira, João A. Oliveira-da-Silva, Fernanda F. Ramos, Grasiele S. V. Tavares, Fernanda Ludolf, Raquel S. Bandeira, Isabela A. G. Pereira, Miguel A. Chávez-Fumagalli, Bruno M. Roatt, Ricardo A. Machado-de-Ávila, Myron Christodoulides, Eduardo A. F. Coelho, and Vívian T. Martins

Subjects

visceral leishmaniasis, vaccine, T-cell epitopes, polypeptide-based protein, immune response, adjuvants, Medicine

Abstract

Currently, there is no licensed vaccine to protect against human visceral leishmaniasis (VL), a potentially fatal disease caused by infection with Leishmania parasites. In the current study, a recombinant chimeric protein ChimT was developed based on T-cell epitopes identified from the immunogenic Leishmania amastigote proteins LiHyp1, LiHyV, LiHyC and LiHyG. ChimT was associated with the adjuvants saponin (Sap) or monophosphoryl lipid A (MPLA) and used to immunize mice, and their immunogenicity and protective efficacy were evaluated. Both ChimT/Sap and ChimT/MPLA induced the development of a specific Th1-type immune response, with significantly high levels of IFN-γ, IL-2, IL-12, TNF-α and GM-CSF cytokines produced by CD4+ and CD8+ T cell subtypes (p < 0.05), with correspondingly low production of anti-leishmanial IL-4 and IL-10 cytokines. Significantly increased (p < 0.05) levels of nitrite, a proxy for nitric oxide, and IFN-γ expression (p < 0.05) were detected in stimulated spleen cell cultures from immunized and infected mice, as was significant production of parasite-specific IgG2a isotype antibodies. Significant reductions in the parasite load in the internal organs of the immunized and infected mice (p < 0.05) were quantified with a limiting dilution technique and quantitative PCR and correlated with the immunological findings. ChimT/MPLA showed marginally superior immunogenicity than ChimT/Sap, and although this was not statistically significant (p > 0.05), ChimT/MPLA was preferred since ChimT/Sap induced transient edema in the inoculation site. ChimT also induced high IFN-γ and low IL-10 levels from human PBMCs isolated from healthy individuals and from VL-treated patients. In conclusion, the experimental T-cell multi-epitope amastigote stage Leishmania vaccine administered with adjuvants appears to be a promising vaccine candidate to protect against VL.

Published

2022

16. Vaccines for piscirickettsiosis (salmonid rickettsial septicaemia, SRS): the Chile perspective

Author

Kevin Maisey, Ruth Montero, and Myron Christodoulides

Subjects

piscirickettsia salmonis, salmonid rickettsial septicaemia, vaccine, genome, pathogenesis, bacterin vaccine, antibiotics, humoral and t-cell immunity, Internal medicine, RC31-1245

Abstract

Introduction: Piscirickettsia salmonis (P. salmonis) is the aetiological bacterium of the contagious disease piscirickettsiosis or salmonid rickettsial septicaemia (SRS) and causes significant economic losses to aquaculture production in Chile. Current strategies to control infection are i) indiscriminate antibiotic use and ii) vaccination with predominantly P. salmonis bacterin vaccines that do not provide acceptable levels of protection against piscirickettsiosis. Areas covered: This review covers the basic biology of P. salmonis, clinical piscirickettsiosis and disease control, the development of current P. salmonis vaccines, innate and adaptive immunity and a 5-year plan to develop new piscirickettsiosis vaccines. Expert commentary: Fundamental knowledge is lacking on the complexities of P. salmonis-host interactions, relating to bacterial virulence and host innate and adaptive immune responses, which needs to be addressed. The development of new P. salmonis vaccines needs the application of comprehensive ‘omics’ technologies to identify candidate vaccine antigens capable of stimulating long-lasting protective immune responses.

Published

2017

17. Author Correction: Morphological and cytokine profiles as key parameters to distinguish between Gram-negative and Gram-positive bacterial keratitis

Author

Aris Konstantopoulos, Maria del Mar Cendra, Michael Tsatsos, Mariam Elabiary, Myron Christodoulides, and Parwez Hossain

Subjects

Medicine, Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2021

18. Liposomal Formulation of ChimeraT, a Multiple T-Cell Epitope-Containing Recombinant Protein, Is a Candidate Vaccine for Human Visceral Leishmaniasis

Author

Daniela P. Lage, Patrícia A.F. Ribeiro, Daniel S. Dias, Débora V.C. Mendonça, Fernanda F. Ramos, Lívia M. Carvalho, Bethina T. Steiner, Grasiele S.V. Tavares, Vívian T. Martins, Amanda S. Machado, João A. Oliveira-da-Silva, Thaís T.O. Santos, Camila S. Freitas, Jamil S. Oliveira, Bruno M. Roatt, Ricardo A. Machado-de-Ávila, Maria V. Humbert, Myron Christodoulides, and Eduardo A.F. Coelho

Subjects

ChimeraT, visceral leishmaniasis, vaccine, liposome, saponin, Th1-type immunity, Medicine

Abstract

Background: Leishmaniases are neglected diseases caused by infection with Leishmania parasites and there are no human vaccines in use routinely. The purpose of this study was to examine the immunogenicity of ChimeraT, a novel synthetic recombinant vaccine against visceral leishmaniasis (VL), incorporated into a human-compatible liposome formulation. Methods: BALB/c mice were immunized subcutaneously with ChimeraT/liposome vaccine, ChimeraT/saponin adjuvant, or ChimeraT/saline and immune responses examined in vitro and in vivo. Results: Immunization with the ChimeraT/liposome formulation induced a polarized Th1-type response and significant protection against L. infantum infection. ChimeraT/liposome vaccine stimulated significantly high levels of interferon (IFN)-γ, interleukin (IL)-12, and granulocyte macrophage-colony stimulating factor (GM-CSF) cytokines by both CD4 and CD8 T-cells, with correspondingly lower levels of IL-4 and IL-10 cytokines. Induced antibodies were predominantly IgG2a isotype, and homologous antigen-stimulated spleen cells produced significant nitrite as a proxy for nitric oxide (NO). Furthermore, we examined a small number of treated VL patients and found higher levels of circulating anti-ChimeraT protein IgG2 antibodies, compared to IgG1 levels. Conclusions: Overall, the liposomal formulation of ChimeraT induced a protective Th1-type immune response and thus could be considered in future studies as a vaccine candidate against human VL.

Published

2020

19. Structure of the Recombinant Neisseria gonorrhoeae Adhesin Complex Protein (rNg-ACP) and Generation of Murine Antibodies with Bactericidal Activity against Gonococci

Author

Hannia Liliana Almonacid-Mendoza, María Victoria Humbert, Aiste Dijokaite, David W. Cleary, Yiwen Soo, Miao-Chiu Hung, Christian M. Orr, Moritz M. Machelett, Ivo Tews, and Myron Christodoulides

Subjects

NGO1981, Neisseria gonorrhoeae, adhesin complex protein, bactericidal antibody, crystal structure, recombinant protein production, Microbiology, QR1-502

Abstract

ABSTRACT Neisseria gonorrhoeae (gonococcus [Ng]) is the causative organism of the sexually transmitted disease gonorrhoea, and no effective vaccine exists currently. In this study, the structure, biological properties, and vaccine potential of the Ng-adhesin complex protein (Ng-ACP) are presented. The crystal structure of recombinant Ng-ACP (rNg-ACP) protein was solved at 1.65 Å. Diversity and conservation of Ng-ACP were examined in different Neisseria species and gonococcal isolates (https://pubmlst.org/neisseria/ database) in silico, and protein expression among 50 gonococcal strains in the Centers for Disease Control and Prevention/Food and Drug Administration (CDCP/FDA) AR Isolate Bank was examined by Western blotting. Murine antisera were raised to allele 10 (strain P9-17)-encoded rNg-ACP protein with different adjuvants and examined by enzyme-linked immunosorbent assay (ELISA), Western blotting, and a human serum bactericidal assay. Rabbit antiserum to rNg-ACP was tested for its ability to prevent Ng-ACP from inhibiting human lysozyme activity in vitro. Ng-ACP is structurally homologous to Neisseria meningitidis ACP and MliC/PliC lysozyme inhibitors. Gonococci expressed predominantly allele 10- and allele 6-encoded Ng-ACP (81% and 15% of isolates, respectively). Murine antisera were bactericidal (titers of 64 to 512, P

Published

2018

20. Neisseria gonorrhoeae employs two protein inhibitors to evade killing by human lysozyme.

Author

Stephanie A Ragland, Marίa V Humbert, Myron Christodoulides, and Alison K Criss

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

The bacterial pathogen Neisseria gonorrhoeae (Gc) infects mucosal sites rich in antimicrobial proteins, including the bacterial cell wall-degrading enzyme lysozyme. Certain Gram-negative bacteria produce protein inhibitors that bind to and inhibit lysozyme. Here, we identify Ng_1063 as a new inhibitor of lysozyme in Gc, and we define its functions in light of a second, recently identified lysozyme inhibitor, Ng_1981. In silico analyses indicated that Ng_1063 bears sequence and structural homology to MliC-type inhibitors of lysozyme. Recombinant Ng_1063 inhibited lysozyme-mediated killing of a susceptible mutant of Gc and the lysozyme-sensitive bacterium Micrococcus luteus. This inhibitory activity was dependent on serine 83 and lysine 103 of Ng_1063, which are predicted to interact with lysozyme's active site residues. Lysozyme co-immunoprecipitated with Ng_1063 and Ng_1981 from intact Gc. Ng_1063 and Ng_1981 protein levels were also increased in Gc exposed to lysozyme. Gc lacking both ng1063 and ng1981 was significantly more sensitive to killing by lysozyme than wild-type or single mutant bacteria. When exposed to human tears or saliva, in which lysozyme is abundant, survival of Δ1981Δ1063 Gc was significantly reduced compared to wild-type, and survival was restored upon addition of recombinant Ng_1981. Δ1981Δ1063 mutant Gc survival was additionally reduced in the presence of human neutrophils, which produce lysozyme. We found that while Ng_1063 was exposed on the surface of Gc, Ng_1981 was both in an intracellular pool and extracellularly released from the bacteria, suggesting that Gc employs these two proteins at multiple spatial barriers to fully neutralize lysozyme activity. Together, these findings identify Ng_1063 and Ng_1981 as critical components for Gc defense against lysozyme. These proteins may be attractive targets for antimicrobial therapy aimed to render Gc susceptible to host defenses and/or for vaccine development, both of which are urgently needed against drug-resistant gonorrhea.

Published

2018

21. Neisseria gonorrhoeae Challenge Increases Matrix Metalloproteinase-8 Expression in Fallopian Tube Explants

Author

Natalia E. Juica, Paula I. Rodas, Paula Solar, Paula Borda, Renato Vargas, Cristobal Muñoz, Rodolfo Paredes, Myron Christodoulides, and Luis A. Velasquez

Subjects

fallopian tubes, Neisseria gonorrhoeae, extracellular matrix, metalloproteinases, mucosal damage, Microbiology, QR1-502

Abstract

Background:Neisseria gonorrhoeae (Ngo) is the etiological agent of gonorrhea, a sexually transmitted infection that initially infects the female lower genital tract. In untreated women, the bacteria can ascend to the upper genital reproductive tract and infect the fallopian tube (FTs), which is associated with salpingitis and can lead to impaired FT function and infertility. The extracellular matrix (ECM) plays an important role in cell migration and differentiation in the female genital tract, and some pathogens modify the ECM to establish successful infections. The ECM is regulated by matrix metalloproteinases (MMPs) and tissue inhibitors of metalloproteinases (TIMPs), their endogenous inhibitors; MMP deregulation causes pathological conditions in a variety of tissues.Results: The aim of this work was to analyze the expression and localization of MMP-3, MMP-8, MMP-9, and TIMP-1 in FT explants during Ngo infection using real-time PCR, immunohistochemistry, zymography and ELISA. No significant variations in MMP-3, MMP-9, and TIMP-1 transcript levels were observed. In contrast, a significant increase (p < 0.05) was observed for MMP-8 expression and was accompanied by stromal immunoreactivity in infected explants. ELISA results supported these findings and showed that MMP-8 release increased upon gonococcal infection.Conclusions: Our results indicate that gonococcal infection induces increased MMP-8 expression, which might contribute to FT damage during infection.

Published

2017

22. Effect of Different Antibiotic Chemotherapies on Pseudomonas aeruginosa Infection In Vitro of Primary Human Corneal Fibroblast Cells

Author

Maria del Mar Cendra, Myron Christodoulides, and Parwez Hossain

Subjects

Pseudomonas aeruginosa, bacterial keratitis, antibiotic chemotherapy, intracellular persistence, corneal diseases, in vitro model, Microbiology, QR1-502

Abstract

Pseudomonas aeruginosa is a major cause of bacterial keratitis (BK) worldwide. Inappropriate or non-optimal antibiotic chemotherapy can lead to corneal perforation and rapid sight loss. In this study, we tested the hypothesis that P. aeruginosa strain PAO1 invades primary human corneal fibroblasts (hCFs) in vitro and persists intracellularly, despite chemotherapy with antibiotics used commonly to treat BK. In rank order, ciprofloxacin, levofloxacin and polymyxin B showed the highest activity against planktonic PAO1 growth (100% inhibitory concentration ≤10 μg/mL; 50% inhibitory concentration ≤1 μg/mL), followed by gentamicin and ofloxacin (100% inhibitory concentration ≤50 μg/mL; 50% inhibitory concentration ≤10 μg/mL). These bactericidal antibiotics (50–200 μg/mL concentrations) all killed PAO1 in the extracellular environment of infected hCF monolayers. By contrast, the bactericidal antibiotic cefuroxime and the bacteriostatic antibiotic chloramphenicol failed to sterilize both PAO1 broth cultures, even at a concentration of ≥200 μg/mL) and infected hCF monolayers. Statistically, all antibiotics were able to prevent LDH release from PAO1-infected hCF monolayers at both concentrations tested. Intracellular Pseudomonas were significantly reduced (>99%, P < 0.05) following treatment with ciprofloxacin, levofloxacin and ofloxacin, whereas gentamicin, polymyxin B and cefuroxime failed to clear intracellular bacteria over 24 h. Intracellular Pseudomonas infection was resistant to chloramphenicol, with hCF death observed by 9 h. Eventual growth of remaining intracellular Pseudomonas was observed in hCF after removal of all antibiotics, resulting in re-infection cycles and cell death by 48 h. All of the antibiotics reduced significantly (P < 0.05) IL-1β secretion by hCF infected with a Multiplicity Of Infection (MOI) = 1 of PAO1. With higher MOI, no pro-inflammatory effects were observed with antibiotic treatment, expect with polymyxin B and ofloxacin, which induced significant increased IL-1β secretion (P < 0.001). The findings from our study demonstrated that bactericidal and bacteriostatic antibiotics, routinely used to treat BK, failed to eradicate Pseudomonas infection of hCFs in vitro and that their bactericidal efficacies were influenced by the cellular location of the organism.

Published

2017

23. Structure of the Neisseria Adhesin Complex Protein (ACP) and its role as a novel lysozyme inhibitor.

Author

María Victoria Humbert, Amaka Marian Awanye, Lu-Yun Lian, Jeremy P Derrick, and Myron Christodoulides

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Pathogenic and commensal Neisseria species produce an Adhesin Complex Protein, which was first characterised in Neisseria meningitidis (Nm) as a novel surface-exposed adhesin with vaccine potential. In the current study, the crystal structure of a recombinant (r)Nm-ACP Type I protein was determined to 1.4 Å resolution: the fold resembles an eight-stranded β-barrel, stabilized by a disulphide bond between the first (Cys38) and last (Cys121) β-strands. There are few main-chain hydrogen bonds linking β4-β5 and β8-β1, so the structure divides into two four-stranded anti-parallel β-sheets (β1-β4 and β5-β8). The computed surface electrostatic charge distribution showed that the β1-β4 sheet face is predominantly basic, whereas the β5-β8 sheet is apolar, apart from the loop between β4 and β5. Concentrations of rNm-ACP and rNeisseria gonorrhoeae-ACP proteins ≥0.25 μg/ml significantly inhibited by ~80-100% (P

Published

2017

24. Feasibility of Using a Luminescence-Based Method to Determine Serum Bactericidal Activity against Neisseria gonorrhoeae

Author

Fiona Clow, Conor J O’Hanlon, Myron Christodoulides, and Fiona J Radcliff

Subjects

neisseria gonorrhoeae, serum bactericidal activity, luminescent, atp, serum-sensitivity, Medicine

Abstract

Development of a vaccine to limit the impact of antibiotic resistant Neisseria gonorrhoeae is now a global priority. Serum bactericidal antibody (SBA) is a possible indicator of protective immunity to N. gonorrhoeae, but conventional assays measure colony forming units (CFU), which is time-consuming. A luminescent assay that quantifies ATP as a surrogate measure of bacterial viability was tested on N. gonorrhoeae strains FA1090, MS11 and P9-17 and compared to CFU-based readouts. There was a linear relationship between CFU and ATP levels for all three strains (r > 0.9). Normal human serum (NHS) is a common source of complement for SBA assays, but needs to be screened for non-specific bactericidal activity. NHS from 10 individuals were used for serum sensitivity assays—sensitivity values were significantly reduced with the ATP method for FA1090 (5/10, p < 0.05) and MS11 (10/10, p < 0.05), whereas P9-17 data were comparable for all donors. Our results suggest that measuring ATP underestimates serum sensitivity of N. gonorrhoeae and that the CFU method is a better approach. However, mouse anti-P9-17 outer membrane vesicles (OMV) SBA titres to P9-17 were comparable with both methods (r = 0.97), suggesting this assay can be used to rapidly screen sera for bactericidal antibodies to gonococci.

Published

2019

25. The Biology of Neisseria Adhesins

Author

Miao-Chiu Hung and Myron Christodoulides

Subjects

Neisseria, meningitis, gonorrhoea, bacterial adhesin, host cell receptor, structure, Biology (General), QH301-705.5

Abstract

Members of the genus Neisseria include pathogens causing important human diseases such as meningitis, septicaemia, gonorrhoea and pelvic inflammatory disease syndrome. Neisseriae are found on the exposed epithelia of the upper respiratory tract and the urogenital tract. Colonisation of these exposed epithelia is dependent on a repertoire of diverse bacterial molecules, extending not only from the surface of the bacteria but also found within the outer membrane. During invasive disease, pathogenic Neisseriae also interact with immune effector cells, vascular endothelia and the meninges. Neisseria adhesion involves the interplay of these multiple surface factors and in this review we discuss the structure and function of these important molecules and the nature of the host cell receptors and mechanisms involved in their recognition. We also describe the current status for recently identified Neisseria adhesins. Understanding the biology of Neisseria adhesins has an impact not only on the development of new vaccines but also in revealing fundamental knowledge about human biology.

Published

2013

26. Viral Inhibition of Bacterial Phagocytosis by Human Macrophages: Redundant Role of CD36.

Author

Grace E Cooper, Zoe C Pounce, Joshua C Wallington, Leidy Y Bastidas-Legarda, Ben Nicholas, Chiamaka Chidomere, Emily C Robinson, Kirstin Martin, Anna S Tocheva, Myron Christodoulides, Ratko Djukanovic, Tom M A Wilkinson, and Karl J Staples

Subjects

Medicine, Science

Abstract

Macrophages are essential to maintaining lung homoeostasis and recent work has demonstrated that influenza-infected lung macrophages downregulate their expression of the scavenger receptor CD36. This receptor has also been shown to be involved in phagocytosis of Streptococcus pneumoniae, a primary agent associated with pneumonia secondary to viral infection. The aim of this study was to investigate the role of CD36 in the effects of viral infection on macrophage phagocytic function. Human monocyte-derived macrophages (MDM) were exposed to H3N2 X31 influenza virus, M37 respiratory syncytial virus (RSV) or UV-irradiated virus. No infection of MDM was seen upon exposure to UV-irradiated virus but incubation with live X31 or M37 resulted in significant levels of viral detection by flow cytometry or RT-PCR respectively. Infection resulted in significantly diminished uptake of S. pneumoniae by MDM and significantly decreased expression of CD36 at both the cell surface and mRNA level. Concurrently, there was a significant increase in IFNβ gene expression in response to infection and we observed a significant decrease in bacterial phagocytosis (p = 0.031) and CD36 gene expression (p = 0.031) by MDM cultured for 24 h in 50IU/ml IFNβ. Knockdown of CD36 by siRNA resulted in decreased phagocytosis, but this was mimicked by transfection reagent alone. When MDM were incubated with CD36 blocking antibodies no effect on phagocytic ability was observed. These data indicate that autologous IFNβ production by virally-infected cells can inhibit bacterial phagocytosis, but that decreased CD36 expression by these cells does not play a major role in this functional deficiency.

Published

2016

27. Vaccine Potential and Diversity of the Putative Cell Binding Factor (CBF, NMB0345/NEIS1825) Protein of Neisseria meningitidis.

Author

María Victoria Humbert, Miao-Chiu Hung, Renee Phillips, Charlene Akoto, Alison Hill, Wei-Ming Tan, John Edward Heckels, and Myron Christodoulides

Subjects

Medicine, Science

Abstract

The cbf gene from Neisseria meningitidis strain MC58 encoding the putative Cell Binding Factor (CBF, NMB0345/NEIS1825) protein was cloned into the pRSETA system and a ~36-kDa recombinant (r)CBF protein expressed in Escherichia coli and purified by metal affinity chromatography. High titres of rCBF antibodies were induced in mice following immunization with rCBF-saline, rCBF-Al(OH)3, rCBF-Liposomes or rCBF-Zwittergent (Zw) 3-14 micelles, both with and without incorporated monophosphoryl lipid A (MPLA) adjuvant. Anti-rCBF sera reacted in western blots of meningococcal lysates with a single protein band of molecular mass ~29.5 kDa, indicative of mature CBF protein, but did not react with a lysate of a Δnmb0345 mutant (CBF-), demonstrating specificity of the murine immune responses. CBF protein was produced by all strains of meningococci studied thus far and the protein was present on the surface of MC58 (CBF+) bacteria, but absent on Δnmb0345 mutant (CBF-) bacteria, as judged by FACS reactivity of anti-rCBF sera. Analysis of the NEIS1825 amino acid sequences from 6644 N. meningitidis isolates with defined Alleles in the pubmlst.org/Neisseria database showed that there were 141 ST types represented and there were 136 different allelic loci encoding 49 non-redundant protein sequences. Only 6/6644 (99% amino acid identity. Murine antisera to rCBF in Zw 3-14 micelles + MPLA induced significant serum bactericidal activity (SBA) against homologous Allele 1 and heterologous Allele 18 strains, using both baby rabbit serum complement and human serum complement (h)SBA assays, but did not kill strains expressing heterologous protein encoded by Alelle 2 or 3. Furthermore, variable bactericidal activity was induced by murine antisera against different meningococcal strains in the hSBA assay, which may correlate with variable surface exposure of CBF. Regardless, the attributes of amino acid sequence conservation and protein expression amongst different strains and the ability to induce cross-strain bactericidal antibodies indicates that rCBF could be a potential meningococcal vaccine antigen and merits further testing.

Published

2016

28. The Growing Threat of Gonococcal Blindness

Author

Victoria Dolange, Colin P. Churchward, Myron Christodoulides, and Lori A. S. Snyder

Subjects

gonococcal blindness, antimicrobial resistance, ophthalmia neonatorum, monocaprin, Neisseria gonorrhoeae, Neisseria meningitidis, gonococci, meningococci, Therapeutics. Pharmacology, RM1-950

Abstract

Antibiotic-resistant gonorrhea is now a reality, as well as the consequences of untreatable infections. Gonococcal eye infections result in blindness if not properly treated; they accounted for the vast majority of infections in children in homes for the blind in the pre-antibiotic era. Neisseria gonorrhoeae infects the eyes of infants born to mothers with gonorrhea and can also infect the eyes of adults. Changes in sexual practices may account for the rise in adult gonococcal eye infections, although some cases seem to have occurred with no associated genital infection. As gonorrhea becomes increasingly difficult to treat, the consequences for the treatment of gonococcal blindness must be considered as well. Monocaprin was shown to be effective in rapidly killing N. gonorrhoeae, and is non-irritating in ocular models. Repeated passage in sub-lethal monocaprin induces neither resistance in gonococci nor genomic mutations that are suggestive of resistance. Here, we show that 1 mM monocaprin kills 100% of N. gonorrhoeae in 2 min, and is equally effective against N. meningitidis, a rare cause of ophthalmia neonatorum that is potentially lethal. Monocaprin at 1 mM also completely kills Staphylococcus aureus after 60 min, and 25 mM kills 80% of Pseudomonas aeruginosa after 360 min. Previously, 1 mM monocaprin was shown to eliminate Chlamydia trachomatis in 5 min. Monocaprin is, therefore, a promising active ingredient in the treatment and prophylaxis of keratitis, especially considering the growing threat of gonococcal blindness due to antimicrobial resistance.

Published

2018

29. Nitric oxide is not involved in Neisseria gonorrhoeae-induced cellular damage of human Fallopian tubes in vitro

Author

KATHERINE P GARCÍA, PAULINA S RUBILAR, MACARENA F VARGAS, HUGO CÁRDENAS, MIGUEL A RIOS, PEDRO A ORIHUELA, RENATO H VARGAS, JUAN FUHRER, JOHN E HECKELS, MYRON CHRISTODOULIDES, and LUIS A VELÁSQUEZ

Subjects

cellular damage, fallopian tubes, Neisseria gonorrhoeae, nitric oxide, Biology (General), QH301-705.5

Abstract

In the present study, we investigated whether cellular damage, as demonstrated by lactate dehydrogenase (LDH) release in the human fallopian tube (FT) infected by Neisseria gonorrhoeae (Ngo), correlated with high levels of nitric oxide synthase (NOS) mRNA and enzyme activity. Infection with Ngo induced a significant increase (~35-fold) in mRNA transcripts of the inducible isoform of NOS. Paradoxically, a reduction in NOS enzyme activity was observed in infected cultures, suggesting that gonococcal infection possibly influences translation of iNOS mRNA to the enzyme. In addition, treatment with the NOS inhibitor TRIM did not prevent gonococcal-induced cellular damage. In contrast, the addition of the inhibitor L-NAME induced a 40% reduction in LDH release, which correlated with a ~50% reduction in gonococcal numbers. Moreover, treatment of normal FT explants with an exogenous NO donor, SNAP, did not induce significant cellular damage. Taken together, our data suggest that NO does not contribute to cellular damage during infection of the human FT with Neisseria gonorrhoeae.

Published

2010

30. Apoptosis related genes expressed in cultured Fallopian tube epithelial cells infected in vitro with Neisseria gonorrhoeae

Author

PAZ A REYES, MACARENA F VARGAS, KATHERINE P GARCÍA, PAULINA S RUBILAR, PATRICIA A NAVARRETE, PAMELA M FUENTES, MIGUEL A RÍOS, PEDRO A ORIHUELA, RENATO H VARGAS, VÍCTOR H RUBIO, JOHN HECKELS, MYRON CHRISTODOULIDES, HUGO CÁRDENAS, and LUIS A VELASQUEZ

Subjects

apoptosis, Fallopian tube, Neisseria gonorrhoeae, salpingitis, TNF-alpha, Biology (General), QH301-705.5

Abstract

Background: Infection of the Fallopian tubes (FT) by Neisseria gonorrhoeae (Ngo) can lead to acute salpingitis, an inflammatory condition resulting in damage primarily to the ciliated cells, with loss of ciliary activity and sloughing of the cells from the epithelium. Recently, we have shown that Ngo infection induced apoptosis in FT epithelium cells by a TNF-alpha dependent mechanism that could contribute to the cell and tissue damage observed in gonococcal salpingitis. Aim: To investigate the apoptosis-related genes expressed during apoptosis induction in cultured FT epithelial cells infected in vitro by Ngo. Materials and Methods: In the current study, we used cDNA macroarrays and real time PCR to identify and determine the expression levels of apoptosis related genes during the in vitro gonococci infection of FT epithelial cells. Results: Significant apoptosis was induced following infection with Ngo. Macroarray analysis identified the expression of multiple genes of the TNF receptor family (TNFRSF1B, -4, -6, -10A, -10B and -10D) and the Bcl-2 family (BAK1, BAX, BLK, HRK and MCL-1) without differences between controls and infected cells. This lack of difference was confirmed by RT-PCR of BAX, Bcl-2, TNFRS1A (TNFR-I) and TNFRSF1B (TNFR-II). Conclusion: Several genes related to apoptosis are expressed in primary cultures of epithelial cells of the human Fallopian tube. Infection with Ngo induces apoptosis without changes in the pattern of gene expression of several apoptosis-related genes. Results strongly suggest that Ngo regulates apoptosis in the FT by post-transcriptional mechanisms that need to be further addressed

Published

2007

31. Co-Transcriptomes of Initial Interactions In Vitro between Streptococcus Pneumoniae and Human Pleural Mesothelial Cells.

Author

Claire J Heath, Maria del Mar Cendra, Alastair Watson, Jean-Philippe Auger, Anish Pandey, Paddy Tighe, and Myron Christodoulides

Subjects

Medicine, Science

Abstract

Streptococcus pneumoniae (Spn) is a major causative organism of empyema, an inflammatory condition occurring in the pleural sac. In this study, we used human and Spn cDNA microarrays to characterize the transcriptional responses occurring during initial contact between Spn and a human pleural mesothelial cell line (PMC) in vitro. Using stringent filtering criteria, 42 and 23 Spn genes were up-and down-regulated respectively. In particular, genes encoding factors potentially involved in metabolic processes and Spn adherence to eukaryotic cells were up-regulated e.g. glnQ, glnA, aliA, psaB, lytB and nox. After Spn initial contact, 870 human genes were differentially regulated and the largest numbers of significant gene expression changes were found in canonical pathways for eukaryotic initiation factor 2 signaling (60 genes out of 171), oxidative phosphorylation (32/103), mitochondrial dysfunction (37/164), eIF4 and p70S6K signaling (28/142), mTOR signaling (27/182), NRF2-mediated oxidative stress response (20/177), epithelial adherens junction remodeling (11/66) and ubiquitination (22/254). The cellular response appeared to be directed towards host cell survival and defense. Spn did not activate NF-kB or phosphorylate p38 MAPK or induce cytokine production from PMC. Moreover, Spn infection of TNF-α pre-stimulated PMC inhibited production of IL-6 and IL-8 secretion by >50% (p

Published

2015

32. The Adhesin Complex Protein (ACP) of Neisseria meningitidis Is a New Adhesin with Vaccine Potential

Author

Miao-Chiu Hung, John E. Heckels, and Myron Christodoulides

Subjects

Microbiology, QR1-502

Abstract

ABSTRACT The acp gene encoding the 13-kDa adhesin complex protein (ACP) from Neisseria meningitidis serogroup B strain MC58 was cloned and expressed in Escherichia coli, and the purified recombinant ACP (rACP) was used for immunization studies. Analysis of the ACP amino acid sequences from 13 meningococcal strains, isolated from patients and colonized individuals, and 178 strains in the Bacterial Isolate Genome Sequence (BIGS) database showed the presence of only three distinct sequence types (I, II, and III) with high similarity (>98%). Immunization of mice with type I rACP in detergent micelles and liposomes and in saline solution alone induced high levels of serum bactericidal activity (SBA; titers of 1/512) against the homologous strain MC58 and killed strains of heterologous sequence types II and III with similar SBA titers (1/128 to 1/512). Levels of expression of type I, II, or III ACP by different meningococcal strains were similar. ACP functioned as an adhesin, as demonstrated by reduced adherence of acp knockout (MC58 ΔACP) meningococci to human cells in vitro and the direct surface binding of rACP and by the ability of anti-rACP sera to inhibit adherence of wild-type bacteria. ACP also mediated the invasion of noncapsular meningococci into human epithelial cells, but it was not a particularly impressive invasin, as the internalized bacterial numbers were low. In summary, the newly identified ACP protein is an adhesin that induces cross-strain bactericidal activity and is therefore an attractive target antigen for incorporation into the next generation of serogroup B meningococcal vaccines. IMPORTANCE Infections caused by Neisseria meningitidis serogroup B are still significant causes of mortality and morbidity worldwide, and broadly protective vaccines of defined antigen composition are not yet licensed. Here, we describe the properties of the adhesin complex protein (ACP), which we demonstrate is a newly recognized molecule that is highly conserved and expressed to similar levels in meningococci and facilitates meningococcal interactions with human cells. We also report that a recombinant ACP protein vaccine induces murine antibodies that significantly kill meningococci expressing different ACP. Taken together, these properties demonstrate that ACP merits serious consideration as a component of a broadly protective vaccine against serogroup B meningococci.

Published

2013

33. Group B Streptococcus interactions with human meningeal cells and astrocytes in vitro.

Author

Khalil Alkuwaity, Alexander Taylor, John E Heckels, Kelly S Doran, and Myron Christodoulides

Subjects

Medicine, Science

Abstract

BackgroundStreptococcus agalactiae (Group B Streptococcus, GBS) is a leading cause of life-threatening neonatal meningitis and survivors often suffer permanent neurological damage. How this organism interacts with the meninges and subsequently with astrocytes that constitute the underlying cortical glia limitans superficialis is not known.Methodology/principal findingsIn this paper, we demonstrate dose-dependent adherence of GBS over time to human meningioma cells and fetal astrocytes in vitro, which was not influenced by expression of either β-haemolysin/cytolysin (β-h/c) toxin, different capsule serotypes or by absence of capsule (p>0.05). Internalization of GBS by both cell types was, however, a slow and an infrequent event (only 0.02-0.4% of associated bacteria were internalised by 9 h). Expression of β-h/c toxin did not play a role in invasion (p>0.05), whereas capsule expression lead to a reduction (pConclusions/significanceThis study has described key events in the interactions of GBS with meningeal cells and astrocytes in vitro and a major virulence role for β-h/c toxin. Understanding the mechanisms involved will help to identify potential therapies for improving patient survival and for reducing the incidence and severity of neurological sequelae.

Published

2012

34. Increase in Serotype 6C Pneumococcal Carriage, United Kingdom

Author

Anna S. Tocheva, Johanna M.C. Jefferies, Myron Christodoulides, Saul N. Faust, and Stuart C. Clarke

Subjects

Heptavalent pneumococcal conjugate vaccine, multilocus sequence typing, pneumococcal typing, bacteria, respiratory infections, United Kingdom, Medicine, Infectious and parasitic diseases, RC109-216

Published

2010

35. Recombinant endonuclease III protein from Leishmania infantum associated with Th1-type adjuvants is immunogenic and induces protection against visceral leishmaniasis

Author

Daniela P. Lage, Amanda S. Machado, Camila S. Freitas, Danniele L. Vale, Flávia P. Linhares, Jamille M.O. Cardoso, João A. Oliveira-da-Silva, Fernanda F. Ramos, Isabela A.G. Pereira, Fernanda Ludolf, Grasiele S.V. Tavares, Raquel S. Bandeira, Jamil S. Oliveira, Daniel Menezes-Souza, Mariana C. Duarte, Alexsandro S. Galdino, Myron Christodoulides, Miguel A. Chávez-Fumagalli, Bruno M. Roatt, Vívian T. Martins, and Eduardo A.F. Coelho

Subjects

Immunology, Molecular Biology

Published

2023

36. An in silico reverse vaccinology study of Brachyspira pilosicoli, the causative organism of intestinal spirochaetosis, to identify putative vaccine candidates

Author

Myron Christodoulides, Daysiane de Oliveira, David W. Cleary, Maria Victoria Humbert, Ricardo A. Machado-de-Ávila, and Roberto M. La Ragione

Subjects

Bioengineering, Applied Microbiology and Biotechnology, Biochemistry

Published

2022

37. Efficacy of an Immunotherapy Combining Immunogenic Chimeric Protein Plus Adjuvant and Amphotericin B against Murine Visceral Leishmaniasis

Author

Lage, Danniele L. Vale, Camila S. Freitas, Vívian T. Martins, Gabriel J. L. Moreira, Amanda S. Machado, Fernanda F. Ramos, Isabela A. G. Pereira, Raquel S. Bandeira, Marcelo M. de Jesus, Grasiele S. V. Tavares, Fernanda Ludolf, Miguel A. Chávez-Fumagalli, Alexsandro S. Galdino, Ricardo T. Fujiwara, Lílian L. Bueno, Bruno M. Roatt, Myron Christodoulides, Eduardo A. F. Coelho, and Daniela P.

Subjects

Leishmania, visceral leishmaniasis, immunotherapy, chimera vaccine, T cell response, mouse, monophosphoryl lipid A, amphotericin B

Abstract

Visceral leishmaniasis (VL) in the Americas is a chronic systemic disease caused by infection with Leishmania infantum parasites. The toxicity of antileishmanial drugs, long treatment course and limited efficacy are significant concerns that hamper adequate treatment against the disease. Studies have shown the promise of an immunotherapeutics approach, combining antileishmanial drugs to reduce the parasitism and vaccine immunogens to activate the host immune system. In the current study, we developed an immunotherapy using a recombinant T cell epitope-based chimeric protein, ChimT, previously shown to be protective against Leishmania infantum, with the adjuvant monophosphoryl lipid A (MPLA) and amphotericin B (AmpB) as the antileishmanial drug. BALB/c mice were infected with L. infantum stationary promastigotes and later they received saline or were treated with AmpB, MPLA, ChimT/Amp, ChimT/MPLA or ChimT/MPLA/AmpB. The combination of ChimT/MPLA/AmpB significantly reduced the parasite load in mouse organs (p < 0.05) and induced a Th1-type immune response, which was characterized by higher ratios of anti-ChimT and anti-parasite IgG2a:IgG1 antibodies, increased IFN-γ mRNA and IFN-γ and IL-12 cytokines and accompanied by lower levels of IL-4 and IL-10 cytokines, when compared to other treatments and controls (all p < 0.05). Organ toxicity was also lower with the ChimT/MPLA/AmpB immunotherapy, suggesting that the inclusion of the vaccine and adjuvant ameliorated the toxicity of AmpB to some degree. In addition, the ChimT vaccine alone stimulated in vitro murine macrophages to significantly kill three different internalized species of Leishmania parasites and to produce Th1-type cytokines into the culture supernatants. To conclude, our data suggest that the combination of ChimT/MPLA/AmpB could be considered for further studies as an immunotherapy for L. infantum infection.

Published

2023

38. Skin programming of inflammatory responses to Staphylococcus aureus is compartmentalized according to epidermal keratinocyte differentiation status

Author

Kalum Clayton, Daniel J Holbrook, Andres Vallejo, Gemma Porter, Sofia Sirvent, James Davies, Jenny Pople, Fei Ling Lim, Myron Christodoulides, Marta E Polak, and Michael R Ardern-Jones

Subjects

Dermatology

Abstract

Background: acute cutaneous inflammation causes microbiome alterations as well as ultrastructural changes in epidermis stratification. However, the interactions between keratinocyte proliferation and differentiation status and the skin microbiome have not been fully explored.Objectives: hypothesizing that the skin microbiome contributes to regulation of keratinocyte differentiation and can modify antimicrobial responses, we examined the effect of exposure to commensal (Staphylococcus epidermidis, SE) or pathogenic (Staphylococcus aureus, SA) challenge on epidermal models.Methods: explant biopsies were taken to investigate species-specific antimicrobial effects of host factors. Further investigations were performed in reconstituted epidermal models by bulk transcriptomic analysis alongside secreted protein profiling. Single-cell RNA sequencing analysis was performed to explore the keratinocyte populations responsible for SA inflammation. A dataset of 6391 keratinocytes from control (2044 cells), SE challenge (2028 cells) and SA challenge (2319 cells) was generated from reconstituted epidermal models.Results: bacterial lawns of SA, not SE, were inhibited by human skin explant samples, and microarray analysis of three-dimensional epidermis models showed that host antimicrobial peptide expression was induced by SE but not SA. Protein analysis of bacterial cocultured models showed that SA exposure induced inflammatory mediator expression, indicating keratinocyte activation of other epidermal immune populations. Single-cell DropSeq analysis of unchallenged naive, SE-challenged and SA-challenged epidermis models was undertaken to distinguish cells from basal, spinous and granular layers, and to interrogate them in relation to model exposure. In contrast to SE, SA specifically induced a subpopulation of spinous cells that highly expressed transcripts related to epidermal inflammation and antimicrobial response. Furthermore, SA, but not SE, specifically induced a basal population that highly expressed interleukin-1 alarmins.Conclusions: these findings suggest that SA-associated remodelling of the epidermis is compartmentalized to different keratinocyte populations. Elucidating the mechanisms regulating bacterial sensing-triggered inflammatory responses within tissues will enable further understanding of microbiome dysbiosis and inflammatory skin diseases, such as atopic eczema.

Published

2023

39. Vaccines for Canine Leishmaniasis

Author

Eduardo A. F. Coelho and Myron Christodoulides

Abstract

Visceral leishmaniasis is a zoonotic disease in many countries and dogs are considered the main domestic reservoir of Leishmania parasites, and the presence of infected animals represents a potential risk for human disease. In this chapter, we review the state-of-the-art of canine visceral leishmaniasis (CanL) vaccines, discussing the properties and problems associated with the few currently licensed and discontinued vaccines and looking forward to the development of new, more effective vaccines. Reducing the incidence of CanL through vaccination will improve canine health and welfare and contribute to preventing human VL.

Published

2023

40. Introduction

Author

Myron Christodoulides

Abstract

Neglected Tropical Diseases (NTDs) are caused by a diversity of pathogens including viruses, bacteria, parasites, fungi, and toxins, which affect 2–3 billion people globally who live in the least developed countries (LDC) and low-to-middle income countries (LMIC). The World Health Organization classifies around 24 NTDs that are prevalent mainly in tropical and sub-tropical areas and these conditions impact enormously on personal and population health, with debilitating social and economic consequences to communities and countries. The overall focus of the book is vaccines for NTDs caused by the organisms studied by the VALIDATE (VAccine deveLopment for complex Intracellular neglecteD pAThogEns) network, i.e. Mycobacterium tuberculosis, M. leprae, Leishmania spp. and Burkholderia pseudomallei.

Published

2023

41. ChimLeish, a new recombinant chimeric protein evaluated as a diagnostic and prognostic marker for visceral leishmaniasis and human immunodeficiency virus coinfection

Author

Amanda S. Machado, Ricardo Andrez Machado-de-Ávila, Grasiele S.V. Tavares, Vívian T. Martins, Daniela P. Lage, Camila S. Freitas, Débora V.C. Mendonça, João A. Oliveira-da-Silva, Myron Christodoulides, Gláucia Fernandes Cota, Unaí Tupinambás, Fernanda Ludolf, Thiago A.R. Reis, Nathalia Sernizon Guimarães, Danniele L. Vale, Fernanda F. Ramos, Eduardo A.F. Coelho, Gabriel Paulino Luiz, Daysiane de Oliveira, Nathália C. Galvani, Ana Thereza Chaves, Maria Victoria Humbert, and Bruna B. Fernandes

Subjects

Chagas disease, Recombinant chimera, medicine.medical_specialty, Recombinant Fusion Proteins, Antigens, Protozoan, HIV Infections, Serology, Medical microbiology, Antigen, Diagnosis, medicine, Humans, Leishmania infantum, Visceral leishmaniasis, General Veterinary, biology, Coinfection, Synthetic peptides, HIV, General Medicine, Prognosis, medicine.disease, biology.organism_classification, Virology, Infectious Diseases, Protozoology - Original Paper, Insect Science, biology.protein, Leishmaniasis, Visceral, ELISA, Parasitology, Antibody

Abstract

Visceral leishmaniasis (VL) is a neglected tropical disease of global importance caused by parasites of the genus Leishmania, and coinfection with human immunodeficiency virus (HIV) is common in countries where both diseases are endemic. In particular, widely used immunological tests for VL diagnosis have impaired sensitivity (Se) and specificity (Sp) in VL/HIV coinfected patients and there is also cross-reactivity with other endemic diseases, e.g., Chagas disease, malaria, and tuberculosis. To develop new antigens to improve the diagnosis of VL and VL/HIV coinfection, we predicted eight specific B-cell epitopes of four Leishmania infantum antigens and constructed a recombinant polypeptide chimera antigen called ChimLeish. A serological panel of 195 serum samples was used to compare the diagnostic capabilities of ChimLeish alongside the individual synthetic peptides. ChimLeish reacted with sera from all VL and VL/HIV coinfected patients [Se = 100%; Sp = 100%; area under the curve (AUC) = 1.0]. Peptides showed lower reactivities (Se = 76.8 to 99.2%; Sp = 67.1 to 95.7%; AUC between 0.87 and 0.98) as did a L. infantum antigenic preparation used as an antigen control (Se = 56.8%; Sp = 69.5%: AUC = 0.45). Notably, ChimLeish demonstrated a significant reduction (p < 0.05) of anti-ChimLeish antibodies after treatment and cure of a small number of patients. Although only a limited serological panel was tested, preliminary data suggest that ChimLeish should be evaluated in larger sample studies for the diagnosis of VL and VL/HIV coinfection.

Published

2021

42. The potential utility of liposomes forNeisseriavaccines

Author

Maria Victoria Humbert, Myron Christodoulides, and John E. Heckels

Subjects

Pharmacology, Sexually transmitted disease, biology, business.industry, medicine.medical_treatment, Neisseria meningitidis, Immunology, Meningococcal vaccine, biology.organism_classification, medicine.disease_cause, Virology, Immune system, Antigen, Drug Discovery, medicine, Neisseria gonorrhoeae, Molecular Medicine, Neisseria, business, Adjuvant

Abstract

Introduction . Species of the genus Neisseria are important global pathogens. Neisseria gonorrhoeae (gonococcus) causes the sexually transmitted disease gonorrhoea and Neisseria meningitidis (meningococcus) causes meningitis and sepsis. Liposomes are self-assembled spheres of phospholipid bilayers enclosing a central aqueous space, and they have attracted much interest and use as a delivery vehicle for Neisseria vaccine antigens. Areas covered A brief background on Neisseria infections and the success of licensed meningococcal vaccines, is provided. The absence of a gonococcal vaccine is highlighted. The use of liposomes for delivering Neisseria antigens and adjuvants, for the purposes of generating specific immune responses, is reviewed. The use of other lipid-based systems for antigen and adjuvant delivery, is examined briefly. Expert opinion With renewed interest in developing a gonococcal vaccine, liposomes remain an attractive option for delivering antigens. The discipline of nanotechnology provides additional nanoparticle-based options for gonococcal vaccine development. Future work would be needed to tailor the composition of liposomes and other nanoparticles to the specific vaccine antigen(s), in order to generate optimal anti-gonococcal immune responses. The potential use of liposomes and other nanoparticles to deliver anti-gonococcal compounds to treat infections also should be explored further.

Published

2021

43. Specialty grand challenge frontiers in bacteriology: Pathogenesis, vaccines, and immunity of bacterial infections

Author

Myron Christodoulides

Published

2022

44. Meningitis: Cellular and Molecular Basis

Author

Myron Christodoulides, Myron Christodoulides

Published

2013

45. Immuno-proteomics of sera from gonorrhoea patients identified potential vaccine candidates

Author

Aiste Dijokaite-Guraliuc, Victoria Maria Humbert, Paul Skipp, and Myron Christodoulides

Subjects

General Materials Science

Abstract

Gonorrhea is a sexually transmitted disease caused by Neisseria gonorrhoeae and is one of the leading reportable STDs in adults, with ~87 million cases annually and globally. Gonorrhoea remains a major global public health concern not only because of rising incidence each year, but also because of rising antimicrobial resistance. There is an urgent need for long-term solutions to prevent gonorrhoea such as vaccines, but none currently existand research is focused on identifying potential antigens for inclusion in new vaccines. In our study, we used an immuno-proteomics approach to try and identify potential vaccine candidates. A heterologous N. gonorrhoeae strain P9-17 was grown under iron-limiting conditions and whole cell lysates prepared. These were separated by isoelectric focusing (pH 3-10 range) and fractions were separated by SDS-PAGE. Western blots were prepared and reacted with sera from 20 patients with uncomplicated gonorrhoea and with sera from 5 controls with no history of gonorrhoea. Immuno-reactive bands were excised from the corresponding gels and subjected to mass spectrometry, which provided a profile of gonococcal proteins. After comparing patterns of reactivity, we identified 180 bands in sera from gonorrhoea patients. Using a bio-informatics approach we refined the list to 18 bands of interest and identified 13 novel proteins associated with an increase in immuno-reactivity with gonococci. In summary, we have identified a unique set of gonococcal proteins that have not yet been investigated as potential vaccine antigens and that are the focus of current studies to develop a gonococcal vaccine.

Published

2022

46. Detecting anti–SARS-CoV-2 antibodies in urine samples: A noninvasive and sensitive way to assay COVID-19 immune conversion

Author

Fernanda Ludolf, Fernanda F. Ramos, Flávia F. Bagno, João A. Oliveira-da-Silva, Thiago A. R. Reis, Myron Christodoulides, Paula F. Vassallo, Cecilia G. Ravetti, Vandack Nobre, Flavio G. da Fonseca, and Eduardo A. F. Coelho

Subjects

Multidisciplinary, SARS-CoV-2, COVID-19, Humans, Enzyme-Linked Immunosorbent Assay, Antibodies, Viral, Sensitivity and Specificity

Abstract

Serum-based ELISA (enzyme-linked immunosorbent assay) has been widely used to detect anti–severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) antibodies. However, to date, no study has investigated patient urine as a biological sample to detect SARS-CoV-2 virus-specific antibodies. An in-house urine-based ELISA was developed using recombinant SARS-CoV-2 nucleocapsid protein. The presence of SARS-CoV-2 antibodies in urine was established, with 94% sensitivity and 100% specificity for the detection of anti–SARS-CoV-2 antibodies with the urine-based ELISA and 88% sensitivity and 100% specificity with a paired serum-based ELISA. The urine-based ELISA that detects anti–SARS-CoV-2 antibodies is a noninvasive method with potential application as a facile COVID-19 immunodiagnostic platform, which can be used to report the extent of exposure at the population level and/or to assess the risk of infection at the individual level.

Published

2022

47. Author response for 'Leishmania LiHyC protein is immunogenic and induces protection against visceral leishmaniasis'

Author

null Amanda S. Machado, null Daniela P. Lage, null Danniele L. Vale, null Camila S. Freitas, null Flávia P. Linhares, null Jamille M. O. Cardoso, null João A. Oliveira‐da‐Silva, null Isabela A. G. Pereira, null Fernanda F. Ramos, null Grasiele S. V. Tavares, null Fernanda Ludolf, null Raquel S. Bandeira, null Luiz G. N. Maia, null Daniel Menezes‐Souza, null Mariana C. Duarte, null Miguel A. Chávez‐Fumagalli, null Bruno M. Roatt, null Myron Christodoulides, null Vívian T. Martins, and null Eduardo A. F. Coelho

Published

2022

48. Leishmania LiHyC protein is immunogenic and induces protection against visceral leishmaniasis

Author

Amanda S. Machado, Daniela P. Lage, Danniele L. Vale, Camila S. Freitas, Flávia P. Linhares, Jamille M. O. Cardoso, João A. Oliveira‐da‐Silva, Isabela A. G. Pereira, Fernanda F. Ramos, Grasiele S. V. Tavares, Fernanda Ludolf, Raquel S. Bandeira, Luiz G. N. Maia, Daniel Menezes‐Souza, Mariana C. Duarte, Miguel A. Chávez‐Fumagalli, Bruno M. Roatt, Myron Christodoulides, Vívian T. Martins, and Eduardo Antonio Ferraz Coelho

Subjects

Mice, Inbred BALB C, Immunology, Antigens, Protozoan, Saponins, Interleukin-12, Recombinant Proteins, Interferon-gamma, Mice, Animals, Leishmaniasis, Visceral, Parasitology, Leishmania infantum, Leishmaniasis Vaccines, Micelles

Abstract

Treatment against visceral leishmaniasis (VL) presents problems by the toxicity of drugs, high cost and/or emergence of resistant strains. The diagnosis is hampered by variable sensitivity and/or specificity of tests. In this context, prophylactic vaccination could represent a control measure against disease. In this study, the protective efficacy of Leishmania LiHyC protein was evaluated in a murine model against Leishmania infantum infection. LiHyC was used as recombinant protein (rLiHyC) associated with saponin (rLiHyC/S) or Poloxamer 407-based polymeric micelles (rLiHyC/M) to immunize mice. Animals received also saline, saponin or empty micelles as controls. The immunogenicity was evaluated before and after the challenge, and results showed that vaccination with rLiHyC/S or rLiHyC/M induced the production of high levels of interferon-gamma (IFN-γ), interleukin (IL)-12 and granulocyte-macrophage colony-stimulating factor in cell culture supernatants, as well as higher IFN-γ expression evaluated by RT-qPCR and involvement from CD4

Published

2022

49. NTHi-IAV coinfection of macrophages alters infection outcomes and inflammatory responses

Author

Jodie Ackland, Ashley Heinson, David Cleary, Myron Christodoulides, Tom Wilkinson, and Karl Staples

Published

2022

50. Morphological and cytokine profiles as key parameters to distinguish between Gram-negative and Gram-positive bacterial keratitis

Author

Myron Christodoulides, Mariam Elabiary, Parwez Hossain, Michael Tsatsos, Maria del Mar Cendra, Aris Konstantopoulos, and Universitat Politècnica de Catalunya. Departament d'Enginyeria Agroalimentària i Biotecnologia

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Clinical cohort, medicine.medical_treatment, lcsh:Medicine, Microbiology, Article, Bacterial Infections--microbiology, Keratitis, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Medical research, Enginyeria agroalimentària::Ciències de la terra i de la vida::Microbiologia [Àrees temàtiques de la UPC], Bacterial keratitits, Medicine, lcsh:Science, Gram, Multidisciplinary, business.industry, lcsh:R, Bacterial keratitis, Treatment options, Eye infection, medicine.disease, 030104 developmental biology, Cytokine, Queratitis, 030221 ophthalmology & optometry, Cytokines, lcsh:Q, business

Abstract

Bacterial keratitis (BK) is an ocular disorder associated with poor visual prognosis. Quantification of the associated inflammatory response may provide insight into the pathogenesis of BK and guide treatment options. In this exploratory study, we evaluated 45 BK patients and 20 healthy controls by optical coherence tomography and pro-inflammatory tear cytokine analysis. The aim was to quantify the differential morphological and cytokine inflammatory response between Gram-negative and Gram-positive BK and to determine the diagnostic value of corneal thickness (CT) and infiltrate thickness (IT) in distinguishing Gram−ve BK in a clinical cohort. Greater CT and IT, at clinical presentation, were indicative of Gram−ve infection with values detected of ≥ 950 μm and ≥ 450 μm, respectively. Combination of these CT and IT values had a 100% sensitivity and 83.3% specificity as a diagnostic indicator of Gram−ve infection. Similarly, there were higher levels of IL-1β, IL-6 and IL-8 cytokines were quantified in keratitis caused by Gram-negative bacteria. Among the different tear cytokines analysed, a significant reduction after three days of treatment was detected for pro-inflammatory cytokines IL-1β, IL-2, IL-6, IL-8 and TNF-α, prior to starting with the administration of steroid drops. Overall, this study shows the potential value of serial OCT and tear cytokine measurements in the management of BK.

Published

2020