Your search keyword '"Carmen Fernandez-Becerra"' showing total 101 results

1. Advancing research on parasitic infections: Standardized extracellular vesicle guideline

Author

Carmen Fernandez‐Becerra, Patricia Xander, Martin Olivier, and Ana Claudia Torrecilhas

Subjects

EVs methodology, extracellular vesicles, helminth, host–parasite interaction, infection, protocols, Cytology, QH573-671

Published

2024

2. Proteomics of circulating extracellular vesicles reveals diverse clinical presentations of COVID-19 but fails to identify viral peptides

Author

Melisa Gualdrón-López, Alberto Ayllon-Hermida, Núria Cortes-Serra, Patricia Resa-Infante, Joan Josep Bech-Serra, Iris Aparici-Herraiz, Marc Nicolau-Fernandez, Itziar Erkizia, Lucia Gutierrez-Chamorro, Silvia Marfil, Edwards Pradenas, Carlos Ávila Nieto, Bernat Cucurull, Sergio Montaner-Tarbés, Magdalena Muelas, Ruth Sotil, Ester Ballana, Victor Urrea, Lorenzo Fraile, Maria Montoya, Julia Vergara, Joaquim Segales, Jorge Carrillo, Nuria Izquierdo-Useros, Julià Blanco, Carmen Fernandez-Becerra, Carolina de La Torre, Maria-Jesus Pinazo, Javier Martinez-Picado, and Hernando A. del Portillo

Subjects

COVID-19 patients, SARS-CoV-2, antibody response, extracellular vesicles, immunocapture (CD9), ganglioside-capture (CD169/Siglec-1), Microbiology, QR1-502

Abstract

Extracellular vesicles (EVs) released by virus-infected cells have the potential to encapsulate viral peptides, a characteristic that could facilitate vaccine development. Furthermore, plasma-derived EVs may elucidate pathological changes occurring in distal tissues during viral infections. We hypothesized that molecular characterization of EVs isolated from COVID-19 patients would reveal peptides suitable for vaccine development. Blood samples were collected from three cohorts: severe COVID-19 patients (G1), mild/asymptomatic cases (G2), and SARS-CoV-2-negative healthcare workers (G3). Samples were obtained at two time points: during the initial phase of the pandemic in early 2020 (m0) and eight months later (m8). Clinical data analysis revealed elevated inflammatory markers in G1. Notably, non-vaccinated individuals in G1 exhibited increased levels of neutralizing antibodies at m8, suggesting prolonged exposure to viral antigens. Proteomic profiling of EVs was performed using three distinct methods: immunocapture (targeting CD9), ganglioside-capture (utilizing Siglec-1) and size-exclusion chromatography (SEC). Contrary to our hypothesis, this analysis failed to identify viral peptides. These findings were subsequently validated through Western blot analysis targeting the RBD of the SARS-CoV-2 Spike protein’s and comparative studies using samples from experimentally infected Syrian hamsters. Furthermore, analysis of the EV cargo revealed a diverse molecular profile, including components involved in the regulation of viral replication, systemic inflammation, antigen presentation, and stress responses. These findings underscore the potential significance of EVs in the pathogenesis and progression of COVID-19.

Published

2024

3. Plasmodium vivax spleen-dependent protein 1 and its role in extracellular vesicles-mediated intrasplenic infections

Author

Alberto Ayllon-Hermida, Marc Nicolau-Fernandez, Ane M. Larrinaga, Iris Aparici-Herraiz, Elisabet Tintó-Font, Oriol Llorà-Batlle, Agnes Orban, María Fernanda Yasnot, Mariona Graupera, Manel Esteller, Jean Popovici, Alfred Cortés, Hernando A. del Portillo, and Carmen Fernandez-Becerra

Subjects

Plasmodium vivax, intrasplenic infections, extracellular vesicles (EVs), CRISPR/Ca9, single-cell RNASeq (scRNASeq), spleen fibroblasts, Microbiology, QR1-502

Abstract

Recent studies indicate that human spleen contains over 95% of the total parasite biomass during chronic asymptomatic infections caused by Plasmodium vivax. Previous studies have demonstrated that extracellular vesicles (EVs) secreted from infected reticulocytes facilitate binding to human spleen fibroblasts (hSFs) and identified parasite genes whose expression was dependent on an intact spleen. Here, we characterize the P. vivax spleen-dependent hypothetical gene (PVX_114580). Using CRISPR/Cas9, PVX_114580 was integrated into P. falciparum 3D7 genome and expressed during asexual stages. Immunofluorescence analysis demonstrated that the protein, which we named P. vivax Spleen-Dependent Protein 1 (PvSDP1), was located at the surface of infected red blood cells in the transgenic line and this localization was later confirmed in natural infections. Plasma-derived EVs from P. vivax-infected individuals (PvEVs) significantly increased cytoadherence of 3D7_PvSDP1 transgenic line to hSFs and this binding was inhibited by anti-PvSDP1 antibodies. Single-cell RNAseq of PvEVs-treated hSFs revealed increased expression of adhesion-related genes. These findings demonstrate the importance of parasite spleen-dependent genes and EVs from natural infections in the formation of intrasplenic niches in P. vivax, a major challenge for malaria elimination.

Published

2024

4. Guidelines for the purification and characterization of extracellular vesicles of parasites

Author

Carmen Fernandez‐Becerra, Patrícia Xander, Daniel Alfandari, George Dong, Iris Aparici‐Herraiz, Irit Rosenhek‐Goldian, Mehrdad Shokouhy, Melisa Gualdron‐Lopez, Nicholy Lozano, Nuria Cortes‐Serra, Paula Abou Karam, Paula Meneghetti, Rafael Pedro Madeira, Ziv Porat, Rodrigo Pedro Soares, Adriana Oliveira Costa, Sima Rafati, Anabela‐Cordeiro da Silva, Nuno Santarém, Christopher Fernandez‐Prada, Marcel I. Ramirez, Dolores Bernal, Antonio Marcilla, Vera Lucia Pereira‐Chioccola, Lysangela Ronalte Alves, Hernando Del Portillo, Neta Regev‐Rudzki, Igor Correia deAlmeida, Sergio Schenkman, Martin Olivier, and Ana Claudia Torrecilhas

Subjects

EVs methodology, extracellular vesicles, helminth, host‐parasite interaction, infection, protocols, Cytology, QH573-671

Abstract

Abstract Parasites are responsible for the most neglected tropical diseases, affecting over a billion people worldwide (WHO, 2015) and accounting for billions of cases a year and responsible for several millions of deaths. Research on extracellular vesicles (EVs) has increased in recent years and demonstrated that EVs shed by pathogenic parasites interact with host cells playing an important role in the parasite's survival, such as facilitation of infection, immunomodulation, parasite adaptation to the host environment and the transfer of drug resistance factors. Thus, EVs released by parasites mediate parasite‐parasite and parasite‐host intercellular communication. In addition, they are being explored as biomarkers of asymptomatic infections and disease prognosis after drug treatment. However, most current protocols used for the isolation, size determination, quantification and characterization of molecular cargo of EVs lack greater rigor, standardization, and adequate quality controls to certify the enrichment or purity of the ensuing bioproducts. We are now initiating major guidelines based on the evolution of collective knowledge in recent years. The main points covered in this position paper are methods for the isolation and molecular characterization of EVs obtained from parasite‐infected cell cultures, experimental animals, and patients. The guideline also includes a discussion of suggested protocols and functional assays in host cells

Published

2023

5. Advancing Key Gaps in the Knowledge of Plasmodium vivax Cryptic Infections Using Humanized Mouse Models and Organs-on-Chips

Author

Iris Aparici Herraiz, Hugo R. Caires, Óscar Castillo-Fernández, Núria Sima, Lourdes Méndez-Mora, Ruth M. Risueño, Jetsumon Sattabongkot, Wanlapa Roobsoong, Aurora Hernández-Machado, Carmen Fernandez-Becerra, Cristina C. Barrias, and Hernando A. del Portillo

Subjects

humanized mouse, organs-on-a-chip, Plasmodium vivax, models, Key gaps in the knowledge, Microbiology, QR1-502

Abstract

Plasmodium vivax is the most widely distributed human malaria parasite representing 36.3% of disease burden in the South-East Asia region and the most predominant species in the region of the Americas. Recent estimates indicate that 3.3 billion of people are under risk of infection with circa 7 million clinical cases reported each year. This burden is certainly underestimated as the vast majority of chronic infections are asymptomatic. For centuries, it has been widely accepted that the only source of cryptic parasites is the liver dormant stages known as hypnozoites. However, recent evidence indicates that niches outside the liver, in particular in the spleen and the bone marrow, can represent a major source of cryptic chronic erythrocytic infections. The origin of such chronic infections is highly controversial as many key knowledge gaps remain unanswered. Yet, as parasites in these niches seem to be sheltered from immune response and antimalarial drugs, research on this area should be reinforced if elimination of malaria is to be achieved. Due to ethical and technical considerations, working with the liver, bone marrow and spleen from natural infections is very difficult. Recent advances in the development of humanized mouse models and organs-on-a-chip models, offer novel technological frontiers to study human diseases, vaccine validation and drug discovery. Here, we review current data of these frontier technologies in malaria, highlighting major challenges ahead to study P. vivax cryptic niches, which perpetuate transmission and burden.

Published

2022

6. Cryptic Plasmodium chronic infections: was Maurizio Ascoli right?

Author

Wuelton Monteiro, José Diego Brito-Sousa, Aleix Elizalde-Torrent, Camila Bôtto-Menezes, Gisely Cardoso Melo, Carmen Fernandez-Becerra, Marcus Lacerda, and Hernando A. del Portillo

Subjects

Ascoli‘s method, Cryptic infection, Plasmodium, Parasite recurrence, Spleen, Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Cryptic Plasmodium niches outside the liver possibly represent a major source of hypnozoite-unrelated recrudescences in malaria. Maurizio Ascoli, an Italian physician and scientist, suggested that infection was maintained as a result of the persistence of endoerythrocytic parasites in the circulatory bed of some internal organs, mainly the spleen. This would explain a proportion of the recurrences in patients, regardless of the Plasmodium species. Ascoli proposed a method that included the co-administration of adrenaline, in order to induce splenic contraction, and quinine to clear expelled forms in major vessels. Driven by controversy regarding safety and effectiveness, along with the introduction of new drugs, the Ascoli method was abandoned and mostly forgotten by the malaria research community. To date, however, the existence of cryptic parasites outside the liver is gaining supportive data. This work is a historical retrospective of cryptic malaria infections and the Ascoli method, highlighting key knowledge gaps regarding these possible parasite reservoirs.

Published

2020

7. Plasma-Derived Extracellular Vesicles as Potential Biomarkers in Heart Transplant Patient with Chronic Chagas Disease

Author

Nuria Cortes-Serra, Maria Tays Mendes, Clara Mazagatos, Joan Segui-Barber, Cameron C. Ellis, Cristina Ballart, Ana Garcia-Alvarez, Montserrat Gállego, Joaquim Gascon, Igor C. Almeida, María Jesús Pinazo, and Carmen Fernandez-Becerra

Subjects

Plasma, extracellular vesicles, biomarkers, heart transplantation, Chagas disease, proteomic analysis, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Chagas disease is emerging in countries to which it is not endemic. Biomarkers for earlier therapeutic response assessment in patients with chronic Chagas disease are needed. We profiled plasma-derived extracellular vesicles from a heart transplant patient with chronic Chagas disease and showed the potential of this approach for discovering such biomarkers.

Published

2020

8. Plasma-derived extracellular vesicles from Plasmodium vivax patients signal spleen fibroblasts via NF-kB facilitating parasite cytoadherence

Author

Haruka Toda, Miriam Diaz-Varela, Joan Segui-Barber, Wanlapa Roobsoong, Barbara Baro, Susana Garcia-Silva, Alicia Galiano, Melisa Gualdrón-López, Anne C. G. Almeida, Marcelo A. M. Brito, Gisely Cardoso de Melo, Iris Aparici-Herraiz, Carlos Castro-Cavadía, Wuelton Marcelo Monteiro, Eva Borràs, Eduard Sabidó, Igor C. Almeida, Jakub Chojnacki, Javier Martinez-Picado, Maria Calvo, Pilar Armengol, Jaime Carmona-Fonseca, Maria Fernanda Yasnot, Ricardo Lauzurica, Antonio Marcilla, Hector Peinado, Mary R. Galinski, Marcus V. G. Lacerda, Jetsumon Sattabongkot, Carmen Fernandez-Becerra, and Hernando A. del Portillo

Subjects

Science

Abstract

Extracellular vesicles (EVs) in plasma can affect pathogenesis of parasites, but details remain unclear. Here, Toda et al. characterize plasma-derived EVs from Plasmodium vivax patients and show that PvEVs are preferentially taken up by human spleen fibroblasts, facilitating parasite cytoadherence.

Published

2020

9. Antigen Discovery in Circulating Extracellular Vesicles From Plasmodium vivax Patients

Author

Iris Aparici-Herraiz, Melisa Gualdrón-López, Carlos J. Castro-Cavadía, Jaime Carmona-Fonseca, María Fernanda Yasnot, Carmen Fernandez-Becerra, and Hernando A. del Portillo

Subjects

Plasmodium vivax, extracellular vesicles, antigen discovery, direct immuno-affinity capture, proteomics, Microbiology, QR1-502

Abstract

Plasmodium vivax is the most widely distributed human malaria parasite with 7 million annual clinical cases and 2.5 billion people living under risk of infection. There is an urgent need to discover new antigens for vaccination as only two vaccine candidates are currently in clinical trials. Extracellular vesicles (EVs) are small membrane-bound vesicles involved in intercellular communication and initially described in reticulocytes, the host cell of P. vivax, as a selective disposal mechanism of the transferrin receptor (CD71) in the maturation of reticulocytes to erythrocytes. We have recently reported the proteomics identification of P. vivax proteins associated to circulating EVs in P. vivax patients using size exclusion chromatography followed by mass spectrometry (MS). Parasite proteins were detected in only two out of ten patients. To increase the MS signal, we have implemented the direct immuno-affinity capture (DIC) technique to enrich in EVs derived from CD71-expressing cells. Remarkably, we identified parasite proteins in all patients totaling 48 proteins and including several previously identified P. vivax vaccine candidate antigens (MSP1, MSP3, MSP7, MSP9, Serine-repeat antigen 1, and HSP70) as well as membrane, cytosolic and exported proteins. Notably, a member of the Plasmodium helical interspersed sub-telomeric (PHIST-c) family and a member of the Plasmodium exported proteins, were detected in five out of six analyzed patients. Humoral immune response analysis using sera from vivax patients confirmed the antigenicity of the PHIST-c protein. Collectively, we showed that enrichment of EVs by CD71-DIC from plasma of patients, allows a robust identification of P. vivax immunogenic proteins. This study represents a significant advance in identifying new antigens for vaccination against this human malaria parasite.

Published

2022

10. Extracellular Vesicles in Trypanosoma cruzi Infection: Immunomodulatory Effects and Future Perspectives as Potential Control Tools against Chagas Disease

Author

Nuria Cortes-Serra, Melisa Gualdron-Lopez, Maria-Jesus Pinazo, Ana Claudia Torrecilhas, and Carmen Fernandez-Becerra

Subjects

Immunologic diseases. Allergy, RC581-607

Abstract

Chagas disease, caused by the protozoa parasite Trypanosoma cruzi, is a neglected tropical disease and a major public health problem affecting more than 6 million people worldwide. Many challenges remain in the quest to control Chagas disease: the diagnosis presents several limitations and the two available treatments cause several side effects, presenting limited efficacy during the chronic phase of the disease. In addition, there are no preventive vaccines or biomarkers of therapeutic response or disease outcome. Trypomastigote form and T. cruzi-infected cells release extracellular vesicles (EVs), which are involved in cell-to-cell communication and can modulate the host immune response. Importantly, EVs have been described as promising tools for the development of new therapeutic strategies, such as vaccines, and for the discovery of new biomarkers. Here, we review and discuss the role of EVs secreted during T. cruzi infection and their immunomodulatory properties. Finally, we briefly describe their potential for biomarker discovery and future perspectives as vaccine development tools for Chagas Disease.

Published

2022

11. Evaluation of splenic accumulation and colocalization of immature reticulocytes and Plasmodium vivax in asymptomatic malaria: A prospective human splenectomy study.

Author

Steven Kho, Labibah Qotrunnada, Leo Leonardo, Benediktus Andries, Putu A I Wardani, Aurelie Fricot, Benoit Henry, David Hardy, Nur I Margyaningsih, Dwi Apriyanti, Agatha M Puspitasari, Pak Prayoga, Leily Trianty, Enny Kenangalem, Fabrice Chretien, Valentine Brousse, Innocent Safeukui, Hernando A Del Portillo, Carmen Fernandez-Becerra, Elamaran Meibalan, Matthias Marti, Ric N Price, Tonia Woodberry, Papa A Ndour, Bruce M Russell, Tsin W Yeo, Gabriela Minigo, Rintis Noviyanti, Jeanne R Poespoprodjo, Nurjati C Siregar, Pierre A Buffet, and Nicholas M Anstey

Subjects

Medicine

Abstract

BackgroundA very large biomass of intact asexual-stage malaria parasites accumulates in the spleen of asymptomatic human individuals infected with Plasmodium vivax. The mechanisms underlying this intense tropism are not clear. We hypothesised that immature reticulocytes, in which P. vivax develops, may display high densities in the spleen, thereby providing a niche for parasite survival.Methods and findingsWe examined spleen tissue in 22 mostly untreated individuals naturally exposed to P. vivax and Plasmodium falciparum undergoing splenectomy for any clinical indication in malaria-endemic Papua, Indonesia (2015 to 2017). Infection, parasite and immature reticulocyte density, and splenic distribution were analysed by optical microscopy, flow cytometry, and molecular assays. Nine non-endemic control spleens from individuals undergoing spleno-pancreatectomy in France (2017 to 2020) were also examined for reticulocyte densities. There were no exclusion criteria or sample size considerations in both patient cohorts for this demanding approach. In Indonesia, 95.5% (21/22) of splenectomy patients had asymptomatic splenic Plasmodium infection (7 P. vivax, 13 P. falciparum, and 1 mixed infection). Significant splenic accumulation of immature CD71 intermediate- and high-expressing reticulocytes was seen, with concentrations 11 times greater than in peripheral blood. Accordingly, in France, reticulocyte concentrations in the splenic effluent were higher than in peripheral blood. Greater rigidity of reticulocytes in splenic than in peripheral blood, and their higher densities in splenic cords both suggest a mechanical retention process. Asexual-stage P. vivax-infected erythrocytes of all developmental stages accumulated in the spleen, with non-phagocytosed parasite densities 3,590 times (IQR: 2,600 to 4,130) higher than in circulating blood, and median total splenic parasite loads 81 (IQR: 14 to 205) times greater, accounting for 98.7% (IQR: 95.1% to 98.9%) of the estimated total-body P. vivax biomass. More reticulocytes were in contact with sinus lumen endothelial cells in P. vivax- than in P. falciparum-infected spleens. Histological analyses revealed 96% of P. vivax rings/trophozoites and 46% of schizonts colocalised with 92% of immature reticulocytes in the cords and sinus lumens of the red pulp. Larger splenic cohort studies and similar investigations in untreated symptomatic malaria are warranted.ConclusionsImmature CD71+ reticulocytes and splenic P. vivax-infected erythrocytes of all asexual stages accumulate in the same splenic compartments, suggesting the existence of a cryptic endosplenic lifecycle in chronic P. vivax infection. Findings provide insight into P. vivax-specific adaptions that have evolved to maximise survival and replication in the spleen.

Published

2021

12. Multiparameter Flow Cytometry Analysis of the Human Spleen Applied to Studies of Plasma-Derived EVs From Plasmodium vivax Patients

Author

Melisa Gualdrón-López, Míriam Díaz-Varela, Haruka Toda, Iris Aparici-Herraiz, Laura Pedró-Cos, Ricardo Lauzurica, Marcus V. G. Lacerda, Marco Antonio Fernández-Sanmartín, Carmen Fernandez-Becerra, and Hernando A. del Portillo

Subjects

Plasmodium vivax, human spleen, extracellular vesicles, multiparameter flow cytometry, interaction, Microbiology, QR1-502

Abstract

The spleen is a secondary lymphoid organ with multiple functions including the removal of senescent red blood cells and the coordination of immune responses against blood-borne pathogens, such as malaria parasites. Despite the major role of the spleen, the study of its function in humans is limited by ethical implications to access human tissues. Here, we employed multiparameter flow cytometry combined with cell purification techniques to determine human spleen cell populations from transplantation donors. Spleen immuno-phenotyping showed that CD45+ cells included B (30%), CD4+ T (16%), CD8+ T (10%), NK (6%) and NKT (2%) lymphocytes. Myeloid cells comprised neutrophils (16%), monocytes (2%) and DCs (0.3%). Erythrocytes represented 70%, reticulocytes 0.7% and hematopoietic stem cells 0.02%. Extracellular vesicles (EVs) are membrane-bound nanoparticles involved in intercellular communication and secreted by almost all cell types. EVs play several roles in malaria that range from modulation of immune responses to vascular alterations. To investigate interactions of plasma-derived EVs from Plasmodium vivax infected patients (PvEVs) with human spleen cells, we used size-exclusion chromatography (SEC) to separate EVs from the bulk of soluble plasma proteins and stained isolated EVs with fluorescent lipophilic dyes. The integrated cellular analysis of the human spleen and the methodology employed here allowed in vitro interaction studies of human spleen cells and EVs that showed an increased proportion of T cells (CD4+ 3 fold and CD8+ 4 fold), monocytes (1.51 fold), B cells (2.3 fold) and erythrocytes (3 fold) interacting with PvEVs as compared to plasma-derived EVs from healthy volunteers (hEVs). Future functional studies of these interactions can contribute to unveil pathophysiological processes involving the spleen in vivax malaria.

Published

2021

13. Antibody Profile Comparison against MSP1 Antigens of Multiple Plasmodium Species in Human Serum Samples from Two Different Brazilian Populations Using a Multiplex Serological Assay

Author

Eliana Ferreira Monteiro, Carmen Fernandez-Becerra, Izilda Curado, Gerhard Wunderlich, Meire Ioshie Hiyane, and Karin Kirchgatter

Subjects

malaria, Plasmodium malariae, MSP1, serology, Brazil, multiplex bead assay, Medicine

Abstract

Plasmodium malariae has a wide geographic distribution, but mainly at very low parasitemias and in co-infections, leading to an underestimated prevalence of this species. Studies for the detection of antibodies against Plasmodium recombinant proteins are increasingly used to map geographical distributions, seroprevalence and transmission intensities of malaria infection. However, no seroepidemiological survey using recombinant P. malariae proteins has been conducted in Brazil. This work evaluated the antibody response in serum samples of individuals from endemic regions of Brazil (the Amazon region and Atlantic Forest) against five recombinant proteins of P. malariae merozoite surface protein 1 (MSP1), and the MSP1 C-terminal portions of P. vivax and P. falciparum, in a multiplex assay. The positivity was 69.5% of samples recognizing at least one MSP1 recombinant protein. The mean of the Reactivity Index for the C-terminal portion of the P. falciparum was significantly higher compared to the other recombinant proteins, followed by the C-terminal of P. vivax and the N-terminal of P. malariae. Among the recombinant P. malariae proteins, the N-terminal of P. malariae showed the highest Reactivity Index alone. This study validates the use of the multiplex assay to measure naturally acquired IgG antibodies against Plasmodium MSP1 proteins and demonstrate that these proteins are important tools for seroepidemiological surveys and could be used in malaria surveillance.

Published

2021

14. Naturally Acquired Humoral Immunity against Malaria Parasites in Non-Human Primates from the Brazilian Amazon, Cerrado and Atlantic Forest

Author

Eliana Ferreira Monteiro, Carmen Fernandez-Becerra, Maisa da Silva Araujo, Mariluce Rezende Messias, Luiz Shozo Ozaki, Ana Maria Ribeiro de Castro Duarte, Marina Galvão Bueno, Jose Luiz Catao-Dias, Carolina Romeiro Fernandes Chagas, Bruno da Silva Mathias, Mayra Gomes dos Santos, Stéfanie Vanessa Santos, Marcia Moreira Holcman, Julio Cesar de Souza, and Karin Kirchgatter

Subjects

malaria, Plasmodium malariae, MSP1, non-human primates, serology, Brazil, Medicine

Abstract

Non-human primates (NHPs) have been shown to be infected by parasites of the genus Plasmodium, the etiological agent of malaria in humans, creating potential risks of zoonotic transmission. Plasmodium brasilianum, a parasite species similar to P. malariae of humans, have been described in NHPs from Central and South America, including Brazil. The merozoite surface protein 1 (MSP1), besides being a malaria vaccine candidate, is highly immunogenic. Due to such properties, we tested this protein for the diagnosis of parasite infection. We used recombinant proteins of P. malariae MSP1, as well as of P. falciparum and P. vivax, for the detection of antibodies anti-MSP1 of these parasite species, in the sera of NHPs collected in different regions of Brazil. About 40% of the NHP sera were confirmed as reactive to the proteins of one or more parasite species. A relatively higher number of reactive sera was found in animals from the Atlantic Forest than those from the Amazon region, possibly reflecting the former more intense parasite circulation among NHPs due to their proximity to humans at a higher populational density. The presence of Plasmodium positive NHPs in the surveyed areas, being therefore potential parasite reservoirs, needs to be considered in any malaria surveillance program.

Published

2020

15. Characterization of Plasmodium vivax Proteins in Plasma-Derived Exosomes From Malaria-Infected Liver-Chimeric Humanized Mice

Author

Melisa Gualdrón-López, Erika L. Flannery, Niwat Kangwanrangsan, Vorada Chuenchob, Dietmar Fernandez-Orth, Joan Segui-Barber, Felix Royo, Juan M. Falcón-Pérez, Carmen Fernandez-Becerra, Marcus V. G. Lacerda, Stefan H. I. Kappe, Jetsumon Sattabongkot, Juan R. Gonzalez, Sebastian A. Mikolajczak, and Hernando A. del Portillo

Subjects

Plasmodium vivax, hypnozoite, exosome, proteomics, biomarker, humanized mice, Microbiology, QR1-502

Abstract

Exosomes are extracellular vesicles of endocytic origin containing molecular signatures implying the cell of origin; thus, they offer a unique opportunity to discover biomarkers of disease. Plasmodium vivax, responsible for more than half of all malaria cases outside Africa, is a major obstacle in the goal of malaria elimination due to the presence of dormant liver stages (hypnozoites), which after the initial infection may reactivate to cause disease. Hypnozoite infection is asymptomatic and there are currently no diagnostic tools to detect their presence. The human liver-chimeric (FRG huHep) mouse is a robust P. vivax infection model for exo-erythrocytic development of liver stages, including hypnozoites. We studied the proteome of plasma-derived exosomes isolated from P. vivax infected FRG huHep mice with the objective of identifying liver-stage expressed parasite proteins indicative of infection. Proteomic analysis of these exosomes showed the presence of 290 and 234 proteins from mouse and human origin, respectively, including canonical exosomal markers. Human proteins include proteins previously detected in liver-derived exosomes, highlighting the potential of this chimeric mouse model to study plasma exosomes derived unequivocally from human hepatocytes. Noticeably, we identified 17 parasite proteins including enzymes, surface proteins, components of the endocytic pathway and translation machinery, as well as uncharacterized proteins. Western blot analysis validated the presence of human arginase-I and an uncharacterized P. vivax protein in plasma-derived exosomes. This study represents a proof-of-principle that plasma-derived exosomes from P. vivax infected FRG-huHep mice contain human hepatocyte and P. vivax proteins with the potential to unveil biological features of liver infection and identify biomarkers of hypnozoite infection.

Published

2018

16. Size-exclusion chromatography as a stand-alone methodology identifies novel markers in mass spectrometry analyses of plasma-derived vesicles from healthy individuals

Author

Armando de Menezes-Neto, María José Fidalgo Sáez, Inés Lozano-Ramos, Joan Segui-Barber, Lorena Martin-Jaular, Josep M. Estanyol Ullate, Carmen Fernandez-Becerra, Francesc E. Borrás, and Hernando A. del Portillo

Subjects

exosomes, low infrastructure settings, CD5L, LGALS3BP, comparative analysis, plasma-derived exosomes, mass spectrometry, Cytology, QH573-671

Abstract

Plasma-derived vesicles hold a promising potential for use in biomedical applications. Two major challenges, however, hinder their implementation into translational tools: (a) the incomplete characterization of the protein composition of plasma-derived vesicles, in the size range of exosomes, as mass spectrometric analysis of plasma sub-components is recognizably troublesome and (b) the limited reach of vesicle-based studies in settings where the infrastructural demand of ultracentrifugation, the most widely used isolation/purification methodology, is not available. In this study, we have addressed both challenges by carrying-out mass spectrometry (MS) analyses of plasma-derived vesicles, in the size range of exosomes, from healthy donors obtained by 2 alternative methodologies: size-exclusion chromatography (SEC) on sepharose columns and Exo-Spin™. No exosome markers, as opposed to the most abundant plasma proteins, were detected by Exo-Spin™. In contrast, exosomal markers were present in the early fractions of SEC where the most abundant plasma proteins have been largely excluded. Noticeably, after a cross-comparative analysis of all published studies using MS to characterize plasma-derived exosomes from healthy individuals, we also observed a paucity of “classical exosome markers.” Independent of the isolation method, however, we consistently identified 2 proteins, CD5 antigen-like (CD5L) and galectin-3-binding protein (LGALS3BP), whose presence was validated by a bead-exosome FACS assay. Altogether, our results support the use of SEC as a stand-alone methodology to obtain preparations of extracellular vesicles, in the size range of exosomes, from plasma and suggest the use of CD5L and LGALS3BP as more suitable markers of plasma-derived vesicles in MS.

Published

2015

17. Extracellular vesicles in parasitic diseases

Author

Antonio Marcilla, Lorena Martin-Jaular, Maria Trelis, Armando de Menezes-Neto, Antonio Osuna, Dolores Bernal, Carmen Fernandez-Becerra, Igor C. Almeida, and Hernando A. del Portillo

Subjects

extracellular vesicles, microvesicles, exosomes, parasites, protozoa, helminths, Cytology, QH573-671

Abstract

Parasitic diseases affect billions of people and are considered a major public health issue. Close to 400 species are estimated to parasitize humans, of which around 90 are responsible for great clinical burden and mortality rates. Unfortunately, they are largely neglected as they are mainly endemic to poor regions. Of relevance to this review, there is accumulating evidence of the release of extracellular vesicles (EVs) in parasitic diseases, acting both in parasite–parasite inter-communication as well as in parasite–host interactions. EVs participate in the dissemination of the pathogen and play a role in the regulation of the host immune systems. Production of EVs from parasites or parasitized cells has been described for a number of parasitic infections. In this review, we provide the most relevant findings of the involvement of EVs in intercellular communication, modulation of immune responses, involvement in pathology, and their potential as new diagnostic tools and therapeutic agents in some of the major human parasitic pathogens.

Published

2014

18. Spleen-dependent immune protection elicited by CpG adjuvanted reticulocyte-derived exosomes from malaria infection is associated with T cells population changes.

Author

Lorena Martin-Jaular, Armando de Menezes-Neto, Marta Monguió-Tortajada, Aleix Elizalde-Torrent, Miriam Diaz-Varela, Carmen Fernandez-Becerra, Francesc E. Borras, Maria Montoya, and Hernando A Del Portillo

Subjects

Malaria, Spleen, Vaccine, effector memory T cells, reticulocyte-derived exosomes, Biology (General), QH301-705.5

Abstract

Reticulocyte-derived exosomes (rex) are 30-100 nm membrane vesicles of endocytic origin released during the maturation of reticulocytes to erythrocytes upon fusion of multivesicular bodies with the plasma membrane. Combination of CpG-ODN with rex obtained from BALB/c mice infected with the reticulocyte-prone non-lethal P. yoelii 17X malaria strain (rexPy), had been shown to induce survival and long lasting protection. Here, we show that splenectomized mice are not protected upon rexPy+CpG inmunizations and that protection is restored upon passive transfer of splenocytes obtained from animals immunized with rexPy+CpG. Notably, rexPy immunization of mice induced PD1- memory T cell expansion with effector phenotype. Proteomics analysis of rexPy confirmed their reticulocyte origin and demonstrated the presence of parasite antigens. Our studies thus prove, for what we believe is the first time, that rex from reticulocyte-prone malarial infections are able to induce splenic long-lasting memory responses. To try extrapolating these data to human infections, in vitro experiments with spleen cells of human transplantation donors were performed. Plasma-derived exosomes from vivax malaria patients (exPv) were actively uptaken by human splenocytes and stimulated spleen cells leading to expansion of T-cells.

Published

2016

19. On cytoadhesion of Plasmodium vivax: raison d'être?

Author

Fabio TM Costa, Stefanie CP Lopes, Mireia Ferrer, Juliana A Leite, Lorena Martin-Jaular, Maria Bernabeu, Paulo A Nogueira, Maria Paula G Mourão, Carmen Fernandez-Becerra, Marcus VG Lacerda, and Hernando del Portillo

Subjects

Plasmodium vivax, malaria, cytoadherence, severe disease, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

It is generally accepted that Plasmodium vivax, the most widely distributed human malaria parasite, causes mild disease and that this species does not sequester in the deep capillaries of internal organs. Recent evidence, however, has demonstrated that there is severe disease, sometimes resulting in death, exclusively associated with P. vivax and that P. vivax-infected reticulocytes are able to cytoadhere in vitro to different endothelial cells and placental cryosections. Here, we review the scarce and preliminary data on cytoadherence in P. vivax, reinforcing the importance of this phenomenon in this species and highlighting the avenues that it opens for our understanding of the pathology of this neglected human malaria parasite.

Published

2011

20. Red blood cells derived from peripheral blood and bone marrow CD34+ human haematopoietic stem cells are permissive to Plasmodium parasites infection

Author

Carmen Fernandez-Becerra, Joel Lelievre, Mireia Ferrer, Nuria Anton, Richard Thomson, Cristina Peligero, Maria Jesus Almela, Marcus VG Lacerda, Esperanza Herreros, and Hernando A del Portillo

Subjects

CD34+ human haematopoietic stem cells, NIH 3T3 cells, Plasmodium, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

The production of fully functional human red cells in vitro from haematopoietic stem cells (hHSCs) has been successfully achieved. Recently, the use of hHSCs from cord blood represented a major improvement to develop the continuous culture system for Plasmodium vivax. Here, we demonstrated that CD34+hHSCs from peripheral blood and bone marrow can be expanded and differentiated to reticulocytes using a novel stromal cell. Moreover, these reticulocytes and mature red blood cells express surface markers for entrance of malaria parasites contain adult haemoglobin and are also permissive to invasion by P. vivax and Plasmodium falciparum parasites.

Published

2013

21. Expression levels of pvcrt-o and pvmdr-1 are associated with chloroquine resistance and severe Plasmodium vivax malaria in patients of the Brazilian Amazon.

Author

Gisely C Melo, Wuelton M Monteiro, André M Siqueira, Siuhelem R Silva, Belisa M L Magalhães, Aline C C Alencar, Andrea Kuehn, Hernando A del Portillo, Carmen Fernandez-Becerra, and Marcus V G Lacerda

Subjects

Medicine, Science

Abstract

Molecular markers associated with the increase of chloroquine resistance and disease severity in Plasmodium vivax are needed. The objective of this study was to evaluate the expression levels of pvcrt-o and pvmdr-1 genes in a group of patients presenting CQRPv and patients who developed severe complications triggered exclusively by P. vivax infection. Two different sets of patients were included to this comprehensive study performed in the Brazilian Amazon: 1) patients with clinically characterized chloroquine-resistant P. vivax compared with patients with susceptible parasites from in vivo studies and 2) patients with severe vivax malaria compared with patients without severity. Quantitative real-time PCR was performed to compare the transcript levels of two main transporters genes, P. vivax chloroquine resistance transporter (pvcrt-o) and the P. vivax multidrug resistance transporter (pvmdr-1). Twelve chloroquine resistant cases and other 15 isolates from susceptible cases were included in the first set of patients. For the second set, seven patients with P. vivax-attributed severe and 10 mild manifestations were included. Parasites from patients with chloroquine resistance presented up to 6.1 (95% CI: 3.8-14.3) and 2.4 (95% CI: 0.53-9.1) fold increase in pvcrt-o and pvmdr-1 expression levels, respectively, compared to the susceptible group. Parasites from the severe vivax group had a 2.9 (95% CI: 1.1-8.3) and 4.9 (95% CI: 2.3-18.8) fold increase in pvcrt-o and pvmdr-1 expression levels as compared to the control group with mild disease. These findings suggest that chloroquine resistance and clinical severity in P. vivax infections are strongly associated with increased expression levels of the pvcrt-o and pvmdr-1 genes likely involved in chloroquine resistance.

Published

2014

22. Spleen rupture in a case of untreated Plasmodium vivax infection.

Author

André Machado Siqueira, Belisa Maria Lopes Magalhães, Gisely Cardoso Melo, Mireia Ferrer, Paola Castillo, Lorena Martin-Jaular, Carmen Fernandez-Becerra, Jaume Ordi, Antonio Martinez, Marcus Vinícius Guimarães Lacerda, and Hernando A del Portillo

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Published

2012

23. Isolation and molecular characterization of circulating extracellular vesicles from blood of chronic Chagas disease patients

Author

Rafael P. Madeira, Paula Meneghetti, Lucas A. de Barros, Paula de Cassia Buck, Charles Mady, Barbara M. Ianni, Carmen Fernandez‐Becerra, and Ana C. Torrecilhas

Subjects

Extracellular Vesicles, Trypanosoma cruzi, Anticoagulants, Humans, Chagas Disease, Cell Biology, General Medicine, Biomarkers

Abstract

Extracellular vesicles (EVs) are lipid bilayer envelopes that encase several types of molecules. Their contents mostly reflect their cell origin and possible targets at other locations in the organism and can be modified in pathological conditions to interfere with intercellular communication, thus promoting disease establishment and development. These characteristics, in addition to their presence in virtually all body fluids, make such vesicles ideal for biomarker discovery in human diseases. Here, we describe the effect of different anticoagulants and the combination of two purification methods for isolation and characterization of circulating EVs from blood of chronic Chagas disease (CCD) patients. We illustrated this procedure by studying a population of patients with Chagas disease at the indeterminate chronic stage, in which the Trypanosoma cruzi is very scarce in circulation. EVs were harvested from blood collected without or with different anticoagulants. Protein and nanoparticle tracking analysis was used to measure EVs size and concentration. The EVs were purified by ultracentrifugation, followed by size-exclusion chromatography and characterized by chemiluminescent enzyme-linked immunosorbent assay and dot blot using antibodies that recognized parasite-derived EVs, such as hyperimmune sera, polyclonal and monoclonal antibodies against trans-sialidase and mucins. In parallel, antibodies against classical human EV markers CD9, CD63, CD81, and CD82, were also analyzed. The results showed that anticoagulants did not interfere with the analyzed parameters and circulating EVs from CCD patients contain T. cruzi antigens and classical human exosomal markers. Overall, our protocol is adequate for the isolation of the total circulating EVs and can serve as an important basis for further studies on biomarker discovery in Chagas' disease.

Published

2022

24. Characterization and Proteomic Analysis of Plasma EVs Recovered from Healthy and Diseased Dogs with Canine Leishmaniosis

Author

Sofia Esteves, Clara Lima, Inês Costa, Hugo Osório, Carmen Fernandez-Becerra, Nuno Santarém, and Anabela Cordeiro-da-Silva

Subjects

Inorganic Chemistry, canine leishmaniosis, Leishmania infantum, extracellular vesicles, proteomics, exosomes, leishmaniasis, Leishmania, dogs, parasites, Organic Chemistry, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

Dogs are highly valued companions and work animals that are susceptible to many life-threatening conditions such as canine leishmaniosis (CanL). Plasma-derived extracellular vesicles (EVs), exploited extensively in biomarker discovery, constitute a mostly untapped resource in veterinary sciences. Thus, the definition of proteins associated with plasma EVs recovered from healthy and diseased dogs with a relevant pathogen would be important for biomarker development. For this, we recovered, using size-exclusion chromatography (SEC), EVs from 19 healthy and 20 CanL dogs’ plasma and performed proteomic analysis by LC-MS/MS to define their core proteomic composition and search for CanL-associated alterations. EVs-specific markers were identified in all preparations and also non-EVs proteins. Some EVs markers such as CD82 were specific to the healthy animals, while others, such as the Integrin beta 3 were identified in most samples. The EVs-enriched preparations allowed the identification of 529 canine proteins that were identified in both groups, while 465 and 154 were only identified in healthy or CanL samples, respectively. A GO enrichment analysis revealed few CanL-specific terms. Leishmania spp. protein identifications were also found, although with only one unique peptide. Ultimately, CanL-associated proteins of interest were identified and a core proteome was revealed that will be available for intra- and inter-species comparisons.

Published

2023

25. Proteomic profile of plasma-derived extracellular vesicles from Colombian pregnant women with Plasmodium-soil transmitted helminths coinfection

Author

Jahnnyer A. Martínez-Moreno, Alberto Ayllon-Hermida, Berta Barnadas-Carceller, Carmen Fernández-Becerra, Hernando A. del Portillo, Jaime Carmona-Fonseca, and Eliana M. Arango-Flórez

Subjects

extracellular vesicles, proteomics analysis, pregnant women, Plasmodium, soil-transmitted helminths, Colombia, Infectious and parasitic diseases, RC109-216

Abstract

IntroductionExtracellular vesicles (EVs) are lipid bilayer membrane-enclosed nanoparticles, secreted by all cell types. Information regarding EVs and their molecular cargo in gestational parasitic infections, particularly those caused by Plasmodium and soil-transmitted helminths (STH), remains largely unexplored. This study aimed to perform isolation and molecular characterization of plasma-derived EVs from Colombian pregnant women and compare quantity, size, concentration and protein cargo of those EVs according to the infectious status, to investigate if parasite-derived proteins could be detected as biological cargo of circulating EVs of pregnant women infected with Plasmodium, STH and co-infections.Materials and methodsA descriptive study with 5 groups was performed: 1) Pregnant women with Plasmodium infection (n=10). 2) Pregnant women with STH infection (n=14). 3) Pregnant women with coinfection Plasmodium and STH (n=14). 4) Pregnant women without infection with Plasmodium nor STH (n=10). 5) Non-pregnant women without infection with Plasmodium nor STH (n=6). Plasma-derived EVs were isolated by size exclusion chromatography (SEC) and fractions containing EVs identified by a bead-based flow cytometric assay for CD9; the size and concentration of EVs were quantified by nanoparticle tracking analysis, and proteins associated with EVs were identified by liquid chromatography-mass spectrometry in a pool of samples per study group.ResultsThere were no statistical differences in expression of the CD9 EVs marker among study groups. The size range of EVs was more variable in the three infected groups (100-700 nm) compared to the size range of the uninfected groups (50-300 nm). A total of 823 quantifiable proteins with measurable abundance values were identified within the five study groups. Of the total quantifiable proteins, 758 were identified as human, six proteins pertained to P. vivax, fifteen to Trichiuris trichiura, and one to hookworms. Data are available via ProteomeXchange with identifier PXD051270.DiscussionThis is the first study that identifies proteins from Plasmodium and STH in EVs isolated from pregnant women. The identification of such proteins from neglected tropical parasites accounting for a major burden of disease worldwide, open the possibilities of studying their physiological role during infections as well as exploring them for antigen discovery, vaccine development and biomarker discovery.

Published

2024

26. Extracellular Vesicles in

Author

Nuria, Cortes-Serra, Melisa, Gualdron-Lopez, Maria-Jesus, Pinazo, Ana Claudia, Torrecilhas, and Carmen, Fernandez-Becerra

Subjects

Extracellular Vesicles, Trypanosoma cruzi, Immunity, Humans, Chagas Disease, Biomarkers

Abstract

Chagas disease, caused by the protozoa parasite

Published

2022

27. Morphological and Transcriptional Changes in Human Bone Marrow During Natural Plasmodium vivax Malaria Infections

Author

Lauro Sumoy, Bàrbara Baro, Alberto Ayllon-Hermida, Carmen Fernandez-Becerra, Marcelo A M Brito, Wuelton Marcelo Monteiro, Izabella Picinin Safe, Erich Vinicius De Paula, Katrien Deroost, Erick F. G. Figueiredo, Maria P. Armengol, Marcus V. G. Lacerda, Hernando A. del Portillo, Anne Cristine Gomes de Almeida, Allyson Guimarães Costa, Bidossessi Wilfried Hounkpe, and Tainá Raiol

Subjects

0301 basic medicine, Ineffective erythropoiesis, 030231 tropical medicine, Plasmodium vivax, Cell, Malària, Transferrin receptor, Biology, medicine.disease_cause, Transcriptome, natural infections, 03 medical and health sciences, 0302 clinical medicine, Bone Marrow, medicine, Malaria, Vivax, Immunology and Allergy, Animals, Humans, Bone marrow, Erythropoiesis, Gene, ineffective erythropoiesis, RNA, Anemia, RNA sequencing, biology.organism_classification, Malaria, 030104 developmental biology, Infectious Diseases, medicine.anatomical_structure, Medul·la òssia, Immunology, bone marrow aspirates

Abstract

- Label: BACKGROUND NlmCategory: BACKGROUND content: The presence of Plasmodium vivax malaria parasites in the human bone marrow (BM) is still controversial. However, recent data from a clinical case and experimental infections in splenectomized nonhuman primates unequivocally demonstrated the presence of parasites in this tissue. - Label: METHODS NlmCategory: METHODS content: In the current study, we analyzed BM aspirates of 7 patients during the acute attack and 42 days after drug treatment. RNA extracted from CD71+ cell suspensions was used for sequencing and transcriptomic analysis. - Label: RESULTS NlmCategory: RESULTS content: We demonstrated the presence of parasites in all patients during acute infections. To provide further insights, we purified CD71+ BM cells and demonstrated dyserythropoiesis and inefficient erythropoiesis in all patients. In addition, RNA sequencing from 3 patients showed that genes related to erythroid maturation were down-regulated during acute infections, whereas immune response genes were up-regulated. - Label: CONCLUSIONS NlmCategory: CONCLUSIONS content: This study thus shows that during P. vivax infections, parasites are always present in the BM and that such infections induced dyserythropoiesis and ineffective erythropoiesis. Moreover, infections induce transcriptional changes associated with such altered erythropoietic response, thus highlighting the importance of this hidden niche during natural infections.

Published

2022

28. Antigen Discovery in Circulating Extracellular Vesicles From

Author

Iris Aparici-Herraiz, Melisa Gualdrón-López, Carlos J. Castro-Cavadía, Jaime Carmona-Fonseca, María Fernanda Yasnot, Carmen Fernandez-Becerra, and Hernando A. del Portillo

Subjects

Microbiology (medical), direct immuno-affinity capture, Erythrocytes, Reticulocytes, Immunology, Protozoan Proteins, Antibodies, Protozoan, Antigens, Protozoan, Microbiology, QR1-502, antigen discovery, Extracellular Vesicles, Cellular and Infection Microbiology, proteomics, Infectious Diseases, parasitic diseases, Malaria, Vivax, Humans, extracellular vesicles, Plasmodium vivax, Original Research

Abstract

Plasmodium vivax is the most widely distributed human malaria parasite with 7 million annual clinical cases and 2.5 billion people living under risk of infection. There is an urgent need to discover new antigens for vaccination as only two vaccine candidates are currently in clinical trials. Extracellular vesicles (EVs) are small membrane-bound vesicles involved in intercellular communication and initially described in reticulocytes, the host cell of P. vivax, as a selective disposal mechanism of the transferrin receptor (CD71) in the maturation of reticulocytes to erythrocytes. We have recently reported the proteomics identification of P. vivax proteins associated to circulating EVs in P. vivax patients using size exclusion chromatography followed by mass spectrometry (MS). Parasite proteins were detected in only two out of ten patients. To increase the MS signal, we have implemented the direct immuno-affinity capture (DIC) technique to enrich in EVs derived from CD71-expressing cells. Remarkably, we identified parasite proteins in all patients totaling 48 proteins and including several previously identified P. vivax vaccine candidate antigens (MSP1, MSP3, MSP7, MSP9, Serine-repeat antigen 1, and HSP70) as well as membrane, cytosolic and exported proteins. Notably, a member of the Plasmodium helical interspersed sub-telomeric (PHIST-c) family and a member of the Plasmodium exported proteins, were detected in five out of six analyzed patients. Humoral immune response analysis using sera from vivax patients confirmed the antigenicity of the PHIST-c protein. Collectively, we showed that enrichment of EVs by CD71-DIC from plasma of patients, allows a robust identification of P. vivax immunogenic proteins. This study represents a significant advance in identifying new antigens for vaccination against this human malaria parasite.

Published

2021

29. Antibody Profile Comparison against MSP1 Antigens of Multiple Plasmodium Species in Human Serum Samples from Two Different Brazilian Populations Using a Multiplex Serological Assay

Author

Gerhard Wunderlich, Izilda Curado, Carmen Fernandez-Becerra, Eliana Ferreira Monteiro, Karin Kirchgatter, and Meire Ioshie Hiyane

Subjects

Microbiology (medical), malaria, serology, Plasmodium malariae, Article, Serology, law.invention, Antigen, law, parasitic diseases, medicine, Immunology and Allergy, Seroprevalence, Multiplex, Molecular Biology, multiplex bead assay, General Immunology and Microbiology, biology, MSP1, VIGILÂNCIA EPIDEMIOLÓGICA, medicine.disease, biology.organism_classification, Virology, Infectious Diseases, biology.protein, Recombinant DNA, Medicine, Antibody, Malaria, Brazil

Abstract

Plasmodium malariae has a wide geographic distribution, but mainly at very low parasitemias and in co-infections, leading to an underestimated prevalence of this species. Studies for the detection of antibodies against Plasmodium recombinant proteins are increasingly used to map geographical distributions, seroprevalence and transmission intensities of malaria infection. However, no seroepidemiological survey using recombinant P. malariae proteins has been conducted in Brazil. This work evaluated the antibody response in serum samples of individuals from endemic regions of Brazil (the Amazon region and Atlantic Forest) against five recombinant proteins of P. malariae merozoite surface protein 1 (MSP1), and the MSP1 C-terminal portions of P. vivax and P. falciparum, in a multiplex assay. The positivity was 69.5% of samples recognizing at least one MSP1 recombinant protein. The mean of the Reactivity Index for the C-terminal portion of the P. falciparum was significantly higher compared to the other recombinant proteins, followed by the C-terminal of P. vivax and the N-terminal of P. malariae. Among the recombinant P. malariae proteins, the N-terminal of P. malariae showed the highest Reactivity Index alone. This study validates the use of the multiplex assay to measure naturally acquired IgG antibodies against Plasmodium MSP1 proteins and demonstrate that these proteins are important tools for seroepidemiological surveys and could be used in malaria surveillance.

Published

2021

30. Mass Spectrometry Identification of Biomarkers in Extracellular Vesicles From Plasmodium vivax Liver Hypnozoite Infections

Author

Melisa Gualdrón-López, Miriam Díaz-Varela, Gigliola Zanghi, Iris Aparici-Herraiz, Ryan W.J. Steel, Carola Schäfer, Pol Cuscó, Vorada Chuenchob, Niwat Kangwangransan, Zachary P. Billman, Tayla M. Olsen, Juan R. González, Wanlapa Roobsoong, Jetsumon Sattabongkot, Sean C. Murphy, Sebastian A. Mikolajczak, Eva Borràs, Eduard Sabidó, Carmen Fernandez-Becerra, Erika L. Flannery, Stefan H.I. Kappe, and Hernando A. del Portillo

Subjects

Proteomics, Proteome, Hypnozoites, Filamins, Humanized mouse model, Schizonticidal experimental drug MMV048, Biochemistry, Mass Spectrometry, Analytical Chemistry, Mice, Extracellular Vesicles, Liver, Malaria, Vivax, Humans, Animals, Parasites, Plasmodium vivax, Molecular Biology, Biomarkers

Abstract

Latent liver stages termed hypnozoites cause relapsing Plasmodium vivax malaria infection and represent a major obstacle in the goal of malaria elimination. Hypnozoites are clinically undetectable, and presently, there are no biomarkers of this persistent parasite reservoir in the human liver. Here, we have identified parasite and human proteins associated with extracellular vesicles (EVs) secreted from in vivo infections exclusively containing hypnozoites. We used P. vivax-infected human liver-chimeric (huHEP) FRG KO mice treated with the schizonticidal experimental drug MMV048 as hypnozoite infection model. Immunofluorescence-based quantification of P. vivax liver forms showed that MMV048 removed schizonts from chimeric mice livers. Proteomic analysis of EVs derived from FRG huHEP mice showed that human EV cargo from infected FRG huHEP mice contain inflammation markers associated with active schizont replication and identified 66 P. vivax proteins. To identify hypnozoite-specific proteins associated with EVs, we mined the proteome data from MMV048-treated mice and performed an analysis involving intragroup and intergroup comparisons across all experimental conditions followed by a peptide compatibility analysis with predicted spectra to warrant robust identification. Only one protein fulfilled this stringent top-down selection, a putative filamin domain-containing protein. This study sets the stage to unveil biological features of human liver infections and identify biomarkers of hypnozoite infection associated with EVs. M. G.-L. was a postdoctoral fellow supported by the Plan Estratégico de Investigación e Innovación en Salud (PERIS, SLT002/16/00179) of the Generalitat de Catalunya, Spain. M. D.-V. was a predoctoral fellow supported by Secretaria d’Universitats i Recerca del Departament d’Economia i Creixement, Generalitat de Catalunya (2017 FI_B2_00029). I. A.-H. is a predoctoral fellow supported by the Ministerio de Economia y Competitividad (FPI BES-2017081657). C. S. was funded by the German Research Foundation (DFG; fellowship SCHA2047/1-1). We acknowledge support from the National Institute of Health R21 program (1R21AI135680-01). The CRG/UPF Proteomics Unit is part of the Spanish Infrastructure for Omics Technologies (ICTS OmicsTech), and it is supported by “Secretaria d’Universitats i Recerca del Departament d’Economia i Coneixement de la Generalitat de Catalunya” (2017SGR595) and acknowledges support of the Spanish Ministry of Science and Innovation to the EMBL partnership. We also acknowledge support from the Spanish Ministry of Science and Innovation through the Centro de Excelencia Severo Ochoa 2019–2023” Program (CEX2018-000806-S) and support from the Generalitat de Catalunya through the CERCA Program. This research is part of the ISGlobal’s Program on the Molecular Mechanisms of Malaria which is partially supported by the Fundación Ramón Areces. Work in the laboratory of Carmen Fernandez-Becerra and Hernando A. del Portillo is funded by the Ministerio Español de Economía y Competitividad (SAF2016 80655-R) and by and by the Ministerio de Ciencia e Innovación (PID2019-111795RB-I00). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.

Published

2022

31. Cryptic erythrocytic infections in Plasmodium vivax, another challenge to its elimination

Author

Carmen Fernandez-Becerra, Iris Aparici-Herraiz, and Hernando A. del Portillo

Subjects

Erythrocytes, Reticulocytes, Cryptic erythrocytic infections, Exosomes, Antimalarials, Infectious Diseases, Bone Marrow, Malaria, Vivax, Animals, Humans, Parasitology, Bone marrow, Plasmodium vivax, Spleen

Abstract

Human malaria caused by Plasmodium vivax infection (vivax malaria) is a major global health issue. It is the most geographically widespread form of the disease, accounting for 7 million annual clinical cases, the majority of cases in America and Asia and an estimation of over 2.5 billion people living under risk of infection. The general perception towards vivax malaria has shifted recently, following a series of reports, from being viewed as a benign infection to the recognition of its potential for more severe manifestations including fatal cases. However, the underlying pathogenic mechanisms of vivax malaria remain largely unresolved. Asymptomatic carriers of malaria parasites are a major challenge for malaria elimination. In the case of P. vivax, it has been widely accepted that the only source of cryptic parasites is hypnozoite dormant stages. Here, we will review new evidence indicating that cryptic erythrocytic niches outside the liver, in particular in the spleen and bone marrow, can represent a major source of asymptomatic infections. The origin of such parasites is being controversial and many key gaps in the knowledge of such infections remain unanswered. Yet, as parasites in these niches seem to be sheltered from immune response and antimalarial drugs, research on this area should be reinforced if elimination of malaria is to be achieved. Last, we will glimpse into the role of reticulocyte-derived exosomes, extracellular vesicles of endocytic origin, as intercellular communicators likely involved in the formation of such cryptic erythrocytic infections.

Published

2021

32. Hidden Biomass of Intact Malaria Parasites in the Human Spleen

Author

Nur I. Margyaningsih, Nicholas M. Anstey, Bruce Russell, Innocent Safeukui, Benediktus Andries, Pak Prayoga, Fabrice Chrétien, Leo Leonardo, Matthias Marti, Carmen Fernandez-Becerra, Tonia Woodberry, David Hardy, Labibah Qotrunnada, Ric N. Price, Dwi Apriyanti, Steven Kho, Nurjati Chairani Siregar, Benoit Henry, Papa Alioune Ndour, Gabriela Minigo, Leily Trianty, Tsin W. Yeo, Pierre Buffet, Hernando A. del Portillo, Aurélie Fricot, Agatha M. Puspitasari, Enny Kenangalem, Rintis Noviyanti, Elamaran Meibalan, Jeanne Rini Poespoprodjo, Putu A. I. Wardani, Menzies School of Health Research [Australia], Charles Darwin University, Eijkman Institute for Molecular Biology [Jakarta], Papuan Health and Community Development Foundation [Timika, Papua Indonesia], Rumah Sakit Umum Daerah Kabupaten Mimika [Timika, Papua, Indonesia], Institut National de la Santé et de la Recherche Médicale (INSERM), Université de Paris (UP), Institut Pasteur [Paris], University of Notre Dame [Indiana] (UND), Instituto de Salud Global - Institute For Global Health [Barcelona] (ISGlobal), Brigham & Women’s Hospital [Boston] (BWH), Harvard Medical School [Boston] (HMS), University of Glasgow, University of Otago [Dunedin, Nouvelle-Zélande], Supported by program grant no. 1037304, by fellowship nos. 1042072 and 1135820, to Dr. Anstey, by a grant (no. 1131932) from Improving Health Outcomes in the Tropical North, and by the Australian Centre of Research Excellence in Malaria Elimination — all through the Australian National Health and Medical Research Council, by a grant from the Institut National de la Santé et de la Recherche Médicale, to Dr. Buffet, by a grant from the Wellcome Trust(no. 099875), to Dr. Poespoprodjo, by a Senior Wellcome Trust Fellowship in Clinical Science award(no. 200909), to Dr. Price, by an Australian Government Postgraduate Award Scholarship, to Dr. Kho, by a Royal Society Wolfson Research Merit award, to Dr. Marti, and by the Australian Department of Foreign Affairs and Trade., Hardy, David, Charles Darwin University [Australia], Université Paris Cité (UPCité), and Institut Pasteur [Paris] (IP)

Subjects

biology, business.industry, medicine.medical_treatment, [SDV]Life Sciences [q-bio], Splenectomy, Spleen, General Medicine, 030204 cardiovascular system & hematology, medicine.disease, biology.organism_classification, Plasmodium, Asymptomatic, Virology, 3. Good health, [SDV] Life Sciences [q-bio], 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, parasitic diseases, medicine, 030212 general & internal medicine, medicine.symptom, business, Malaria, ComputingMilieux_MISCELLANEOUS

Abstract

Malaria and the Spleen In this report, patients living in a malaria-endemic area underwent trauma-related splenectomy. In these asymptomatic patients who were naturally infected with Plasmodium fal...

Published

2021

33. Pitting of malaria parasites in microfluidic devices mimicking spleen interendothelial slits

Author

Oihane Ezama, Claudia Trejo-Soto, Melisa Gualdrón-López, Carmen Fernandez-Becerra, Aurora Hernández-Machado, Aleix Elizalde-Torrent, Marc Nicolau, Lourdes Méndez-Mora, Tomás Alarcón, and Hernando A. del Portillo

Subjects

Erythrocytes, Melsa, Science, Plasmodium falciparum, Biophysics, Malària, Spleen, Biomimètica, Hemolysis, Article, Flow cytometry, chemistry.chemical_compound, Medical research, Biomimetics, Lab-On-A-Chip Devices, medicine, Animals, Humans, Parasites, Endothelium, DAPI, Malaria, Falciparum, Multidisciplinary, medicine.diagnostic_test, Chemistry, medicine.disease, In vitro, Staining, Cell biology, Malaria, medicine.anatomical_structure, Humoral immunity, Medicine, Biomedical engineering, Biological physics, Ex vivo

Abstract

The spleen is a hematopoietic organ that participates in cellular and humoral immunity. It also serves as a quality control mechanism for removing senescent and/or poorly deformable red blood cells (RBCs) from circulation. Pitting is a specialized process by which the spleen extracts particles, including malaria parasites, from within circulating RBCs during their passage through the interendothelial slits (IES) in the splenic cords. To study this physiological function in vitro, we have developed two microfluidic devices modeling the IES, according to the hypothesis that at a certain range of mechanical stress on the RBC, regulated through both slit size and blood flow, would force it undergo the pitting process without affecting the cell integrity. To prove its functionality in replicating pitting of malaria parasites, we have performed a characterization of P. falciparum-infected RBCs (P.f.-RBCs) after their passage through the devices, determining hemolysis and the proportion of once-infected RBCs (O-iRBCs), defined by the presence of a parasite antigen and absence of DAPI staining of parasite DNA using a flow cytometry-based approach. The passage of P.f.-RBCs through the devices at the physiological flow rate did not affect cell integrity and resulted in an increase of the frequency of O-iRBCs. Both microfluidic device models were capable to replicate the pitting of P.f.-RBCs ex vivo by means of mechanical constraints without cellular involvement, shedding new insights on the role of the spleen in the pathophysiology of malaria.

Published

2021

34. Cryptic Plasmodium chronic infections: was Maurizio Ascoli right?

Author

Hernando A. del Portillo, Camila Bôtto-Menezes, Marcus V. G. Lacerda, Gisely Cardoso de Melo, Carmen Fernandez-Becerra, Aleix Elizalde-Torrent, Wuelton Marcelo Monteiro, and Jose Diego Brito-Sousa

Subjects

0301 basic medicine, Plasmodium, lcsh:Arctic medicine. Tropical medicine, Epinephrine, lcsh:RC955-962, 030231 tropical medicine, Review, Biology, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, Ascoli‘s method, Antimalarials, 0302 clinical medicine, Research community, parasitic diseases, medicine, lcsh:RC109-216, In patient, Asymptomatic Infections, Plasmodium species, Quinine, Parasite recurrence, History, 20th Century, medicine.disease, Malaria, Cryptic infection, 030104 developmental biology, Infectious Diseases, Parasitology, Immunology, Chronic Disease, Spleen, medicine.drug

Abstract

CrypticPlasmodiumniches outside the liver possibly represent a major source of hypnozoite-unrelated recrudescences in malaria. Maurizio Ascoli, an Italian physician and scientist, suggested that infection was maintained as a result of the persistence of endoerythrocytic parasites in the circulatory bed of some internal organs, mainly the spleen. This would explain a proportion of the recurrences in patients, regardless of thePlasmodiumspecies. Ascoli proposed a method that included the co-administration of adrenaline, in order to induce splenic contraction, and quinine to clear expelled forms in major vessels. Driven by controversy regarding safety and effectiveness, along with the introduction of new drugs, the Ascoli method was abandoned and mostly forgotten by the malaria research community. To date, however, the existence of cryptic parasites outside the liver is gaining supportive data. This work is a historical retrospective of cryptic malaria infections and the Ascoli method, highlighting key knowledge gaps regarding these possible parasite reservoirs.

Published

2020

35. Naturally acquired humoral immunity against malaria parasites in non-human primates from the Brazilian Amazon, Cerrado and Atlantic forest

Author

Stéfanie Vanessa Santos, Karin Kirchgatter, Mariluce Rezende Messias, Carolina Romeiro Fernandes Chagas, Ana Maria Ribeiro de Castro Duarte, Marina Galvão Bueno, Maisa da Silva Araujo, Julio César de Souza, Luiz S. Ozaki, Eliana Ferreira Monteiro, Marcia Moreira Holcman, Carmen Fernandez-Becerra, Mayra Gomes Dos Santos, Bruno S. Mathias, and José Luiz Catão-Dias

Subjects

0301 basic medicine, Microbiology (medical), 030231 tropical medicine, malaria, lcsh:Medicine, Malària, serology, Plasmodium malariae, Plasmodium, Article, Serology, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, medicine, Immunology and Allergy, Parasite hosting, PLASMODIUM, Molecular Biology, General Immunology and Microbiology, biology, Transmission (medicine), Malaria vaccine, lcsh:R, MSP1, Immunity, biology.organism_classification, medicine.disease, Virology, Malaria, Immunitat, 030104 developmental biology, Infectious Diseases, Humoral immunity, non-human primates, Brazil

Abstract

Plasmodium - Plasmodium brasilianum - P. malariae - P. malariae - P. falciparum - P. vivax - Plasmodium content: - "Non-human primates (NHPs) have been shown to be infected by parasites of the genus " - ", the etiological agent of malaria in humans, creating potential risks of zoonotic transmission. " - ", a parasite species similar to " - " of humans, have been described in NHPs from Central and South America, including Brazil. The merozoite surface protein 1 (MSP1), besides being a malaria vaccine candidate, is highly immunogenic. Due to such properties, we tested this protein for the diagnosis of parasite infection. We used recombinant proteins of " - " MSP1, as well as of " - " and " - ", for the detection of antibodies anti-MSP1 of these parasite species, in the sera of NHPs collected in different regions of Brazil. About 40% of the NHP sera were confirmed as reactive to the proteins of one or more parasite species. A relatively higher number of reactive sera was found in animals from the Atlantic Forest than those from the Amazon region, possibly reflecting the former more intense parasite circulation among NHPs due to their proximity to humans at a higher populational density. The presence of " - " positive NHPs in the surveyed areas, being therefore potential parasite reservoirs, needs to be considered in any malaria surveillance program."

Published

2020

36. Production of recombinant PvDBPII, receptor binding domain of Plasmodium vivax Duffy binding protein, and evaluation of immunogenicity to identify an adjuvant formulation for vaccine development

Author

Rukmini Bhardwaj, Hernando A. del Portillo, Ahmad Rushdi Shakri, Carmen Fernandez-Becerra, Dhiraj Hans, Chetan E. Chitnis, Pankaj Gupta, and Gaurav Pandey

Subjects

0301 basic medicine, medicine.medical_treatment, 030231 tropical medicine, Plasmodium vivax, Protein domain, Protozoan Proteins, Antigens, Protozoan, Receptors, Cell Surface, medicine.disease_cause, law.invention, Mice, 03 medical and health sciences, Immunogenicity, Vaccine, 0302 clinical medicine, Protein Domains, law, Malaria Vaccines, parasitic diseases, medicine, Animals, Humans, Escherichia coli, Mice, Inbred BALB C, biology, Binding protein, Immunogenicity, biology.organism_classification, Virology, Recombinant Proteins, 030104 developmental biology, biology.protein, Recombinant DNA, Antibody, Adjuvant, Biotechnology

Abstract

Plasmodium vivax is dependent on interaction with the Duffy antigen receptor for chemokines (DARC) for invasion of human erythrocytes. The P. vivax Duffy binding protein (PvDBP) mediates interaction of P. vivax merozoites with DARC. The DARC receptor-binding domain lies in a conserved N-terminal cysteine-rich region of PvDBP referred to as region II (PvDBPII). PvDBPII is an attractive vaccine candidate since antibodies raised against PvDBPII block erythrocyte invasion by P. vivax. Here, we describe methods to produce recombinant PvDBPII in its correctly folded conformation. A synthetic gene optimized for expression of PvDBPII in Escherichia coli and fed batch fermentation process based on exponential feeding strategy was used to achieve high levels of expression of recombinant PvDBPII. Recombinant PvDBPII was isolated from inclusion bodies, refolded by rapid dilution and purified by ion exchange chromatography. Purified recombinant PvDBPII was characterized for identity, purity and functional activity using standardized release assays. Recombinant PvDBPII formulated with various human compatible adjuvants including glycosylpyranosyl lipid A-stable emulsion (GLA-SE) and alhydrogel was used for immunogenicity studies in small animals to downselect a suitable formulation for clinical development. Sera collected from immunized animals were tested for recognition of PvDBPII and inhibition of PvDBPII-DARC binding. GLA-SE formulations of PvDBPII yielded higher ELISA and binding inhibition titres compared to PvDBPII formulated with alhydrogel. These data support further development of a recombinant vaccine for P. vivax based on PvDBPII formulated with GLA-SE.

Published

2017

37. Plasma-Derived Extracellular Vesicles as Potential Biomarkers in Heart Transplant Patient with Chronic Chagas Disease

Author

María-Jesús Pinazo, Igor C. Almeida, Montserrat Gállego, Cameron C. Ellis, Ana García-Álvarez, Joaquim Gascon, Cristina Ballart, Maria Tays Mendes, Clara Mazagatos, Carmen Fernandez-Becerra, Nuria Cortes-Serra, Joan Segui-Barber, Ministerio de Ciencia, Innovación y Universidades (España), Fundación La Marató TV3, Fundación Mundo Sano, European Regional Development Fund, Redes Temáticas de Investigación Cooperativa en Salud, Red de Investigación Cooperativa en Enfermedades Tropicales, Red Iberoamericana Nuevas Herramientas para el Diagnóstico y la Evaluación del Paciente con Enfermedad de Chagas, NIH - National Institute on Minority Health and Health Disparities (NIMHD) (Estados Unidos), and Government of Catalonia (España)

Subjects

Chagas disease, tropical diseases, Epidemiology, medicine.medical_treatment, lcsh:Medicine, Blood plasma, Heart transplantation, heart transplantation, Plasma, 0302 clinical medicine, Malaltia de Chagas, 030212 general & internal medicine, biology, Biochemical markers, Dispatch, Extracellular vesicles, proteomic analysis, Infectious Diseases, Marcadors bioquímics, Transplant patient, Microbiology (medical), Bolivia, Trypanosoma cruzi, 030231 tropical medicine, Chronic Chagas' disease, Proteomic analysis, parasites, lcsh:Infectious and parasitic diseases, Extracellular Vesicles, 03 medical and health sciences, medicine, Humans, lcsh:RC109-216, Parasites, business.industry, Plasma derived, lcsh:R, Tropical diseases, biomarkers, Plasma sanguini, medicine.disease, biology.organism_classification, Chagas' disease, Plasma-Derived Extracellular Vesicles as Potential Biomarkers in Heart Transplant Patient with Chronic Chagas Disease, Spain, Potential biomarkers, Immunology, business, Biomarkers

Abstract

Chagas disease is emerging in countries to which it is not endemic. Biomarkers for earlier therapeutic response assessment in patients with chronic Chagas disease are needed. We profiled plasma-derived extracellular vesicles from a heart transplant patient with chronic Chagas disease and showed the potential of this approach for discovering such biomarkers. Barcelona Institute for Global Health (ISGlobal) receives support from the Spanish Ministry of Science, Innovation and Universities through the Centro de Excelencia Severo Ochoa 2019–2023 Program (CEX2018-000806-S). ISGlobal and Institut d’Investigació en Ciències de la Salut Germans Trias i Pujol (IGTP) are members of the Centres de Recerca de Catalunya (CERCA Program), Generalitat de Catalunya. Work in the laboratory of C.F.B. is funded by Fundació La Marató de TV3 (reference 566/U/2018) and Fundación Mundo Sano. This project was co-financed by the European Union through the European Regional Development Fund with the support of Secretaria d’Universitats i Recerca del Departament d’Empresa i Coneixement de la Generalitat de Catalunya. N.C., M.G., J.G., and M.J.P. receive funds from the Redes temáticas de investigación cooperativa en salud (RETICS), Spanish Tropical Diseases Network “RD12/0018/0010” and from the Agencia de Gestió d’Ajuts Universitaris i de Recerca, Generalitat de Catalunya; grant “2017 SGR 00924.” M.G., C.B., J.G., M.J.P., and I.C.A. belong to the Ibero-American Nuevas Herramientas para el Diagnóstico y la Evaluación del Paciente con Enfermedad de Chagas network. I.C.A. is partially supported by grants no. 2G12MD007592 and 5U54MD007592 from the National Institute on Minority Health and Health Disparities of the US National Institutes of Health. We are grateful to the Biomolecule Analysis Core Facility at University of Texas at El Paso, Border Biomedical Research Center, funded by National Institute on Minority Health and Health Disparities grants 2G12MD007592 and 5U54MD007592. M.T.M. received a PhD fellowship from the Science Without Borders Program, Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, Brazil. Sí

Published

2020

38. Conditional expression of PfAP2-G for controlled massive sexual conversion in Plasmodium falciparum

Author

Oriol Llorà-Batlle, Alfred Cortés, Haruka Toda, Jake Baum, Carmen Fernandez-Becerra, Kathrin Witmer, Lucas Michel-Todó, Llorà-Batlle, Oriol [0000-0002-8424-9705], Michel-Todó, Lucas [0000-0003-2098-4302], Witmer, Kathrin [0000-0002-3159-7386], Toda, Haruka [0000-0001-8054-8700], Fernández-Becerra, Carmen [0000-0001-5154-0013], Baum, Jake [0000-0002-0275-352X], Cortés, Alfred [0000-0003-0730-6582], and Apollo - University of Cambridge Repository

Subjects

Plasmodium falciparum, Malària, Biology, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, medicine, Gametocyte, Parasite hosting, Animals, Humans, Parasites, Gene, Transcription factor, 030304 developmental biology, Genetics, 0303 health sciences, Multidisciplinary, Microbiologia mèdica, Medical microbiology, medicine.disease, biology.organism_classification, Phenotype, Malaria, Gene Expression Regulation, 030217 neurology & neurosurgery, Transcription Factors

Abstract

- i: - Plasmodium falciparum content: - "Malaria transmission requires that some asexual parasites convert into sexual forms termed gametocytes. The initial stages of sexual development, including sexually committed schizonts and sexual rings, remain poorly haracterized, mainly because they are morphologically identical to their sexual counterparts and only a small subset of parasites undergo sexual development. Here, we describe a system for controlled sexual conversion in the human malaria parasite " - ", based on conditional expression of the PfAP2-G transcription factor. Using this system, ~90 percent of the parasites converted into sexual forms upon induction, enabling the characterization of committed and early sexual stages without further purification. We characterized sexually committed schizonts and sexual rings at the transcriptomic and phenotypic levels, which revealed down-regulation of genes involved in solute transport upon sexual commitment, among other findings. The new inducible lines will facilitate the study of early sexual stages at additional levels, including multiomic characterization and drug susceptibility assays."

Published

2020

39. State-of-the-art in host-derived biomarkers of Chagas disease prognosis and early evaluation of anti-Trypanosoma cruzi treatment response

Author

Julio Alonso-Padilla, Irene Losada-Galvan, María-Jesús Pinazo, Nuria Cortes-Serra, Carmen Fernandez-Becerra, and Joaquim Gascon

Subjects

Chagas disease, Treatment response, Trypanosoma cruzi, 030231 tropical medicine, 030204 cardiovascular system & hematology, Host-Parasite Interactions, 03 medical and health sciences, 0302 clinical medicine, Malaltia de Chagas, medicine, Humans, Chagas Disease, Stage (cooking), Adverse effect, Nifurtimox, Molecular Biology, biology, business.industry, Biochemical markers, Neglected Disease, Heart, biology.organism_classification, medicine.disease, Prognosis, Gastrointestinal Tract, Chagas' disease, Treatment Outcome, Benznidazole, Nitroimidazoles, Immunology, Chronic Disease, Marcadors bioquímics, Molecular Medicine, business, Biomarkers, medicine.drug

Abstract

Chagas disease is caused by infection with the parasite Trypanosoma cruzi, which might lead to a chronic disease state and drive to irreversible damage to the heart and/or digestive tract tissues. Endemic in 21 countries in the Americas, it is the neglected disease with a highest burden in the region. Current estimates point at ~6 million people infected, of which ~30% will progress onto the symptomatic tissue disruptive stage. There is no vaccine but there are two anti-parasitic drugs available: benznidazole and nifurtimox. However, their efficacy is variable at the chronic symptomatic stage and both have frequent adverse effects. Since there are no prognosis markers, drugs should be administered to all T. cruzi-infected individuals in the indeterminate and early symptomatic stages. Nowadays, there are no tests-of-cure either, which greatly undermines patients' follow-up and the search of safer and more efficacious drugs. Therefore, the identification and validation of biomarkers of disease progression and/or treatment response on which to develop tests of prognosis and/or cure is a major research priority. Both parasite- and host-derived markers have been investigated. In the present manuscript we present an updated outlook of the latter.

Published

2020

40. Extracellular vesicles derived from Plasmodium-infected and non-infected red blood cells as targeted drug delivery vehicles

Author

Xavier Fernàndez-Busquets, Sander A.A. Kooijmans, Miriam Ramírez, Elena Lantero, Isabel Crespo, Arnau Biosca, Yunuen Avalos-Padilla, Irene Fernández, Carmen Fernandez-Becerra, Hernando A. del Portillo, Lívia Neves Borgheti-Cardoso, and Lucía Gutiérrez Chamorro

Subjects

Plasmodium, Erythrocytes, Tafenoquine, Plasmodium falciparum, Pharmaceutical Science, Malària, 02 engineering and technology, Drug resistance, Biology, Pharmacology, 030226 pharmacology & pharmacy, 03 medical and health sciences, chemistry.chemical_compound, Extracellular Vesicles, 0302 clinical medicine, Drug Delivery Systems, parasitic diseases, medicine, Humans, Extracellular vesicles, 021001 nanoscience & nanotechnology, medicine.disease, biology.organism_classification, In vitro, Malaria, chemistry, Targeted drug delivery, Hematies, Drug delivery, Liposomes, Antimalarial drugs, 0210 nano-technology, Atovaquone, medicine.drug

Abstract

Among several factors behind drug resistance evolution in malaria is the challenge of administering overall doses that are not toxic for the patient but that, locally, are sufficiently high to rapidly kill the parasites. Thus, a crucial antimalarial strategy is the development of drug delivery systems capable of targeting antimalarial compounds to Plasmodium with high specificity. In the present study, extracellular vesicles (EVs) have been evaluated as a drug delivery system for the treatment of malaria. EVs derived from naive red blood cells (RBCs) and from Plasmodium falciparum-infected RBCs (pRBCs) were isolated by ultrafiltration followed by size exclusion chromatography. Lipidomic characterization showed that there were no significant qualitative differences between the lipidomic profiles of pRBC-derived EVs (pRBC-EVs) and RBC-derived EVs (RBC-EVs). Both EVs were taken up by RBCs and pRBCs, although pRBC-EVs were more efficiently internalized than RBC-EVs, which suggested their potential use as drug delivery vehicles for these cells. When loaded into pRBC-EVs, the antimalarial drugs atovaquone and tafenoquine inhibited in vitro P. falciparum growth more efficiently than their free drug counterparts, indicating that pRBC-EVs can potentially increase the efficacy of several small hydrophobic drugs used for the treatment of malaria.

Published

2020

41. Proteomics study of human cord blood reticulocyte-derived exosomes

Author

Carmen Fernandez-Becerra, Joan Segui-Barber, Míriam Díaz-Varela, Daniel Perez-Zsolt, Armando de Menezes-Neto, Javier Martinez-Picado, Hernando A. del Portillo, Ana Gámez-Valero, and Nuria Izquierdo-Useros

Subjects

Proteomics, Exosome Biogenesis, 0301 basic medicine, Reticulocytes, Science, Immunoelectron microscopy, Cell Culture Techniques, Transferrin receptor, Biology, Exosomes, Transferrin Receptor, Dendritic cells, Exosome, Mass Spectrometry, Extracellular Vesicles, 03 medical and health sciences, 0302 clinical medicine, Reticulocyte, Receptors, Transferrin, medicine, Humans, Nanotechnology, Microscopy, Immunoelectron, Cells, Cultured, Multidisciplinary, Proteins, Dendritic Cells, Fetal Blood, Over-represention GO Analysis, Microvesicles, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Cell culture, Cèl·lules dendrítiques, 030220 oncology & carcinogenesis, Proteome, Blood Banks, Medicine, Proteïnes, Human Reticulocyte-derived

Abstract

Reticulocyte-derived exosomes (Rex), extracellular vesicles of endocytic origin, were initially discovered as a cargo-disposal mechanism of obsolete proteins in the maturation of reticulocytes into erythrocytes. In this work, we present the first mass spectrometry-based proteomics of human Rex (HuRex). HuRex were isolated from cultures of human reticulocyte-enriched cord blood using different culture conditions and exosome isolation methods. The newly described proteome consists of 367 proteins, most of them related to exosomes as revealed by gene ontology over-representation analysis and include multiple transporters as well as proteins involved in exosome biogenesis and erythrocytic disorders. Immunoelectron microscopy validated the presence of the transferrin receptor. Moreover, functional assays demonstrated active capture of HuRex by mature dendritic cells. As only seven proteins have been previously associated with HuRex, this resource will facilitate studies on the role of human reticulocyte-derived exosomes in normal and pathological conditions affecting erythropoiesis.

Published

2018

42. Characterization of

Author

Melisa, Gualdrón-López, Erika L, Flannery, Niwat, Kangwanrangsan, Vorada, Chuenchob, Dietmar, Fernandez-Orth, Joan, Segui-Barber, Felix, Royo, Juan M, Falcón-Pérez, Carmen, Fernandez-Becerra, Marcus V G, Lacerda, Stefan H I, Kappe, Jetsumon, Sattabongkot, Juan R, Gonzalez, Sebastian A, Mikolajczak, and Hernando A, Del Portillo

Subjects

proteomics, humanized mice, parasitic diseases, exosome, biomarker, Plasmodium vivax, Microbiology, hypnozoite, Original Research

Abstract

Exosomes are extracellular vesicles of endocytic origin containing molecular signatures implying the cell of origin; thus, they offer a unique opportunity to discover biomarkers of disease. Plasmodium vivax, responsible for more than half of all malaria cases outside Africa, is a major obstacle in the goal of malaria elimination due to the presence of dormant liver stages (hypnozoites), which after the initial infection may reactivate to cause disease. Hypnozoite infection is asymptomatic and there are currently no diagnostic tools to detect their presence. The human liver-chimeric (FRG huHep) mouse is a robust P. vivax infection model for exo-erythrocytic development of liver stages, including hypnozoites. We studied the proteome of plasma-derived exosomes isolated from P. vivax infected FRG huHep mice with the objective of identifying liver-stage expressed parasite proteins indicative of infection. Proteomic analysis of these exosomes showed the presence of 290 and 234 proteins from mouse and human origin, respectively, including canonical exosomal markers. Human proteins include proteins previously detected in liver-derived exosomes, highlighting the potential of this chimeric mouse model to study plasma exosomes derived unequivocally from human hepatocytes. Noticeably, we identified 17 parasite proteins including enzymes, surface proteins, components of the endocytic pathway and translation machinery, as well as uncharacterized proteins. Western blot analysis validated the presence of human arginase-I and an uncharacterized P. vivax protein in plasma-derived exosomes. This study represents a proof-of-principle that plasma-derived exosomes from P. vivax infected FRG-huHep mice contain human hepatocyte and P. vivax proteins with the potential to unveil biological features of liver infection and identify biomarkers of hypnozoite infection.

Published

2018

43. Sudden spleen rupture in a Plasmodium vivax-infected patient undergoing malaria treatment

Author

Carmen Fernandez-Becerra, Marcus V. G. Lacerda, Luiz Carlos de Lima Ferreira, Aleix Elizalde-Torrent, Hernando A. del Portillo, Ingrid Cardoso C. Azevedo, Fernando Val, and Wuelton Marcelo Monteiro

Subjects

Male, Pediatrics, medicine.medical_specialty, Abdominal pain, lcsh:Arctic medicine. Tropical medicine, Primaquine, lcsh:RC955-962, medicine.medical_treatment, 030231 tropical medicine, Plasmodium vivax, Splenectomy, Spleen rupture, Malària, Case Report, Recurrent parasitemia, Pallor, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, 0302 clinical medicine, Chloroquine, parasitic diseases, medicine, Malaria, Vivax, Portable ultrasound, Humans, lcsh:RC109-216, 030212 general & internal medicine, Ultrasonography, biology, business.industry, Splenic Rupture, Middle Aged, biology.organism_classification, medicine.disease, Malaria, Infectious Diseases, Parasitology, medicine.symptom, Headaches, business, Brazil, Spleen, medicine.drug

Abstract

BACKGROUND: Splenomegaly is one of the most common features of malaria. However, spontaneous splenic rupture, although unusual, represents a severe complication often leading to death. It is mostly seen in acute infection and primary attack, and it is most commonly associated with Plasmodium vivax. Here, a case of spontaneous splenic rupture diagnosed with a portable ultrasound apparatus shortly after starting treatment and with recurrent parasitaemia after splenectomy, is reported. CASE DESCRIPTION: In November 2015, a 45-year-old Brazilian man presented to the hospital in Manaus with fever, headache and myalgia. He was diagnosed with P. vivax malaria and, after a normal G6PD test, he started treatment with chloroquine and primaquine and was discharged. Two days later, he went back to the hospital with abdominal pain, dyspnea, dry cough, pallor, oliguria and fever. Using a portable ultrasound, he was diagnosed of rupture of the spleen, which was removed by emergency surgery. After this episode, he suffered two more malaria episodes with high parasitaemia at approximately 2-month intervals. DNA from different portions of the spleen was extracted and a qualitative PCR was performed to detect P. vivax. CONCLUSIONS: The splenic rupture suffered by this patient occurred 2 days after starting the treatment. Having a portable ultrasound apparatus may have saved the patient's life, as it revealed a haemorrhage needing an urgent surgery. Parasites were detected by PCR in the extracted spleen. This patient suffered two more vivax malaria diagnosed episodes in spite of receiving and completing treatment with chloroquine and primaquine for each clinical attack. Splenic rupture during acute malaria is uncommon, but it is likely underdiagnosed and underreported, because the lack of means and equipment hinders diagnostic confirmation, especially in endemic areas.

Published

2018

44. Extracellular vesicles in parasitic diseases

Author

Lorena Martin-Jaular, Dolores Bernal, Igor C. Almeida, Carmen Fernandez-Becerra, Hernando A. del Portillo, Antonio Osuna, María Trelis, Armando de Menezes-Neto, Antonio Marcilla, and the European Community’s Seventh Framework Programme and by the Ministerio Español de Economía y Competitividad

Subjects

Histology, Paràsits, Protozous, Review Article, exosomes, parasites, Diagnostic tools, Exosomes, Extracellular vesicles, extracellular vesicles, microvesicles, protozoa, helminths, Immune system, Helminths, Parasites, Protozoa, lcsh:QH573-671, Helmints, Pathogen, Public health, biology, Host (biology), lcsh:Cytology, Cell Biology, biology.organism_classification, Salut pública, Parasitic diseases, Microvesicles, 3. Good health, Parasitologia mèdica, Malalties parasitàries, Immunology

Abstract

Parasitic diseases affect billions of people and are considered a major public health issue. Close to 400 species are estimated to parasitize humans, of which around 90 are responsible for great clinical burden and mortality rates. Unfortunately, they are largely neglected as they are mainly endemic to poor regions. Of relevance to this review, there is accumulating evidence of the release of extracellular vesicles (EVs) in parasitic diseases, acting both in parasite parasite inter-communication as well as in parasite host interactions. EVs participate in the dissemination of the pathogen and play a role in the regulation of the host immune systems. Production of EVs from parasites or parasitized cells has been described for a number of parasitic infections. In this review, we provide the most relevant findings of the involvement of EVs in intercellular communication, modulation of immune responses, involvement in pathology, and their potential as new diagnostic tools and therapeutic agents in some of the major human parasitic pathogens., National Council for Scientific and Technological Development (CNPq), United States Department of Health & Human Services National Institutes of Health (NIH) - USA R01AI070655-A5 R01AI070655-A5S1 2G12MD007592, European Union (EU), Ministerio Español de Economía y Competitividad

Published

2014

45. Spleen-Dependent Immune Protection Elicited by CpG Adjuvanted Reticulocyte-Derived Exosomes from Malaria Infection Is Associated with Changes in T cell Subsets' Distribution

Author

Lorena Martin-Jaular, Armando de Menezes-Neto, Aleix Elizalde-Torrent, Míriam Díaz-Varela, Marta Monguió-Tortajada, Carmen Fernandez-Becerra, Maria Montoya, Hernando A. del Portillo, and Francesc E. Borràs

Subjects

0301 basic medicine, T cell, T cells, malaria, Malària, Spleen, pD1-cells, Biology, 03 medical and health sciences, Cell and Developmental Biology, 0302 clinical medicine, PD-1 cells, Reticulocyte, Antigen, vaccine, effector memory T-cells, medicine, Splenocyte, Original Research, Correction, Cell Biology, Virology, Microvesicles, Malaria, Transplantation, 030104 developmental biology, medicine.anatomical_structure, Cèl·lules T, Immunology, spleen, Memory T cell, reticulocyte-derived exosomes, 030215 immunology, Developmental Biology

Abstract

Added corrigendum published in 2017-01-17 https://doi.org/10.3389/fcell.2016.00153, Reticulocyte-derived exosomes (rex) are 30-100 nm membrane vesicles of endocytic origin released during the maturation of reticulocytes to erythrocytes upon fusion of multivesicular bodies with the plasma membrane. Combination of CpG-ODN with rex obtained from BALB/c mice infected with the reticulocyte-prone non-lethal P. yoelii 17X malaria strain (rexPy), had been shown to induce survival and long lasting protection. Here, we show that splenectomized mice are not protected upon rexPy+CpG inmunizations and that protection is restored upon passive transfer of splenocytes obtained from animals immunized with rexPy+CpG. Notably, rexPy immunization of mice induced changes in PD1- memory T cells with effector phenotype. Proteomics analysis of rexPy confirmed their reticulocyte origin and demonstrated the presence of parasite antigens. Our studies thus prove, for what we believe is the first time, that rex from reticulocyte-prone malarial infections are associated with splenic long-lasting memory responses. To try extrapolating these data to human infections, in vitro experiments with spleen cells of human transplantation donors were performed. Plasma-derived exosomes from vivax malaria patients (exPv) were actively uptaken by human splenocytes and stimulated spleen cells leading to changes in T cell subsets.

Published

2016

46. Plasmodium vivax VIR Proteins Are Targets of Naturally-Acquired Antibody and T Cell Immune Responses to Malaria in Pregnant Women

Author

Pilar Requena, Sanjay K. Kochar, Clara Menéndez, Meghna Desai, Francesca Mateo, Alfredo Mayor, Adriana Malheiro, Myriam Arévalo-Herrera, Dhanpat K. Kochar, Carmen Fernandez-Becerra, Swati Kochar, Carlota Dobaño, Dhiraj Hans, Regina Wangnapi, Maria Ome-Kaius, Carlo Severini, Stephen J. Rogerson, Ivo Mueller, Edmilson Rui, Flor Ernestina Martinez-Espinosa, Hernando A. del Portillo, Norma Padilla, Azucena Bardají, Michela Menegon, Alexandra J. Umbers, Chetan C. Chitnis, Maria Eugenia Castellanos, Sergi Sanz, and Camila Bôtto-Menezes

Subjects

Maternal Health, Plasmodium vivax, Protozoan Proteins, Antibodies, Protozoan, Antibody Response, Biochemistry, Congenital malaria, Labor and Delivery, 0302 clinical medicine, Pregnancy, Animal Cells, Birth Weight, Immune Response, Coinfection, 3. Good health, Cytokines, Cellular Types, Antibody, lcsh:RC955-962, Immune Cells, Plasmodium falciparum, Immunology, Malària, Immunoglobulins, Antigens, Protozoan, Colombia, Interferon-gamma, Papua New Guinea, 03 medical and health sciences, Embarassades, Antigen, Humans, Blood Cells, Pregnant women, Public Health, Environmental and Occupational Health, Biology and Life Sciences, Proteins, lcsh:RA1-1270, Tropical Diseases, medicine.disease, Virology, 030104 developmental biology, Leukocytes, Mononuclear, Parasitology, Immunoglobulines, Immunologic Memory, Apicomplexa, Malaria, 0301 basic medicine, Plasmodium, Endemic Diseases, Physiology, Cohort Studies, White Blood Cells, Immune Physiology, Medicine and Health Sciences, Malaria, Falciparum, Pregnancy Complications, Infectious, Immune System Proteins, biology, T Cells, lcsh:Public aspects of medicine, Obstetrics and Gynecology, Guatemala, Infectious Diseases, Physiological Parameters, Female, Sample collection, medicine.symptom, Brazil, Research Article, Adult, lcsh:Arctic medicine. Tropical medicine, 030231 tropical medicine, India, Antibodies, Immune system, Parasite Groups, parasitic diseases, Malaria, Vivax, Parasitic Diseases, medicine, qw_575, Body Weight, Cell Biology, Th1 Cells, biology.organism_classification, wc_750, Immunoglobulin G, qx_135, Birth, biology.protein, Women's Health, wq_256

Abstract

Podeu consultar dades primàries associades a l'article a: http://hdl.handle.net/2445/101775, P. vivax infection during pregnancy has been associated with poor outcomes such as anemia, low birth weight and congenital malaria, thus representing an important global health problem. However, no vaccine is currently available for its prevention. Vir genes were the first putative virulent factors associated with P. vivax infections, yet very few studies have examined their potential role as targets of immunity. We investigated the immunogenic properties of five VIR proteins and two long synthetic peptides containing conserved VIR sequences (PvLP1 and PvLP2) in the context of the PregVax cohort study including women from five malaria endemic countries: Brazil, Colombia, Guatemala, India and Papua New Guinea (PNG) at different timepoints during and after pregnancy. Antibody responses against all antigens were detected in all populations, with PNG women presenting the highest levels overall. P. vivax infection at sample collection time was positively associated with antibody levels against PvLP1 (fold-increase: 1.60 at recruitment -first antenatal visit-) and PvLP2 (fold-increase: 1.63 at delivery), and P. falciparum co-infection was found to increase those responses (for PvLP1 at recruitment, fold-increase: 2.25). Levels of IgG against two VIR proteins at delivery were associated with higher birth weight (27 g increase per duplicating antibody levels, p

Published

2016

47. Functional analysis of Plasmodium vivax VIR proteins reveals different subcellular localizations and cytoadherence to the ICAM-1 endothelial receptor

Author

Francisco Javier Galán López, Carmen Fernandez-Becerra, A Razaname, M. T. Ferrer, Maria Bernabeu, Giampietro Corradin, H. A. del Portillo, Lorena Martin-Jaular, and Alexander G. Maier

Subjects

0303 health sciences, ICAM-1, medicine.diagnostic_test, 030231 tropical medicine, Immunology, Plasmodium vivax, Plasmodium falciparum, Biology, Immunofluorescence, biology.organism_classification, Subcellular localization, Microbiology, Molecular biology, 3. Good health, Cell biology, Transport protein, 03 medical and health sciences, 0302 clinical medicine, Virology, parasitic diseases, medicine, Antigenic variation, Receptor, 030304 developmental biology

Abstract

The subcellular localization and function of variant subtelomeric multigene families in Plasmodium vivax remain vastly unknown. Among them, the vir superfamily is putatively involved in antigenic variation and in mediating adherence to endothelial receptors. In the absence of a continuous in vitro culture system for P. vivax, we have generated P. falciparum transgenic lines expressing VIR proteins to infer location and function. We chose three proteins pertaining to subfamilies A (VIR17), C (VIR14) and D (VIR10), with domains and secondary structures that predictably traffic these proteins to different subcellular compartments. Here, we showed that VIR17 remained inside the parasite and around merozoites, whereas VIR14 and VIR10 were exported to the membrane of infected red blood cells (iRBCs) in an apparent independent pathway of Maurer's clefts. Remarkably, VIR14 was exposed at the surface of iRBCs and mediated adherence to different endothelial receptors expressed in CHO cells under static conditions. Under physiological flow conditions, however, cytoadherence was only observed to ICAM-1, which was the only receptor whose adherence was specifically and significantly inhibited by antibodies against conserved motifs of VIR proteins. Immunofluorescence studies using these antibodies also showed different subcellular localizations of VIR proteins in P. vivax-infected reticulocytes from natural infections. These data suggest that VIR proteins are trafficked to different cellular compartments and functionally demonstrates that VIR proteins can specifically mediate cytoadherence to the ICAM-1 endothelial receptor.

Published

2011

48. Plasmodium vivax and the importance of the subtelomeric multigene vir superfamily

Author

Carmen Fernandez-Becerra, Marcus V. G. Lacerda, Hernando A. del Portillo, Marcio Massao Yamamoto, Ricardo Z. N. Vêncio, and Anna Rosanas-Urgell

Subjects

Whole genome sequencing, Genes, Protozoan, Plasmodium vivax, Spleen, SUPERFAMILY, Biology, medicine.disease, Subtelomere, biology.organism_classification, Virology, Telomere, Infectious Diseases, medicine.anatomical_structure, Multigene Family, parasitic diseases, Malaria, Vivax, medicine, Animals, Humans, Parasitology, Gene, Malaria

Abstract

Plasmodium vivax is responsible for more than 100 million clinical cases yearly. Unlike P. falciparum, in which infected red blood cells cytoadhere via variant proteins, avoiding passage through the spleen, P.-vivax-infected reticulocytes seem not to cytoadhere. However, a variant subtelomeric multigene vir family has been identified in P. vivax. Thus, questions remain about how P. vivax circulates through the spleen and the role of Vir proteins. In this review, the importance of the vir multigene superfamily is reviewed in the light of the completion of the entire genome sequence of P. vivax and from data gathered from experimental infections in reticulocyte-prone non-lethal malaria parasites and natural P. vivax infections.

Published

2009

49. Comparative genomics of the neglected human malaria parasite Plasmodium vivax

Author

Paul R. Gilson, Claire M. Fraser-Liggett, John H. Adams, Malcolm J. Gardner, T. Feldblyum, Kobby Essien, Richard M.R. Coulson, Tobias Sargeant, Elisabet Caler, Jonathan Crabtree, Emilio F. Merino, Steven A. Sullivan, Jane M. Carlton, Christian J. Stoeckert, Ian T. Paulsen, Mary R. Galinski, Vish Nene, Michael Korsinczky, Stephen L. Hoffman, Joana C. Silva, Jennifer R. Wortman, Samuel V. Angiuoli, Owen White, Qin Cheng, Stuart A. Ralph, Qinghu Ren, Steven L. Salzberg, Shelby L. Bidwell, Carmen Fernandez-Becerra, Brendan S. Crabb, Simon Kang’a, Hernan Lorenzi, John W. Barnwell, Taco W. A. Kooij, Marcio Massao Yamamoto, Esmeralda V. S. Meyer, Hernando A. del Portillo, Xiang Guo, Paolo Amedeo, and Amy H. Gueye

Subjects

Erythrocytes, Amino Acid Motifs, Plasmodium vivax, Human pathogen, Genomics, Ligands, Synteny, Genome, Article, Chromosomes, Evolution, Molecular, Species Specificity, parasitic diseases, Malaria, Vivax, medicine, Animals, Humans, Parasite hosting, Atovaquone, Conserved Sequence, Cell Nucleus, Comparative genomics, Genetics, Multidisciplinary, biology, Haplorhini, Sequence Analysis, DNA, biology.organism_classification, medicine.disease, Artemisinins, Multigene Family, Genome, Protozoan, Isochores, Malaria

Abstract

The human malaria parasite Plasmodium vivax is responsible for 25-40% of the approximately 515 million annual cases of malaria worldwide. Although seldom fatal, the parasite elicits severe and incapacitating clinical symptoms and often causes relapses months after a primary infection has cleared. Despite its importance as a major human pathogen, P. vivax is little studied because it cannot be propagated continuously in the laboratory except in non-human primates. We sequenced the genome of P. vivax to shed light on its distinctive biological features, and as a means to drive development of new drugs and vaccines. Here we describe the synteny and isochore structure of P. vivax chromosomes, and show that the parasite resembles other malaria parasites in gene content and metabolic potential, but possesses novel gene families and potential alternative invasion pathways not recognized previously. Completion of the P. vivax genome provides the scientific community with a valuable resource that can be used to advance investigation into this neglected species.

Published

2008

50. Size-exclusion chromatography as a stand-alone methodology identifies novel markers in mass spectrometry analyses of plasma-derived vesicles from healthy individuals

Author

Lorena Martin-Jaular, María José Fidalgo Sáez, Josep Maria Estanyol i Ullate, Armando de Menezes-Neto, Inés Lozano-Ramos, Carmen Fernandez-Becerra, Joan Segui-Barber, Hernando A. del Portillo, Francesc E. Borràs, and AM-N is a recipient of a postdoctoral fellowship from CNPq, Conselho Nacional de Desenvolvimento Científico e Tecnologico – Brasil. Work in the HAP laboratory is funded by the European Community’s Seventh Framework Programme and by the Ministerio Español

Subjects

Histology, comparative analysis, low infrastructure settings, Size-exclusion chromatography, exosomes, Mass spectrometry, Bioinformatics, Exosome, Sepharose, CD5L, Medicine, LGALS3BP, Original Research Article, lcsh:QH573-671, mass spectrometry, lcsh:Cytology, business.industry, Vesicle, Cell Biology, Blood proteins, Microvesicles, Biochemistry, Ultracentrifuge, business, plasma-derived exosomes

Abstract

Plasma-derived vesicles hold a promising potential for use in biomedical applications. Two major challenges, however, hinder their implementation into translational tools: (a) the incomplete characterization of the protein composition of plasma-derived vesicles, in the size range of exosomes, as mass spectrometric analysis of plasma sub-components is recognizably troublesome and (b) the limited reach of vesicle-based studies in settings where the infrastructural demand of ultracentrifugation, the most widely used isolation/purification methodology, is not available. In this study, we have addressed both challenges by carrying-out mass spectrometry (MS) analyses of plasma-derived vesicles, in the size range of exosomes, from healthy donors obtained by 2 alternative methodologies: size-exclusion chromatography (SEC) on sepharose columns and Exo-Spin™. No exosome markers, as opposed to the most abundant plasma proteins, were detected by Exo-Spin™. In contrast, exosomal markers were present in the early fractions of SEC where the most abundant plasma proteins have been largely excluded. Noticeably, after a cross-comparative analysis of all published studies using MS to characterize plasma-derived exosomes from healthy individuals, we also observed a paucity of “classical exosome markers.” Independent of the isolation method, however, we consistently identified 2 proteins, CD5 antigen-like (CD5L) and galectin-3-binding protein (LGALS3BP), whose presence was validated by a bead-exosome FACS assay. Altogether, our results support the use of SEC as a stand-alone methodology to obtain preparations of extracellular vesicles, in the size range of exosomes, from plasma and suggest the use of CD5L and LGALS3BP as more suitable markers of plasma-derived vesicles in MS. Keywords : exosomes; low infrastructure settings; CD5L; LGALS3BP; comparative analysis; plasma-derived exosomes; mass spectrometry (Published: 6 July 2015) Citation: Journal of Extracellular Vesicles 2015, 4 : 27378 - http://dx.doi.org/10.3402/jev.v4.27378 SUPPLEMENTARY MATERIAL : To access the supplementary material to this article, please see Supplementary files under ‘Article Tools’.

Published

2015