Your search keyword '"Fernandez-Becerra C"' showing total 6 results

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

Author

Fernandez-Becerra C, Aparici-Herraiz I, and Del Portillo HA

Subjects

Animals, Antimalarials therapeutic use, Exosomes parasitology, Humans, Malaria, Vivax drug therapy, Malaria, Vivax epidemiology, Plasmodium vivax, Reticulocytes parasitology, Reticulocytes ultrastructure, Bone Marrow parasitology, Erythrocytes parasitology, Malaria, Vivax blood, Malaria, Vivax prevention & control, Spleen parasitology

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., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

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

Author

Kho S, Qotrunnada L, Leonardo L, Andries B, Wardani PAI, Fricot A, Henry B, Hardy D, Margyaningsih NI, Apriyanti D, Puspitasari AM, Prayoga P, Trianty L, Kenangalem E, Chretien F, Safeukui I, Del Portillo HA, Fernandez-Becerra C, Meibalan E, Marti M, Price RN, Woodberry T, Ndour PA, Russell BM, Yeo TW, Minigo G, Noviyanti R, Poespoprodjo JR, Siregar NC, Buffet PA, and Anstey NM

Subjects

Adolescent, Adult, Animals, Asymptomatic Infections, Biomass, Child, Female, Humans, Malaria, Falciparum parasitology, Malaria, Vivax parasitology, Male, Splenectomy, Young Adult, Erythrocytes parasitology, Plasmodium falciparum isolation & purification, Plasmodium vivax isolation & purification, Spleen parasitology

Published

2021

3. A functional microengineered model of the human splenon-on-a-chip.

Author

Rigat-Brugarolas LG, Elizalde-Torrent A, Bernabeu M, De Niz M, Martin-Jaular L, Fernandez-Becerra C, Homs-Corbera A, Samitier J, and del Portillo HA

Subjects

Biomimetics instrumentation, Equipment Design, Erythrocyte Deformability, Erythrocytes parasitology, Hematocrit instrumentation, Humans, Malaria blood, Microcirculation, Microfluidic Analytical Techniques instrumentation, Microscopy, Video, Plasmodium falciparum physiology, Spleen blood supply, Spleen immunology, Biomimetics methods, Erythrocytes physiology, Microfluidic Analytical Techniques methods, Spleen cytology

Abstract

The spleen is a secondary lymphoid organ specialized in the filtration of senescent, damaged, or infected red blood cells. This unique filtering capacity is largely due to blood microcirculation through filtration beds of the splenic red pulp in an open-slow microcirculation compartment where the hematocrit increases, facilitating the recognition and destruction of unhealthy red blood cells by specialized macrophages. Moreover, in sinusal spleens such as those of humans, blood in the open-slow microcirculation compartment has a unidirectional passage through interendothelial slits before reaching the venous system. This further physical constraint represents a second stringent test for erythrocytes ensuring elimination of those cells lacking deformability. With the aim of replicating the filtering function of the spleen on a chip, we have designed a novel microengineered device mimicking the hydrodynamic forces and the physical properties of the splenon, the minimal functional unit of the red pulp able to maintain filtering functions. In this biomimetic platform, we have evaluated the mechanical and physiological responses of the splenon using human red blood cells and malaria-infected cells. This novel device should facilitate future functional studies of the spleen in relation to malaria and other hematological disorders.

Published

2014

4. Paucity of Plasmodium vivax mature schizonts in peripheral blood is associated with their increased cytoadhesive potential.

Author

Lopes SC, Albrecht L, Carvalho BO, Siqueira AM, Thomson-Luque R, Nogueira PA, Fernandez-Becerra C, Del Portillo HA, Russell BM, Rénia L, Lacerda MV, and Costa FT

Subjects

Antimalarials therapeutic use, Chloroquine therapeutic use, Humans, Malaria, Vivax drug therapy, Parasitemia blood, Parasitemia parasitology, Plasmodium vivax growth & development, Primaquine therapeutic use, Schizonts physiology, Statistics, Nonparametric, Cell Adhesion physiology, Erythrocytes parasitology, Malaria, Vivax blood, Malaria, Vivax parasitology, Plasmodium vivax physiology

Abstract

There is now a growing body of evidence that challenges the current view that Plasmodium vivax-infected erythrocyte (Pv-iE) are unable to sequester. Here we used ex vivo adhesion assays with Pv-iE before and after maturation to demonstrate a higher binding potential of schizonts compared to other asexual stages. These experimental results are correlated with our observations in a panel of 50 vivax malaria patients where schizonts were completely absent in 27 isolates, and few schizonts were observed in the remaining patients. These observations prompt a paradigm shift in P. vivax biology and open avenues to investigate the role of Pv-iE sequestration.

Published

2014

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

Author

Fernandez-Becerra C, Lelievre J, Ferrer M, Anton N, Thomson R, Peligero C, Almela MJ, Lacerda MV, Herreros E, and Del Portillo HA

Subjects

Cell Differentiation, Coculture Techniques methods, Humans, Reticulocytes cytology, Reticulocytes parasitology, Antigens, CD34 isolation & purification, Erythrocytes parasitology, Hematopoietic Stem Cells parasitology, Malaria blood, Malaria, Vivax, Plasmodium falciparum

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

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

Author

Costa FT, Lopes SC, Ferrer M, Leite JA, Martin-Jaular L, Bernabeu M, Nogueira PA, Mourão MP, Fernandez-Becerra C, Lacerda MV, and del Portillo H

Subjects

Cell Adhesion, Erythrocytes physiology, Humans, Malaria, Vivax pathology, Plasmodium vivax physiology, Erythrocytes parasitology, Malaria, Vivax parasitology, Plasmodium vivax pathogenicity

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