Plasmodium Products Contribute to Severe Malarial Anemia by Inhibiting Erythropoietin-Induced Proliferation of Erythroid Precursors
Neeta Thawani,Mifong Tam,Marie-Josée Bellemare,D. Scott Bohle,Martin Olivier,J. Brian de Souza,J. Brian de Souza,Mary M. Stevenson +7 more
TL;DR: The findings suggest that parasite factors, including Hz, contribute to severe malarial anemia by suppressing Epo-induced proliferation of erythroid precursors.
read more
Abstract: Low reticulocytosis, indicating reduced red blood cell (RBC) output, is an important feature of severe malarial anemia. Evidence supports a role for Plasmodium products, especially hemozoin (Hz), in suppressed erythropoiesis during malaria, but the mechanism(s) involved remains unclear. Here, we demonstrated that low reticulocytosis and suppressed erythropoietin (Epo)-induced erythropoiesis are features of malarial anemia in Plasmodium yoelii- and Plasmodium berghei ANKA-infected mice, similar to our previous observations in Plasmodium chabaudi AS-infected mice. The magnitude of decreases in RBC was a reflection of parasitemia level, but low reticulocytosis was evident despite differences in parasitemia, clinical manifestation, and infection outcome. Schizont extracts and Hz from P. falciparum and P. yoelii and synthetic Hz suppressed Epo-induced proliferation of erythroid precursors in vitro but did not inhibit RBC maturation. To determine whether Hz contributes to malarial anemia, P. yoelii-derived or synthetic Hz was administered to naive mice, and the development of anemia, reticulocytosis, and RBC turnover was determined. Parasite-derived Hz induced significant decreases in RBC and increased RBC turnover with compensatory reticulocytosis, but anemia was not as severe as that in infected mice. Our findings suggest that parasite factors, including Hz, contribute to severe malarial anemia by suppressing Epo-induced proliferation of erythroid precursors.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Erythropoiesis in Malaria Infections and Factors Modifying the Erythropoietic Response
Vrushali Pathak,Kanjaksha Ghosh +1 more
TL;DR: This review summarizes the clinical and experimental studies on patients, mouse models, and in vitro cell cultures reporting erythropoietic changes upon malaria infection as well as factors accountable for the same.
Malaria induces anemia through CD8+ T cell-dependent parasite clearance and erythrocyte removal in the spleen
Innocent Safeukui,Noé D. Gomez,Noé D. Gomez,Aanuoluwa A. Adelani,Florence Burté,Nathaniel K. Afolabi,Rama Akondy,Peter Velázquez,Anthony A. Holder,Rita Tewari,Pierre Buffet,Biobele J. Brown,Wuraola A. Shokunbi,David O. Olaleye,Olugbemiro Sodeinde,Olugbemiro Sodeinde,James W. Kazura,Rafi Ahmed,Narla Mohandas,Delmiro Fernandez-Reyes,Delmiro Fernandez-Reyes,Kasturi Haldar +21 more
- 20 Jan 2015
TL;DR: Using an outbred-rat model, severe anemia is shown to be caused through CD8+ T cell-dependent parasite clearance and erythrocyte removal in the spleen, suggesting that immune mechanisms that clear parasites in organs trigger anemia.
34
Pathogenicity and virulence of malaria: Sticky problems and tricky solutions
TL;DR: In this paper , the authors review the latest developments in the immunogenicity and pathogenesis of malaria, with a particular focus on P. falciparum, the leading malaria killer.
29
Hemozoin in Malarial Complications: More Questions Than Answers.
TL;DR: The potential immunomodulatory effects of Hz, its role in malarial complications, and its potential effects after parasite clearance are critically assessed.
25
Integrative analysis associates monocytes with insufficient erythropoiesis during acute Plasmodium cynomolgi malaria in rhesus macaques.
Yan Tang,Yan Tang,Chester J. Joyner,Monica Cabrera-Mora,Celia L. Saney,Stacey A. Lapp,Mustafa V. Nural,Mustafa V. Nural,Suman B. Pakala,Suman B. Pakala,Jeremy D. DeBarry,Jeremy D. DeBarry,Stephanie Soderberg,Jessica C. Kissinger,Tracey J. Lamb,Tracey J. Lamb,Mary R. Galinski,Mary R. Galinski,Mark P. Styczynski,Mark P. Styczynski +19 more
TL;DR: The possibility that malarial anaemia may be driven by monocyte-associated disruption of GATA1/GATA2 function in erythroid progenitors resulting in insufficient erythropoiesis during acute infection is suggested.
References
Global malaria mortality between 1980 and 2010: a systematic analysis
Christopher J L Murray,Lisa C. Rosenfeld,Stephen S Lim,Kathryn G. Andrews,Kyle J Foreman,Diana Haring,Nancy Fullman,Mohsen Naghavi,Rafael Lozano,Alan D. Lopez +9 more
TL;DR: The findings show that the malaria mortality burden is larger than previously estimated, especially in adults, and there has been a rapid decrease in malaria mortality in Africa because of the scaling up of control activities supported by international donors.
1.5K
Innate immunity to malaria
TL;DR: The potential for innate immune mechanisms directed against Plasmodium parasites both to contribute to protection from malaria and to modulate adaptive immune responses is considered.
Toll-like receptor 9 mediates innate immune activation by the malaria pigment hemozoin
Cevayir Coban,Ken Ishii,Taro Kawai,Hiroaki Hemmi,Shintaro Sato,Satoshi Uematsu,Masahiro Yamamoto,Osamu Takeuchi,Sawako Itagaki,Nirbhay Kumar,Toshihiro Horii,Shizuo Akira +11 more
TL;DR: This work demonstrates that HZ purified from Plasmodium falciparum is a novel non-DNA ligand for Toll-like receptor (TLR)9, and activation by HZ activated innate immune responses in vivo and in vitro, resulting in the production of cytokines, chemokines, and up-regulation of costimulatory molecules.
The transferrin receptor: role in health and disease
TL;DR: Some cells and tissues with specific requirements for iron probably evolved mechanisms that can override the IRE/IRP-dependent control of transferrin receptor expression since in these cells elevated iron levels increase (rather than decrease) transferrin receptors mRNA and protein levels.
611
On the molecular mechanism of chloroquine's antimalarial action.
TL;DR: It is suggested that a quinoline heme complex incorporates into the growing polymer to terminate chain extension, blocking further sequestration of toxic heme.
538