Plasmodium vivax infection alters the peripheral immunoregulatory network of CD4 T follicular cells and B cells.

التفاصيل البيبلوغرافية
العنوان:	Plasmodium vivax infection alters the peripheral immunoregulatory network of CD4 T follicular cells and B cells.
المؤلفون:	Ferreira NS; Department of Parasitology, Institute of Biomedical Sciences, University of São Paulo, São Paulo, Brazil., Lima NF; Department of Parasitology, Institute of Biomedical Sciences, University of São Paulo, São Paulo, Brazil., Sulczewski FB; Department of Parasitology, Institute of Biomedical Sciences, University of São Paulo, São Paulo, Brazil., Soares IS; Department of Clinical and Toxicological Analyses, University of São Paulo, São Paulo, Brazil., Ferreira MU; Department of Parasitology, Institute of Biomedical Sciences, University of São Paulo, São Paulo, Brazil.; Global Health and Tropical Medicine, Institute of Hygiene and Tropical Medicine, NOVA University of Lisbon, Lisbon, Portugal., Boscardin SB; Department of Parasitology, Institute of Biomedical Sciences, University of São Paulo, São Paulo, Brazil.
المصدر:	European journal of immunology [Eur J Immunol] 2023 Aug; Vol. 53 (8), pp. e2350372. Date of Electronic Publication: 2023 May 24.
نوع المنشور:	Journal Article; Research Support, N.I.H., Extramural; Research Support, Non-U.S. Gov't
اللغة:	English
بيانات الدورية:	Publisher: Wiley-VCH Country of Publication: Germany NLM ID: 1273201 Publication Model: Print-Electronic Cited Medium: Internet ISSN: 1521-4141 (Electronic) Linking ISSN: 00142980 NLM ISO Abbreviation: Eur J Immunol Subsets: MEDLINE
أسماء مطبوعة:	Publication: <2005->: Weinheim : Wiley-VCH Original Publication: Weinheim, Verlag Chemie GmbH.
مواضيع طبية MeSH:	Plasmodium vivax/physiology , Malaria, Vivax, Adult ; Humans ; CTLA-4 Antigen ; T-Lymphocytes, Helper-Inducer ; CD4-Positive T-Lymphocytes
مستخلص:	Regulatory and effector cell responses to Plasmodium vivax, the most common human malaria parasite outside Africa, remain understudied in naturally infected populations. Here, we describe peripheral CD4 ⁺ T- and B-cell populations during and shortly after an uncomplicated P. vivax infection in 38 continuously exposed adult Amazonians. Consistent with previous observations, we found an increased frequency in CD4 ⁺ CD45RA ^- CD25 ⁺ FoxP3 ⁺ T regulatory cells that express the inhibitory molecule CTLA-4 during the acute infection, with a sustained expansion of CD21 ^- CD27 ^- atypical memory cells within the CD19 ⁺ B-cell compartment. Both Th1- and Th2-type subsets of CXCR5 ⁺ ICOS ^hi PD-1 ⁺ circulating T follicular helper (cTfh) cells, which are thought to contribute to antibody production, were induced during P. vivax infection, with a positive correlation between overall cTfh cell frequency and IgG antibody titers to the P. vivax blood-stage antigen MSP1 19 . We identified significant changes in cell populations that had not been described in human malaria, such as an increased frequency of CTLA-4 ⁺ T follicular regulatory cells that antagonize Tfh cells, and a decreased frequency of circulating CD24 ^hi CD27 ⁺ B regulatory cells in response to acute infection. In conclusion, we disclose a complex immunoregulatory network that is critical to understand how naturally acquired immunity develops in P. vivax malaria. (© 2023 Wiley-VCH GmbH.)
References:	Battle, K. E., Lucas, T. C. D., Nguyen, M., Howes, R. E., Nandi, A. K., Twohig, K. A., Pfeffer, D. A., et al., Mapping the global endemicity and clinical burden of Plasmodium vivax, 2000-17: a spatial and temporal modelling study. Lancet 2019. 394: 332-343. Weiss, D. J., Lucas, T. C. D., Nguyen, M., Nandi, A. K., Bisanzio, D., Battle, K. E., Cameron, E., et al., Mapping the global prevalence, incidence, and mortality of Plasmodium falciparum, 2000-17: a spatial and temporal modelling study. Lancet 2019. 394: 322-331. Kurup, S. P., Obeng-Adjei, N., Anthony, S. M., Traore, B., Doumbo, O. K., Butler, N. S., Crompton, P. D., et al., Regulatory T cells impede acute and long-term immunity to blood-stage malaria through CTLA-4. Nat. Med. 2017. 23: 1220-1225. Gbedande, K., Carpio, V. H. and Stephens, R., Using two phases of the CD4 T cell response to blood-stage murine malaria to understand regulation of systemic immunity and placental pathology in Plasmodium falciparum infection. Immunol. Rev. 2020. 293: 88-114. Locci, M., Havenar-Daughton, C., Landais, E., Wu, J., Kroenke, M. A., Arlehamn, C. L., Su, L. F., et al., Human circulating PD-1+CXCR3-CXCR5+ memory Tfh cells are highly functional and correlate with broadly neutralizing HIV antibody responses. Immunity 2013. 39: 758-769. Reinhardt, R. L., Liang, H. E. and Locksley, R. M., Cytokine-secreting follicular T cells shape the antibody repertoire. Nat. Immunol. 2009. 10: 385-393. Chan, J. A., Loughland, J. R., de Labastida Rivera, F., SheelaNair, A., Andrew, D. W., Dooley, N. L., Wines, B. D., et al., Th2-like T follicular helper cells promote functional antibody production during Plasmodium falciparum infection. Cell Rep. Med. 2020. 1: 100157. Morita, R., Schmitt, N., Bentebibel, S. E., Ranganathan, R., Bourdery, L., Zurawski, G., Foucat, E., et al., Human blood CXCR5(+)CD4(+) T cells are counterparts of T follicular cells and contain specific subsets that differentially support antibody secretion. Immunity 2011. 34: 108-121. Obeng-Adjei, N., Portugal, S., Tran, T. M., Yazew, T. B., Skinner, J., Li, S., Jain, A., et al., Circulating Th1-cell-type Tfh cells that exhibit impaired B cell help are preferentially activated during acute malaria in children. Cell Rep. 2015. 13: 425-439. Hviid, L., Barfod, L. and Fowkes, F. J., Trying to remember: immunological B cell memory to malaria. Trends Parasitol. 2015. 31: 89-94. Sage, P. T. and Sharpe, A. H., The multifaceted functions of follicular regulatory T cells. Curr. Opin. Immunol. 2020. 67: 68-74. Hasan, M. M., Thompson-Snipes, L., Klintmalm, G., Demetris, A. J., O'Leary, J., Oh, S. and Joo, H., CD24(hi)CD38(hi) and CD24(hi)CD27(+) human regulatory B cells display common and distinct functional characteristics. J. Immunol. 2019. 203: 2110-2120. Yap, X. Z., Hustin, L. S. P. and Sauerwein, R. W., TH1-polarized TFH cells delay naturally-acquired immunity to malaria. Front. Immunol. 2019. 10: 1096. Antonelli, L. R., Junqueira, C., Vinetz, J. M., Golenbock, D. T., Ferreira, M. U. and Gazzinelli, R. T., The immunology of Plasmodium vivax malaria. Immunol. Rev. 2020. 293: 163-189. Goncalves, R. M., Salmazi, K. C., Santos, B. A., Bastos, M. S., Rocha, S. C., Boscardin, S. B., Silber, A. M., et al., CD4+ CD25+ Foxp3+ regulatory T cells, dendritic cells, and circulating cytokines in uncomplicated malaria: do different parasite species elicit similar host responses? Infect. Immun. 2010. 78: 4763-4772. Kanjee, U., Rangel, G. W., Clark, M. A. and Duraisingh, M. T., Molecular and cellular interactions defining the tropism of Plasmodium vivax for reticulocytes. Curr. Opin. Microbiol. 2018. 46: 109-115. Wahlgren, M., Goel, S. and Akhouri, R. R., Variant surface antigens of Plasmodium falciparum and their roles in severe malaria. Nat. Rev. Microbiol. 2017. 15: 479-491. Carvalho, B. O., Lopes, S. C., Nogueira, P. A., Orlandi, P. P., Bargieri, D. Y., Blanco, Y. C., Mamoni, R., et al., On the cytoadhesion of Plasmodium vivax-infected erythrocytes. J. Infect. Dis. 2010. 202: 638-647. Lopes, S. C., Albrecht, L., Carvalho, B. O., Siqueira, A. M., Thomson-Luque, R., Nogueira, P. A., Fernandez-Becerra, C., et al., Paucity of Plasmodium vivax mature schizonts in peripheral blood is associated with their increased cytoadhesive potential. J. Infect. Dis. 2014. 209: 1403-1407. White, N. J. and Imwong, M., Relapse. Adv. Parasitol. 2012. 80: 113-150. Longley, R. J., Sattabongkot, J. and Mueller, I., Insights into the naturally acquired immune response to Plasmodium vivax malaria. Parasitology 2016. 143: 154-170. Mueller, I., Galinski, M. R., Tsuboi, T., Arevalo-Herrera, M., Collins, W. E. and King, C. L., Natural acquisition of immunity to Plasmodium vivax: epidemiological observations and potential targets. Adv. Parasitol. 2013. 81: 77-131. McKenzie, F. E., Prudhomme, W. A., Magill, A. J., Forney, J. R., Permpanich, B., Lucas, C., Gasser, R. A. Jr., et al., White blood cell counts and malaria. J. Infect. Dis. 2005. 192: 323-330. Bueno, L. L., Morais, C. G., Araujo, F. F., Gomes, J. A., Correa-Oliveira, R., Soares, I. S., Lacerda, M. V., et al., Plasmodium vivax: induction of CD4+CD25+FoxP3+ regulatory T cells during infection are directly associated with level of circulating parasites. PLoS One 2010. 5: e9623. Costa, P. A., Leoratti, F. M., Figueiredo, M. M., Tada, M. S., Pereira, D. B., Junqueira, C., Soares, I. S., et al., Induction of inhibitory receptors on T cells during Plasmodium vivax malaria impairs cytokine production. J. Infect. Dis. 2015. 212: 1999-2010. Corder, R. M., Paula, G. A., Pincelli, A. and Ferreira, M. U., Statistical modeling of surveillance data to identify correlates of urban malaria risk: a population-based study in the Amazon Basin. PLoS One 2019. 14: e0220980. Figueiredo, M. M., Costa, P. A. C., Diniz, S. Q., Henriques, P. M., Kano, F. S., Tada, M. S., Pereira, D. B., et al., T follicular helper cells regulate the activation of B lymphocytes and antibody production during Plasmodium vivax infection. PLoS Pathog. 2017. 13: e1006484. Patgaonkar, M., Herbert, F., Powale, K., Gandhe, P., Gogtay, N., Thatte, U., Pied, S., et al., Vivax infection alters peripheral B-cell profile and induces persistent serum IgM. Parasite Immunol. 2018. 40: e12580. Soares, R. R., Cunha, C. F., Ferraz-Nogueira, R., Marins-Dos-Santos, A., Rodrigues-da-Silva, R. N., da Silva Soares, I., da Costa Lima-Junior, J., et al., Apical membrane protein 1-specific antibody profile and temporal changes in peripheral blood B-cell populations in Plasmodium vivax malaria. Parasite Immunol. 2019. 41: e12662. Zaimoku, Y., Patel, B. A., Kajigaya, S., Feng, X., Alemu, L., Quinones Raffo, D., Groarke, E. M., et al., Deficit of circulating CD19(+) CD24(hi) CD38(hi) regulatory B cells in severe aplastic anaemia. Br. J. Haematol. 2020. 190: 610-617. Han, X., Yang, J., Zhang, Y., Zhang, Y., Cao, H., Cao, Y. and Qi, Z., Potential role for regulatory B cells as a major source of interleukin-10 in spleen from Plasmodium chabaudi-infected mice. Infect. Immun. 2018. 86: e00016-18. Kalkal, M., Chauhan, R., Thakur, R. S., Tiwari, M., Pande, V. and Das, J., IL-10 producing regulatory B cells mediated protection against murine malaria pathogenesis. Exp. Biol. Med. (Basel) 2022. 11: 669. Liu, Y., Chen, Y., Li, Z., Han, Y., Sun, Y., Wang, Q., Liu, B., et al., Role of IL-10-producing regulatory B cells in control of cerebral malaria in Plasmodium berghei infected mice. Eur. J. Immunol. 2013. 43: 2907-2918. Soares, R. R., Antinarelli, L. M. R., Abramo, C., Macedo, G. C., Coimbra, E. S. and Scopel, K. K. G., What do we know about the role of regulatory B cells (Breg) during the course of infection of two major parasitic diseases, malaria and leishmaniasis? Pathog. Glob. Health 2017. 111: 107-115. Takenaka, M. C., Robson, S. and Quintana, F. J., Regulation of the T cell response by CD39. Trends Immunol. 2016. 37: 427-439. Figueiro, F., Muller, L., Funk, S., Jackson, E. K., Battastini, A. M. and Whiteside, T. L., Phenotypic and functional characteristics of CD39(high) human regulatory B cells (Breg). Oncoimmunology 2016. 5: e1082703. Huang, Y., Chen, Z., Wang, H., Ba, X., Shen, P., Lin, W., Wang, Y., et al., Follicular regulatory T cells: a novel target for immunotherapy? Clin. Transl. Immunol. 2020. 9: e1106. Crotty, S. and Follicular T., Helper cell biology: a decade of discovery and diseases. Immunity 2019. 50: 1132-1148. Sage, P. T., Paterson, A. M., Lovitch, S. B. and Sharpe, A. H., The coinhibitory receptor CTLA-4 controls B cell responses by modulating T follicular helper, T follicular regulatory, and T regulatory cells. Immunity 2014. 41: 1026-1039. Wing, J. B., Ise, W., Kurosaki, T. and Sakaguchi, S., Regulatory T cells control antigen-specific expansion of Tfh cell number and humoral immune responses via the coreceptor CTLA-4. Immunity 2014. 41: 1013-1025. Fonseca, V. R., Agua-Doce, A., Maceiras, A. R., Pierson, W., Ribeiro, F., Romao, V. C., Pires, A. R., et al., Human blood Tfr cells are indicators of ongoing humoral activity not fully licensed with suppressive function. Sci. Immunol. 2017. 2: eaan1487. Obeng-Adjei, N., Portugal, S., Holla, P., Li, S., Sohn, H., Ambegaonkar, A., Skinner, J., et al., Malaria-induced interferon-gamma drives the expansion of Tbethi atypical memory B cells. PLoS Pathog. 2017. 13: e1006576. Chan, J. A., Loughland, J. R., de la Parte, L., Okano, S., Ssewanyana, I., Nalubega, M., Nankya, F., et al., Age-dependent changes in circulating Tfh cells influence development of functional malaria antibodies in children. Nat. Commun. 2022. 13: 4159. Oyong, D. A., Loughland, J. R., Soon, M. S. F., Chan, J. A., Andrew, D., Wines, B. D., Hogarth, P. M., et al., Adults with Plasmodium falciparum malaria have higher magnitude and quality of circulating T-follicular helper cells compared to children. E. Bio. Med. 2022. 75: 103784. Rosser, E. C. and Mauri, C., Regulatory B cells: Origin, phenotype, and function. Immunity 2015. 42: 607-612. Flores-Borja, F., Bosma, A., Ng, D., Reddy, V., Ehrenstein, M. R., Isenberg, D. A. and Mauri, C., CD19+CD24hiCD38hi B cells maintain regulatory T cells while limiting TH1 and TH17 differentiation. Sci. Transl. Med. 2013. 5: 173ra123. Reis, I. C., Honorio, N. A., Barros, F. S., Barcellos, C., Kitron, U., Camara, D. C., Pereira, G. R., et al., Epidemic and endemic malaria transmission related to fish farming ponds in the amazon frontier. PLoS One 2015. 10: e0137521. Ladeia-Andrade, S., Menezes, M. J., de Sousa, T. N., Silvino, A. C. R., de Carvalho, J. F. Jr., Salla, L. C., Nery, O. A., et al., Monitoring the efficacy of chloroquine-primaquine therapy for uncomplicated Plasmodium vivax malaria in the main transmission hot spot of Brazil. Antimicrob. Agents Chemother. 2019. 63: e01965-18. Vicentin, E. C., Francoso, K. S., Rocha, M. V., Iourtov, D., Dos Santos, F. L., Kubrusly, F. S., Sakauchi, M. A., et al., Invasion-inhibitory antibodies elicited by immunization with Plasmodium vivax apical membrane antigen-1 expressed in Pichia pastoris yeast. Infect. Immun. 2014. 82: 1296-1307. Cunha, M. G., Rodrigues, M. M. and Soares, I. S., Comparison of the immunogenic properties of recombinant proteins representing the Plasmodium vivax vaccine candidate MSP1(19) expressed in distinct bacterial vectors. Vaccine 2001. 20: 385-396.
معلومات مُعتمدة:	U19 AI089681 United States NH NIH HHS
فهرسة مساهمة:	Keywords: CTLA-4; Memory B cells; Plasmodium vivax; T follicular helper (Tfh) cells; T follicular regulatory (Tfr) cells
المشرفين على المادة:	0 (CTLA-4 Antigen)
تواريخ الأحداث:	Date Created: 20230509 Date Completed: 20230814 Latest Revision: 20230815
رمز التحديث:	20240628
DOI:	10.1002/eji.202350372
PMID:	37160134
قاعدة البيانات:	MEDLINE

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تدمد:	1521-4141
DOI:	10.1002/eji.202350372