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

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 MeibalanMatthias 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, Nicholas M. Anstey

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Abstract

Background
A 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 findings
We 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.

Conclusions
Immature 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.
Original languageEnglish
Article number1003632
Pages (from-to)1-35
Number of pages35
JournalPLoS Medicine
Volume18
Issue number5
Early online date2021
DOIs
Publication statusPublished - 26 May 2021

Bibliographical note

Funding Information:
This work was supported by the Australian National Health and Medical Research Council (Program Grant #1037304, Fellowships to NA [#1042072 and #1135820], and ?Improving Health Outcomes in the Tropical North (HOTNORTH): A multidisciplinary collaboration [#1131932], and the Australian Centre of Research Excellence in Malaria Elimination), the Paris Ile-de-France Region under ? DIM Th?rapie g?nique? and ? DIM Maladies Infectieuses? initiatives (awarded to PAB and BH), the French Institut National de la Sant? Et de la Recherche M?dicale (INSERM), the University of Paris, the Laboratory of excellence GREx, the Bill and Melinda Gates Foundation (BMGF OPP1123683), and the ? Sauver la Vie Foundation? (to PAB), the Wellcome Trust (Grant #099875 awarded to JRP and Senior Fellowship in Clinical Science awarded to RNP [#200909]), an Australian Government Postgraduate Award Scholarship and OzEMalaR Travel award (awarded to SK), a Royal Society Wolfson Research Merit award (awarded to MM), the Singapore National Medical Research Council (award to TWY [CSA INV 15nov007]), and the Australian Department of Foreign Affairs and Trade. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Publisher Copyright:
© 2021 Kho et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.

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