CD4 receptor diversity represents an ancient protection mechanism against primate lentiviruses

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  • Ronnie M Russell
    University of Pennsylvania
  • Frederic Bibollet-Ruche
    University of Pennsylvania
  • Weimin Liu
    University of Pennsylvania
  • Scott Sherrill-Mix
    University of Pennsylvania
  • Yingying Li
    University of Pennsylvania
  • Jesse Connell
    University of Pennsylvania
  • Dorothy E Loy
    University of Pennsylvania
  • Stephanie Trimboli
    University of Pennsylvania
  • Andrew G Smith
    University of Pennsylvania
  • Alexa N Avitto
    University of Pennsylvania
  • Marcos V P Gondim
    University of Pennsylvania
  • Lindsey J Plenderleith
    University of Edinburgh
  • Katherine S Wetzel
    University of Pennsylvania
  • Ronald G Collman
    University of Pennsylvania
  • Ahidjo Ayouba
    University of Montpellier
  • Amandine Esteban
    University of Montpellier
  • Martine Peeters
    University of Montpellier
  • William J Kohler
    University of Michigan
  • Richard A Miller
    University of Michigan
  • Sandrine François-Souquiere
    University Hospital of Limoges
  • William M Switzer
    Centres for Disease Control and Prevention
  • Vanessa M Hirsch
    National Institute of Allergy and Infectious Diseases
  • Preston A Marx
    Tulane University
  • Alex K Piel
    University College London
  • Fiona A Stewart
    University College London
  • Alexander V Georgiev
    Harvard University
  • Volker Sommer
    University College London
  • Paco Bertolani
    University of Cambridge
  • John A Hart
    Lukuru Wildlife Research Foundation
  • Terese B Hart
    Lukuru Wildlife Research Foundation
  • George M Shaw
    University of Pennsylvania
  • Paul M Sharp
    University of Edinburgh
  • Beatrice H Hahn
    University of Pennsylvania
Infection with human and simian immunodeficiency viruses (HIV/SIV) requires binding of the viral envelope glycoprotein (Env) to the host protein CD4 on the surface of immune cells. Although invariant in humans, the Env binding domain of the chimpanzee CD4 is highly polymorphic, with nine coding variants circulating in wild populations. Here, we show that within-species CD4 diversity is not unique to chimpanzees but found in many African primate species. Characterizing the outermost (D1) domain of the CD4 protein in over 500 monkeys and apes, we found polymorphic residues in 24 of 29 primate species, with as many as 11 different coding variants identified within a single species. D1 domain amino acid replacements affected SIV Env-mediated cell entry in a single-round infection assay, restricting infection in a strain- and allele-specific fashion. Several identical CD4 polymorphisms, including the addition of -linked glycosylation sites, were found in primate species from different genera, providing striking examples of parallel evolution. Moreover, seven different guenons ( spp.) shared multiple distinct D1 domain variants, pointing to long-term trans-specific polymorphism. These data indicate that the HIV/SIV Env binding region of the primate CD4 protein is highly variable, both within and between species, and suggest that this diversity has been maintained by balancing selection for millions of years, at least in part to confer protection against primate lentiviruses. Although long-term SIV-infected species have evolved specific mechanisms to avoid disease progression, primate lentiviruses are intrinsically pathogenic and have left their mark on the host genome. [Abstract copyright: Copyright © 2021 the Author(s). Published by PNAS.]

Keywords

  • CD4, balancing selection, parallel evolution, primate lentiviruses, trans-specific polymorphism
Original languageEnglish
JournalProceedings of the National Academy of Sciences of the United States of America
Volume118
Issue number13
DOIs
Publication statusPublished - 26 Mar 2021

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