Loss of a Tyrosine-dependent Trafficking Motif in the Simian Immunodeficiency Virus Envelope Cytoplasmic Tail Spares Mucosal CD4 Cells but Does Not Prevent Disease Progression

Overview

Journal J Virol

Publisher American Society for Microbiology

Date 2012 Nov 16

PMID 23152518

Citations 26

Authors

Matthew W Breed

Andrea P O Jordan

Pyone P Aye

Cornelis F Lichtveld

Cecily C Midkiff

Faith R Schiro

Beth S Haggarty

Chie Sugimoto

Xavier Alvarez

Netanya G Sandler

Daniel C Douek

Marcelo J Kuroda

Bapi Pahar

Michael Piatak Jr

Jeffrey D Lifson

Brandon F Keele

James A Hoxie

Andrew A Lackner

Affiliations

Soon will be listed here.

Abstract

A hallmark of pathogenic simian immunodeficiency virus (SIV) and human immunodeficiency virus (HIV) infections is the rapid and near-complete depletion of mucosal CD4(+) T lymphocytes from the gastrointestinal tract. Loss of these cells and disruption of epithelial barrier function are associated with microbial translocation, which has been proposed to drive chronic systemic immune activation and disease progression. Here, we evaluate in rhesus macaques a novel attenuated variant of pathogenic SIVmac239, termed ΔGY, which contains a deletion of a Tyr and a proximal Gly from a highly conserved YxxØ trafficking motif in the envelope cytoplasmic tail. Compared to SIVmac239, ΔGY established a comparable acute peak of viremia but only transiently infected lamina propria and caused little or no acute depletion of mucosal CD4(+) T cells and no detectable microbial translocation. Nonetheless, these animals developed T-cell activation and declining peripheral blood CD4(+) T cells and ultimately progressed with clinical or pathological features of AIDS. ΔGY-infected animals also showed no infection of macrophages or central nervous system tissues even in late-stage disease. Although the ΔGY mutation persisted, novel mutations evolved, including the formation of new YxxØ motifs in two of four animals. These findings indicate that disruption of this trafficking motif by the ΔGY mutation leads to a striking alteration in anatomic distribution of virus with sparing of lamina propria and a lack of microbial translocation. Because these animals exhibited wild-type levels of acute viremia and immune activation, our findings indicate that these pathological events are dissociable and that immune activation unrelated to gut damage can be sufficient for the development of AIDS.

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References

Mori K, Rosenzweig M, Desrosiers R . Mechanisms for adaptation of simian immunodeficiency virus to replication in alveolar macrophages. J Virol. 2000; 74(22):10852-9. PMC: 110966. DOI: 10.1128/jvi.74.22.10852-10859.2000. View

Wyand M, Manson K, Montefiori D, Desrosiers R . Vaccine protection by a triple deletion mutant of simian immunodeficiency virus. J Virol. 1996; 70(6):3724-33. PMC: 190248. DOI: 10.1128/JVI.70.6.3724-3733.1996. View

Berlioz-Torrent C, Shacklett B, Erdtmann L, Delamarre L, Bouchaert I, Sonigo P . Interactions of the cytoplasmic domains of human and simian retroviral transmembrane proteins with components of the clathrin adaptor complexes modulate intracellular and cell surface expression of envelope glycoproteins. J Virol. 1999; 73(2):1350-61. PMC: 103959. DOI: 10.1128/JVI.73.2.1350-1361.1999. View

Bosinger S, Sodora D, Silvestri G . Generalized immune activation and innate immune responses in simian immunodeficiency virus infection. Curr Opin HIV AIDS. 2011; 6(5):411-8. PMC: 3261611. DOI: 10.1097/COH.0b013e3283499cf6. View

Brenchley J, Price D, Schacker T, Asher T, Silvestri G, Rao S . Microbial translocation is a cause of systemic immune activation in chronic HIV infection. Nat Med. 2006; 12(12):1365-71. DOI: 10.1038/nm1511. View

Cicala C, Martinelli E, McNally J, Goode D, Gopaul R, Hiatt J . The integrin alpha4beta7 forms a complex with cell-surface CD4 and defines a T-cell subset that is highly susceptible to infection by HIV-1. Proc Natl Acad Sci U S A. 2009; 106(49):20877-82. PMC: 2780317. DOI: 10.1073/pnas.0911796106. View

Lane J, Sasseville V, Smith M, Vogel P, Pauley D, Heyes M . Neuroinvasion by simian immunodeficiency virus coincides with increased numbers of perivascular macrophages/microglia and intrathecal immune activation. J Neurovirol. 1996; 2(6):423-32. DOI: 10.3109/13550289609146909. View

de la Cruz J, Ali A, Ng H, Yang O . Disruption of an env tyrosine-dependent sorting signal does not affect susceptibility of HIV-1 to cytotoxic T lymphocytes. AIDS. 2009; 23(11):1449-51. PMC: 2850051. DOI: 10.1097/QAD.0b013e32832dbf91. View

Kuller L, Tracy R, Belloso W, De Wit S, Drummond F, Lane H . Inflammatory and coagulation biomarkers and mortality in patients with HIV infection. PLoS Med. 2008; 5(10):e203. PMC: 2570418. DOI: 10.1371/journal.pmed.0050203. View

10.

Munch J, Stolte N, Fuchs D, Stahl-Hennig C, Kirchhoff F . Efficient class I major histocompatibility complex down-regulation by simian immunodeficiency virus Nef is associated with a strong selective advantage in infected rhesus macaques. J Virol. 2001; 75(21):10532-6. PMC: 114633. DOI: 10.1128/JVI.75.21.10532-10536.2001. View

11.

Ling B, Veazey R, Luckay A, Penedo C, Xu K, Lifson J . SIV(mac) pathogenesis in rhesus macaques of Chinese and Indian origin compared with primary HIV infections in humans. AIDS. 2002; 16(11):1489-96. DOI: 10.1097/00002030-200207260-00005. View

12.

Chahroudi A, Bosinger S, Vanderford T, Paiardini M, Silvestri G . Natural SIV hosts: showing AIDS the door. Science. 2012; 335(6073):1188-93. PMC: 3822437. DOI: 10.1126/science.1217550. View

13.

Koff W, Johnson P, Watkins D, Burton D, Lifson J, Hasenkrug K . HIV vaccine design: insights from live attenuated SIV vaccines. Nat Immunol. 2005; 7(1):19-23. DOI: 10.1038/ni1296. View

14.

Estes J, Harris L, Klatt N, Tabb B, Pittaluga S, Paiardini M . Damaged intestinal epithelial integrity linked to microbial translocation in pathogenic simian immunodeficiency virus infections. PLoS Pathog. 2010; 6(8):e1001052. PMC: 2924359. DOI: 10.1371/journal.ppat.1001052. View

15.

Van Rompay K, Greenier J, Cole K, Earl P, Moss B, Steckbeck J . Immunization of newborn rhesus macaques with simian immunodeficiency virus (SIV) vaccines prolongs survival after oral challenge with virulent SIVmac251. J Virol. 2002; 77(1):179-90. PMC: 140621. DOI: 10.1128/jvi.77.1.179-190.2003. View

16.

Pandrea I, Apetrei C, Dufour J, Dillon N, Barbercheck J, Metzger M . Simian immunodeficiency virus SIVagm.sab infection of Caribbean African green monkeys: a new model for the study of SIV pathogenesis in natural hosts. J Virol. 2006; 80(10):4858-67. PMC: 1472068. DOI: 10.1128/JVI.80.10.4858-4867.2006. View

17.

Hunt P, Brenchley J, Sinclair E, McCune J, Roland M, Page-Shafer K . Relationship between T cell activation and CD4+ T cell count in HIV-seropositive individuals with undetectable plasma HIV RNA levels in the absence of therapy. J Infect Dis. 2008; 197(1):126-33. PMC: 3466592. DOI: 10.1086/524143. View

18.

Sodora D, Silvestri G . HIV, mucosal tissues, and T helper 17 cells: where we come from, where we are, and where we go from here. Curr Opin HIV AIDS. 2010; 5(2):111-3. DOI: 10.1097/COH.0b013e328335c18f. View

19.

Mori K, Ringler D, Kodama T, Desrosiers R . Complex determinants of macrophage tropism in env of simian immunodeficiency virus. J Virol. 1992; 66(4):2067-75. PMC: 288997. DOI: 10.1128/JVI.66.4.2067-2075.1992. View

20.

Klatt N, Canary L, Vanderford T, Vinton C, Engram J, Dunham R . Dynamics of simian immunodeficiency virus SIVmac239 infection in pigtail macaques. J Virol. 2011; 86(2):1203-13. PMC: 3255820. DOI: 10.1128/JVI.06033-11. View