Low CCR5 expression protects HIV-specific CD4+ T cells of elite controllers from viral entry

被引:0
|
作者
Mathieu Claireaux
Rémy Robinot
Jérôme Kervevan
Mandar Patgaonkar
Isabelle Staropoli
Anne Brelot
Alexandre Nouël
Stacy Gellenoncourt
Xian Tang
Mélanie Héry
Stevenn Volant
Emeline Perthame
Véronique Avettand-Fenoël
Julian Buchrieser
Thomas Cokelaer
Christiane Bouchier
Laurence Ma
Faroudy Boufassa
Samia Hendou
Valentina Libri
Milena Hasan
David Zucman
Pierre de Truchis
Olivier Schwartz
Olivier Lambotte
Lisa A. Chakrabarti
机构
[1] Université de Paris,Virus and Immunity Unit, Institut Pasteur
[2] CNRS UMR3569,Bioinformatics and Biostatistics Hub, Department of Computational Biology, Institut Pasteur
[3] Université de Paris,AP
[4] Laboratoire de Microbiologie clinique,HP Hôpital Necker
[5] Université Paris Descartes,Enfants Malades
[6] Sorbonne Paris Cité,CNRS 8104, INSERM U1016
[7] Faculté de Médecine,Biomics Platform, C2RT, Institut Pasteur
[8] Université de Paris,Cytometry and Biomarkers (CB UTechS), Translational Research Center, Institut Pasteur
[9] INSERM U1018,AP
[10] Center for Research in Epidemiology and Population Health (CESP),HP, Infectious and Tropical Diseases Department
[11] Université de Paris,AP
[12] HIV Unit,HP, Department of Internal Medicine and Clinical Immunology
[13] Foch Hospital,undefined
[14] Raymond Poincaré Hospital,undefined
[15] INSERM U1184,undefined
[16] Université Paris Sud,undefined
[17] CEA,undefined
[18] Center for Immunology of Viral Infections and Autoimmune Diseases,undefined
[19] University Hospital Paris Sud,undefined
来源
Nature Communications | / 13卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
HIV elite controllers maintain a population of CD4 + T cells endowed with high avidity for Gag antigens and potent effector functions. How these HIV-specific cells avoid infection and depletion upon encounter with the virus remains incompletely understood. Ex vivo characterization of single Gag-specific CD4 + T cells reveals an advanced Th1 differentiation pattern in controllers, except for the CCR5 marker, which is downregulated compared to specific cells of treated patients. Accordingly, controller specific CD4 + T cells show decreased susceptibility to CCR5-dependent HIV entry. Two controllers carried biallelic mutations impairing CCR5 surface expression, indicating that in rare cases CCR5 downregulation can have a direct genetic cause. Increased expression of β-chemokine ligands upon high-avidity antigen/TCR interactions contributes to autocrine CCR5 downregulation in controllers without CCR5 mutations. These findings suggest that genetic and functional regulation of the primary HIV coreceptor CCR5 play a key role in promoting natural HIV control.
引用
收藏
相关论文
共 50 条
  • [1] Low CCR5 expression protects HIV-specific CD4+T cells of elite controllers from viral entry
    Claireaux, Mathieu
    Robinot, Remy
    Kervevan, Jerome
    Patgaonkar, Mandar
    Staropoli, Isabelle
    Brelot, Anne
    Nouel, Alexandre
    Gellenoncourt, Stacy
    Tang, Xian
    Hery, Melanie
    Volant, Stevenn
    Perthame, Emeline
    Avettand-Fenoel, Veronique
    Buchrieser, Julian
    Cokelaer, Thomas
    Bouchier, Christiane
    Ma, Laurence
    Boufassa, Faroudy
    Hendou, Samia
    Libri, Valentina
    Hasan, Milena
    Zucman, David
    de Truchis, Pierre
    Schwartz, Olivier
    Lambotte, Olivier
    Chakrabarti, Lisa A.
    NATURE COMMUNICATIONS, 2022, 13 (01)
  • [2] Low CCR5 Expression Protects Specific CD4+T Cells of HIV Controllers From Viral Entry
    Claireaux, Mathieu
    Robinot, Remy
    Staropoli, Isabelle
    Brelot, Anne
    Hery, Melanie
    Patgaonkar, Mandar
    Nouel, Alexandre
    Volant, Stevenn
    Perthame, Emeline
    Boufassa, Faroudy
    Zucman, David
    de Truchis, Pierre
    Lambotte, Olivier
    Chakrabarti, Lisa A.
    AIDS RESEARCH AND HUMAN RETROVIRUSES, 2018, 34 : 175 - 175
  • [3] HIV-Specific CD4+ T Cells May Contribute to Viral Persistence in HIV Controllers
    Hunt, Peter W.
    Hatano, Hiroyu
    Sinclair, Elizabeth
    Lee, Tzong-Hae
    Busch, Michael P.
    Martin, Jeffrey N.
    McCune, Joseph M.
    Deeks, Steven G.
    CLINICAL INFECTIOUS DISEASES, 2011, 52 (05) : 681 - 687
  • [4] HIV-specific CD4+ T-cells may contribute to viral persistence in HIV-infected elite controllers
    Hunt, P. W.
    Hatano, H.
    Sinclair, E.
    Delwart, E. L.
    Lee, T. H.
    Busch, M. P.
    Hoh, R.
    Grossman, Z.
    Martin, J. N.
    Deeks, S. G.
    ANTIVIRAL THERAPY, 2009, 14 (04) : A7 - A7
  • [5] Are HIV-specific CD4+ T cells useless?
    Vanham, G
    BLOOD, 2006, 107 (04) : 1253 - 1253
  • [6] HIV-Specific CD8+ T Cells from Elite Controllers Are Primed for Survival
    Yan, Jiyu
    Sabbaj, Steffanie
    Bansal, Anju
    Amatya, Nilesh
    Shacka, John J.
    Goepfert, Paul A.
    Heath, Sonya L.
    JOURNAL OF VIROLOGY, 2013, 87 (09) : 5170 - 5181
  • [7] HIV preferentially infects HIV-specific CD4+ T cells
    Douek, DC
    Brenchley, JM
    Betts, MR
    Ambrozak, DR
    Hill, BJ
    Okamoto, Y
    Casazza, JP
    Kuruppu, J
    Kuntsman, K
    Wolinsky, S
    Grossman, Z
    Dybul, M
    Oxenius, A
    Price, DA
    Connors, M
    Koup, RA
    NATURE, 2002, 417 (6884) : 95 - 98
  • [8] HIV preferentially infects HIV-specific CD4+ T cells
    Daniel C. Douek
    Jason M. Brenchley
    Michael R. Betts
    David R. Ambrozak
    Brenna J. Hill
    Yukari Okamoto
    Joseph P. Casazza
    Janaki Kuruppu
    Kevin Kunstman
    Steven Wolinsky
    Zvi Grossman
    Mark Dybul
    Annette Oxenius
    David A. Price
    Mark Connors
    Richard A. Koup
    Nature, 2002, 417 : 95 - 98
  • [9] Mechanisms of antagonism of HIV-specific CD4+ T cells
    Norris, Philip J.
    Persad, Desmond
    Ran, Longsi
    Xu, Luoling
    Sykulev, Yuri
    Stern, Lawrence J.
    JOURNAL OF IMMUNOLOGY, 2006, 176 : S90 - S90
  • [10] Effect of HIV on production of anti-viral factors by HIV-specific CD4+ T cells
    Hioe, Catarina
    Kaur, Gurvinder
    Cohen, Sandra
    Tuen, Michael
    Virland, Diana
    Abdelwahab, Sayed
    Garzino-Demo, Alfredo
    RETROVIROLOGY, 2006, 3
12345