Interleukin-7 Facilitates HIV-1 Transmission to Cervico-Vaginal Tissue ex vivo

The majority of HIV-1 infections in women occur through vaginal intercourse, in which virus-containing semen is deposited on the cervico-vaginal mucosa. Semen is more than a mere carrier of HIV-1, since it contains many biological factors, in particular cytokines, that may affect HIV-1 transmission. The concentration of interleukin (IL)-7, one of the most prominent cytokines in semen of healthy individuals, is further increased in semen of HIV-1-infected men. Here, we investigated the potential role of IL-7 in HIV-1 vaginal transmission in an ex vivo system of human cervico-vaginal tissue. We simulated an in vivo situation by depositing HIV-1 on cervico-vaginal tissue in combination with IL-7 at concentrations comparable with those measured in semen of HIV-1-infected individuals. We found that IL-7 significantly enhanced virus replication in ex vivo infected cervico-vaginal tissue. Similarly, we observed an enhancement of HIV-1 replication in lymphoid tissue explants. Analysis of T cells isolated from infected tissues showed that IL-7 reduced CD4+ T cell depletion preventing apoptosis, as shown by the decrease in the number of cells expressing the apoptotic marker APO2.7 and the increase in the expression of the anti-apoptotic protein B-cell lymphoma (Bcl)-2. Also, IL-7 increased the fraction of cycling CD4+ T cells, as evidenced by staining for the nuclear factor Ki-67. High levels of seminal IL-7 in vivo may be relevant to the survival of the founder pool of HIV-1-infected cells in the cervico-vaginal mucosa at the initial stage of infection, promoting local expansion and dissemination of HIV infection.

[1]  S. Sieg Interleukin-7 biology in HIV disease and the path to immune reconstitution. , 2012, Current HIV research.

[2]  M. Lederman,et al.  Effects of Recombinant Human Interleukin 7 on T-Cell Recovery and Thymic Output in HIV-Infected Patients Receiving Antiretroviral Therapy: Results of a Phase I/IIa Randomized, Placebo-Controlled, Multicenter Study , 2012, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[3]  M. Proschan,et al.  Treatment with IL-7 Prevents the Decline of Circulating CD4+ T Cells during the Acute Phase of SIV Infection in Rhesus Macaques , 2012, PLoS pathogens.

[4]  R. Kaul,et al.  Endometrial epithelial cell response to semen from HIV-infected men during different stages of infection is distinct and can drive HIV-1-long terminal repeat , 2012, AIDS.

[5]  A. Haase,et al.  Lymphoid Tissue Damage in HIV-1 Infection Depletes Naïve T Cells and Limits T Cell Reconstitution after Antiretroviral Therapy , 2012, PLoS pathogens.

[6]  Sarman Singh,et al.  Semen of HIV-1-infected individuals: local shedding of herpesviruses and reprogrammed cytokine network. , 2012, The Journal of infectious diseases.

[7]  W. Greene,et al.  Peptides released by physiological cleavage of semen coagulum proteins form amyloids that enhance HIV infection. , 2011, Cell host & microbe.

[8]  S. Amigorena,et al.  The role of semen in sexual transmission of HIV: beyond a carrier for virus particles. , 2011, Microbes and infection.

[9]  A. Weyrich,et al.  Homeostatic Proliferation Fails to Efficiently Reactivate HIV-1 Latently Infected Central Memory CD4+ T Cells , 2011, PLoS pathogens.

[10]  J. Sprent,et al.  Normal T cell homeostasis: the conversion of naive cells into memory-phenotype cells , 2011, Nature Immunology.

[11]  T. Fry,et al.  Harnessing the biology of IL-7 for therapeutic application , 2011, Nature Reviews Immunology.

[12]  G. Doncel,et al.  Role of Semen in HIV‐1 Transmission: Inhibitor or facilitator? , 2011, American journal of reproductive immunology.

[13]  J. Kappes,et al.  Uterine Epithelial Cell Regulation of DC-SIGN Expression Inhibits Transmitted/Founder HIV-1 Trans Infection by Immature Dendritic Cells , 2010, PloS one.

[14]  Sa Azin,et al.  An overview on the 2008 UNAIDS Report on the 2008 UNAIDS Report on the Global AIDS Epidemic. , 2010 .

[15]  Cassandra B. Jabara,et al.  HIV-1 Populations in Semen Arise through Multiple Mechanisms , 2010, PLoS pathogens.

[16]  F. Chiodi,et al.  Impact of γ‐chain cytokines on T cell homeostasis in HIV‐1 infection: therapeutic implications , 2010, Journal of internal medicine.

[17]  Ashley T. Haase,et al.  Targeting early infection to prevent HIV-1 mucosal transmission , 2010, Nature.

[18]  W. Fitzgerald,et al.  HIV-1 sexual transmission: early events of HIV-1 infection of human cervico-vaginal tissue in an optimized ex vivo model , 2010, Mucosal Immunology.

[19]  K. Mayer,et al.  Targeting Trojan Horse leukocytes for HIV prevention , 2010, AIDS.

[20]  A. Cole,et al.  Cationic polypeptides contribute to the anti‐HIV‐1 activity of human seminal plasma , 2009, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[21]  M. Lederman,et al.  IL-7 administration drives T cell-cycle entry and expansion in HIV-1 infection. , 2009, Blood.

[22]  P. Musiani,et al.  The Lack of Epithelial Interleukin-7 and BAFF/BLyS Gene Expression in Prostate Cancer as a Possible Mechanism of Tumor Escape from Immunosurveillance , 2009, Clinical Cancer Research.

[23]  W. Fitzgerald,et al.  A highly sensitive and dynamic immunofluorescent cytometric bead assay for the detection of HIV-1 p24. , 2009, Journal of virological methods.

[24]  S. Pambuccian,et al.  Glycerol monolaurate prevents mucosal SIV transmission , 2009, Nature.

[25]  J. Grivel,et al.  Use of human tissue explants to study human infectious agents , 2009, Nature Protocols.

[26]  Hui Li,et al.  Identification and characterization of transmitted and early founder virus envelopes in primary HIV-1 infection , 2008, Proceedings of the National Academy of Sciences.

[27]  F. Kirchhoff,et al.  Semen-Derived Amyloid Fibrils Drastically Enhance HIV Infection , 2007, Cell.

[28]  L. Tucker,et al.  Concentrations and significance of cytokines and other immunologic factors in semen of healthy fertile men. , 2007, Human reproduction.

[29]  Michael Proschan,et al.  Interleukin 7 reduces the levels of spontaneous apoptosis in CD4+ and CD8+ T cells from HIV-1-infected individuals , 2007, Proceedings of the National Academy of Sciences.

[30]  F. Lucht,et al.  Seminal plasma promotes the attraction of Langerhans cells via the secretion of CCL20 by vaginal epithelial cells: involvement in the sexual transmission of HIV. , 2006, Human reproduction.

[31]  J. Albert,et al.  Differential Pathogenesis of Primary CCR5-Using Human Immunodeficiency Virus Type 1 Isolates in Ex Vivo Human Lymphoid Tissue , 2005, Journal of Virology.

[32]  Q. Jiang,et al.  Cell biology of IL-7, a key lymphotrophin. , 2005, Cytokine & growth factor reviews.

[33]  Sebastian Bonhoeffer,et al.  The HIV coreceptor switch: a population dynamical perspective. , 2005, Trends in microbiology.

[34]  M. Thomson,et al.  IL-7 is a potent and proviral strain-specific inducer of latent HIV-1 cellular reservoirs of infected individuals on virally suppressive HAART. , 2005, The Journal of clinical investigation.

[35]  F. Barré-Sinoussi,et al.  IL-7 Stimulates T Cell Renewal Without Increasing Viral Replication in Simian Immunodeficiency Virus-Infected Macaques 1 , 2003, The Journal of Immunology.

[36]  F. Barré-Sinoussi,et al.  Positive Regulation of CXCR4 Expression and Signaling by Interleukin-7 in CD4+ Mature Thymocytes Correlates with Their Capacity To Favor Human Immunodeficiency X4 Virus Replication , 2003, Journal of Virology.

[37]  J. Grivel,et al.  Bystander CD4+ T lymphocytes survive in HIV-infected human lymphoid tissue. , 2003, AIDS research and human retroviruses.

[38]  A. Khaled,et al.  Lymphocide: cytokines and the control of lymphoid homeostasis , 2002, Nature Reviews Immunology.

[39]  T. Mullen,et al.  Seminal plasma induces programmed cell death in cultured peripheral blood mononuclear cells. , 2002, AIDS research and human retroviruses.

[40]  A. Landay,et al.  Interleukin-7-treated naive T cells can be productively infected by T-cell-adapted and primary isolates of human immunodeficiency virus 1. , 2002, Blood.

[41]  J. Barretina,et al.  Interleukin-7 in Plasma Correlates with CD4 T-Cell Depletion and May Be Associated with Emergence of Syncytium-Inducing Variants in Human Immunodeficiency Virus Type 1-Positive Individuals , 2001, Journal of Virology.

[42]  F. Barré-Sinoussi,et al.  Interleukin-7 and infection itself by human immunodeficiency virus 1 favor virus persistence in mature CD4(+)CD8(-)CD3(+) thymocytes through sustained induction of Bcl-2. , 2001, Blood.

[43]  J. Grivel,et al.  Human Immunodeficiency Virus Type 1 Induces Apoptosis in CD4+ but Not in CD8+ T Cells in Ex Vivo-Infected Human Lymphoid Tissue , 2000, Journal of Virology.

[44]  P. Sullivan,et al.  Human immunodeficiency virus (HIV) subtype surveillance of African-born persons at risk for group O and group N HIV infections in the United States. , 2000, The Journal of infectious diseases.

[45]  D. Littman,et al.  Cytokine Signals Are Sufficient for HIV-1 Infection of Resting Human T Lymphocytes , 1999, The Journal of experimental medicine.

[46]  D. Anderson,et al.  Differential expression of immunobiological mediators by immortalized human cervical and vaginal epithelial cells. , 1999, Biology of reproduction.

[47]  K. Muegge,et al.  The trophic action of IL-7 on pro-T cells: inhibition of apoptosis of pro-T1, -T2, and -T3 cells correlates with Bcl-2 and Bax levels and is independent of Fas and p53 pathways. , 1998, Journal of immunology.

[48]  M. Chen,et al.  Isolation and characterization of two divergent infectious molecular clones of HIV type 1 longitudinally obtained from a seropositive patient by a progressive amplification procedure. , 1997, AIDS research and human retroviruses.

[49]  O. Haffar,et al.  IL-7 up-regulates HIV-1 replication in naturally infected peripheral blood mononuclear cells. , 1996, Journal of immunology.

[50]  P. Vernazza,et al.  Sensitive method for the detection of infectious HIV in semen of seropositive individuals. , 1996, Journal of virological methods.

[51]  K. Grabstein,et al.  Regulation of human T cell proliferation by IL-7. , 1990, Journal of immunology.

[52]  P. Quinn The role of spermine in the cytotoxic effects of seminal plasma. , 1987, American journal of reproductive immunology and microbiology : AJRIM.