Literature DB >> 29367348

Integrin α4β7 expression on peripheral blood CD4+ T cells predicts HIV acquisition and disease progression outcomes.

Aida Sivro1,2, Alexandra Schuetz3,4,5, Daniel Sheward6, Vineet Joag7, Sergey Yegorov7, Lenine J Liebenberg1, Nonhlanhla Yende-Zuma1, Andrew Stalker2, Ruth S Mwatelah2, Philippe Selhorst6, Nigel Garrett1, Natasha Samsunder1, Anisha Balgobin1, Fatima Nawaz8, Claudia Cicala8, James Arthos8, Anthony S Fauci8, Aggrey Omu Anzala9,10, Joshua Kimani2,10, Bernard S Bagaya11,12, Noah Kiwanuka11,13, Carolyn Williamson1,6, Rupert Kaul7,14,15, Jo-Ann S Passmore1,6,16, Nittaya Phanuphak17, Jintanat Ananworanich4,17,18, Aftab Ansari19, Quarraisha Abdool Karim1,20, Salim S Abdool Karim1,20, Lyle R McKinnon1,2,10.   

Abstract

The gastrointestinal (GI) mucosa is central to HIV pathogenesis, and the integrin α4β7 promotes the homing of immune cells to this site, including those that serve as viral targets. Data from simian immunodeficiency virus (SIV) animal models suggest that α4β7 blockade provides prophylactic and therapeutic benefits. We show that pre-HIV infection frequencies of α4β7+ peripheral blood CD4+ T cells, independent of other T cell phenotypes and genital inflammation, were associated with increased rates of HIV acquisition in South African women. A similar acquisition effect was observed in a Kenyan cohort and in nonhuman primates (NHPs) after intravaginal SIV challenge. This association was stronger when infection was caused by HIV strains containing V2 envelope motifs with a preference for α4β7 binding. In addition, pre-HIV α4β7+ CD4+ T cells predicted a higher set-point viral load and a greater than twofold increased rate of CD4+ T cell decline. These results were confirmed in SIV-infected NHPs. Increased frequencies of pre-HIV α4β7+ CD4+ T cells were also associated with higher postinfection expression of lipopolysaccharide binding protein, a microbial translocation marker, suggestive of more extensive gut damage. CD4+ T cells expressing α4β7 were rapidly depleted very early in HIV infection, particularly from the GI mucosa, and were not restored by early antiretroviral therapy. This study provides a link between α4β7 expression and HIV clinical outcomes in humans, in line with observations made in NHPs. Given the availability of a clinically approved anti-α4β7 monoclonal antibody for treatment of inflammatory bowel disease, these data support further evaluation of targeting α4β7 integrin as a clinical intervention during HIV infection.
Copyright © 2018 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2018        PMID: 29367348      PMCID: PMC6820005          DOI: 10.1126/scitranslmed.aam6354

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  47 in total

1.  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.

Authors:  Claudia Cicala; Elena Martinelli; Jonathan P McNally; Diana J Goode; Ravindra Gopaul; Joseph Hiatt; Katija Jelicic; Shyamasundaran Kottilil; Katilyn Macleod; Angeline O'Shea; Nikita Patel; Donald Van Ryk; Danlan Wei; Massimiliano Pascuccio; Ling Yi; Lyle McKinnon; Preson Izulla; Joshua Kimani; Rupert Kaul; Anthony S Fauci; James Arthos
Journal:  Proc Natl Acad Sci U S A       Date:  2009-11-20       Impact factor: 11.205

2.  In vitro and in vivo responses to interleukin 12 are maintained until the late SIV infection stage but lost during AIDS.

Authors:  F Villinger; S Bucur; N F Chikkala; S S Brar; P Bostik; A E Mayne; J Adams; M E Lee; F J Novembre; M K Gately; A A Ansari; C D Hillyer
Journal:  AIDS Res Hum Retroviruses       Date:  2000-05-20       Impact factor: 2.205

3.  Identification of preferential CD4+ T-cell targets for HIV infection in the cervix.

Authors:  V R Joag; L R McKinnon; J Liu; S T Kidane; M H Yudin; B Nyanga; S Kimwaki; K E Besel; J O Obila; S Huibner; J O Oyugi; J Arthos; O Anzala; J Kimani; M A Ostrowski; R Kaul
Journal:  Mucosal Immunol       Date:  2015-04-15       Impact factor: 7.313

4.  Characterization of a human cervical CD4+ T cell subset coexpressing multiple markers of HIV susceptibility.

Authors:  Lyle R McKinnon; Billy Nyanga; Duncan Chege; Preston Izulla; Makobu Kimani; Sanja Huibner; Lawrence Gelmon; Katharine E Block; Claudia Cicala; A Omu Anzala; James Arthos; Joshua Kimani; Rupert Kaul
Journal:  J Immunol       Date:  2011-11-02       Impact factor: 5.422

5.  Loss of CD4 T lymphocytes in patients infected with human immunodeficiency virus type 1 is more pronounced in the duodenal mucosa than in the peripheral blood. Berlin Diarrhea/Wasting Syndrome Study Group.

Authors:  T Schneider; H U Jahn; W Schmidt; E O Riecken; M Zeitz; R Ullrich
Journal:  Gut       Date:  1995-10       Impact factor: 23.059

6.  Recruitment of high risk women for HIV prevention trials: baseline HIV prevalence and sexual behavior in the CAPRISA 004 tenofovir gel trial.

Authors:  Quarraisha Abdool Karim; Ayesha Bm Kharsany; Janet A Frohlich; Cheryl Baxter; Nonhlanhla Yende; Leila E Mansoor; Koleka P Mlisana; Silvia Maarschalk; Natasha Arulappan; Anneke Grobler; Sengeziwe Sibeko; Zaheen Omar; Tanuja N Gengiah; Mukelisiwe Mlotshwa; Natasha Samsunder; Salim S Abdool Karim
Journal:  Trials       Date:  2011-03-07       Impact factor: 2.279

7.  South African HIV-1 subtype C transmitted variants with a specific V2 motif show higher dependence on α4β7 for replication.

Authors:  Simone I Richardson; Elin S Gray; Nonhlanhla N Mkhize; Daniel J Sheward; Bronwen E Lambson; Constantinos Kurt Wibmer; Lindi Masson; Lise Werner; Nigel Garrett; Jo-Ann S Passmore; Quarraisha Abdool Karim; Salim S Abdool Karim; Carolyn Williamson; Penny L Moore; Lynn Morris
Journal:  Retrovirology       Date:  2015-06-24       Impact factor: 4.602

8.  Identification of New Regions in HIV-1 gp120 Variable 2 and 3 Loops that Bind to α4β7 Integrin Receptor.

Authors:  Kristina K Peachman; Nicos Karasavvas; Agnes-Laurence Chenine; Robert McLinden; Supachai Rerks-Ngarm; Kaewkungwal Jaranit; Sorachai Nitayaphan; Punnee Pitisuttithum; Sodsai Tovanabutra; Susan Zolla-Pazner; Nelson L Michael; Jerome H Kim; Carl R Alving; Mangala Rao
Journal:  PLoS One       Date:  2015-12-01       Impact factor: 3.240

9.  A novel acute HIV infection staging system based on 4th generation immunoassay.

Authors:  Jintanat Ananworanich; James L K Fletcher; Suteeraporn Pinyakorn; Frits van Griensven; Claire Vandergeeten; Alexandra Schuetz; Tippawan Pankam; Rapee Trichavaroj; Siriwat Akapirat; Nitiya Chomchey; Praphan Phanuphak; Nicolas Chomont; Nelson L Michael; Jerome H Kim; Mark de Souza
Journal:  Retrovirology       Date:  2013-05-29       Impact factor: 4.602

10.  Loss of Function of Intestinal IL-17 and IL-22 Producing Cells Contributes to Inflammation and Viral Persistence in SIV-Infected Rhesus Macaques.

Authors:  Emily S Ryan; Luca Micci; Rémi Fromentin; Sara Paganini; Colleen S McGary; Kirk Easley; Nicolas Chomont; Mirko Paiardini
Journal:  PLoS Pathog       Date:  2016-02-01       Impact factor: 6.823
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  40 in total

1.  Live attenuated varicella-zoster virus vaccine does not induce HIV target cell activation.

Authors:  Catia T Perciani; Bashir Farah; Rupert Kaul; Mario A Ostrowski; Salaheddin M Mahmud; Omu Anzala; Walter Jaoko; Kelly S MacDonald
Journal:  J Clin Invest       Date:  2019-01-22       Impact factor: 14.808

2.  The V2 loop of HIV gp120 delivers costimulatory signals to CD4+ T cells through Integrin α4β7 and promotes cellular activation and infection.

Authors:  Livia R Goes; Alia Sajani; Aida Sivro; Ronke Olowojesiku; Jocelyn C Ray; Ian Perrone; Jason Yolitz; Alexandre Girard; Louise Leyre; Constantinos Kurt Wibmer; Lynn Morris; Giacomo Gorini; Genoveffa Franchini; Rosemarie D Mason; Mario Roederer; Saurabh Mehandru; Marcelo A Soares; Claudia Cicala; Anthony S Fauci; James Arthos
Journal:  Proc Natl Acad Sci U S A       Date:  2020-12-07       Impact factor: 11.205

3.  HIV vaccine delayed boosting increases Env variable region 2-specific antibody effector functions.

Authors:  David Easterhoff; Justin Pollara; Kan Luo; Benjamin Janus; Neelakshi Gohain; LaTonya D Williams; Matthew Zirui Tay; Anthony Monroe; Kristina Peachman; Misook Choe; Susie Min; Paolo Lusso; Peng Zhang; Eden P Go; Heather Desaire; Mattia Bonsignori; Kwan-Ki Hwang; Charles Beck; Matina Kakalis; Robert J O'Connell; Sandhya Vasan; Jerome H Kim; Nelson L Michael; Jean-Louis Excler; Merlin L Robb; Supachai Rerks-Ngarm; Jaranit Kaewkungwal; Punnee Pitisuttithum; Sorachai Nitayaphan; Faruk Sinangil; James Tartaglia; Sanjay Phogat; Kevin Wiehe; Kevin O Saunders; David C Montefiori; Georgia D Tomaras; M Anthony Moody; James Arthos; Mangala Rao; M Gordon Joyce; Gilad Ofek; Guido Ferrari; Barton F Haynes
Journal:  JCI Insight       Date:  2020-01-30

4.  Characterization of Mycobacterium tuberculosis-Specific Th22 Cells and the Effect of Tuberculosis Disease and HIV Coinfection.

Authors:  Mohau S Makatsa; F Millicent A Omondi; Rubina Bunjun; Robert J Wilkinson; Catherine Riou; Wendy A Burgers
Journal:  J Immunol       Date:  2022-07-01       Impact factor: 5.426

5.  Blocking α4β7 integrin delays viral rebound in SHIVSF162P3-infected macaques treated with anti-HIV broadly neutralizing antibodies.

Authors:  Ines Frank; Mariasole Cigoli; Muhammad S Arif; Marissa D Fahlberg; Stephanie Maldonado; Giulia Calenda; Amarendra Pegu; Eun Sung Yang; Reda Rawi; Gwo-Yu Chuang; Hui Geng; Cuiping Liu; Tongqing Zhou; Peter D Kwong; James Arthos; Claudia Cicala; Brooke F Grasperge; James L Blanchard; Agegnehu Gettie; Christine M Fennessey; Brandon F Keele; Monica Vaccari; Thomas J Hope; Anthony S Fauci; John R Mascola; Elena Martinelli
Journal:  Sci Transl Med       Date:  2021-08-18       Impact factor: 19.319

Review 6.  The Penis, the Vagina and HIV Risk: Key Differences (Aside from the Obvious).

Authors:  Rupert Kaul; Cindy M Liu; Daniel E Park; Ronald M Galiwango; Aaron A R Tobian; Jessica L Prodger
Journal:  Viruses       Date:  2022-05-27       Impact factor: 5.818

Review 7.  A tale of four studies: HIV vaccine immunogenicity and efficacy in clinical trials.

Authors:  Susan Zolla-Pazner; Nelson L Michael; Jerome H Kim
Journal:  Lancet HIV       Date:  2021-05-21       Impact factor: 12.767

8.  αEβ7, α4β7 and α4β1 integrin contributions to T cell distribution in blood, cervix and rectal tissues: Potential implications for HIV transmission.

Authors:  Catia T Perciani; Walter Jaoko; Bashir Farah; Mario A Ostrowski; Omu Anzala; Kelly S MacDonald
Journal:  PLoS One       Date:  2018-02-08       Impact factor: 3.240

Review 9.  Evolution and Diversity of Immune Responses during Acute HIV Infection.

Authors:  Samuel W Kazer; Bruce D Walker; Alex K Shalek
Journal:  Immunity       Date:  2020-11-17       Impact factor: 31.745

10.  Anti-α4β7 therapy targets lymphoid aggregates in the gastrointestinal tract of HIV-1-infected individuals.

Authors:  Mathieu Uzzan; Minami Tokuyama; Adam K Rosenstein; Costin Tomescu; Ivo N SahBandar; Huaibin M Ko; Louise Leyre; Anupa Chokola; Emma Kaplan-Lewis; Gabriela Rodriguez; Akihiro Seki; Michael J Corley; Judith Aberg; Annalena La Porte; Eun-Young Park; Hideki Ueno; Ioannis Oikonomou; Itai Doron; Iliyan D Iliev; Benjamin K Chen; Jennifer Lui; Timothy W Schacker; Glaucia C Furtado; Sergio A Lira; Jean-Frederic Colombel; Amir Horowitz; Jean K Lim; Nicolas Chomont; Adeeb H Rahman; Luis J Montaner; Lishomwa C Ndhlovu; Saurabh Mehandru
Journal:  Sci Transl Med       Date:  2018-10-03       Impact factor: 17.956
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