Literature DB >> 19193788

Noncytotoxic suppression of human immunodeficiency virus type 1 transcription by exosomes secreted from CD8+ T cells.

Ashwin Tumne1, Varsha Shridhar Prasad, Yue Chen, Donna B Stolz, Kunal Saha, Deena M Ratner, Ming Ding, Simon C Watkins, Phalguni Gupta.   

Abstract

CD8(+) T cells display a noncytotoxic activity that suppresses transcription of human immunodeficiency virus type 1 (HIV-1) in an antigen-independent and major histocompatibility complex-unrestricted manner. To date, the precise cellular and molecular factors mediating this CD8(+) T-cell effector function remain unsolved. Despite evidence indicating the dependence of the activity on cell-cell contact, the possibility of a membrane-mediated activity that represses transcription from the viral promoter remains unexplored. We therefore investigated whether this inhibition of HIV-1 transcription might be elicited by a membrane-bound determinant. Using a CD8(+) T-cell line displaying potent noncytotoxic HIV-1 suppression activity, we have identified a membrane-localized HIV-1-suppressing activity that is concomitantly secreted as 30- to 100-nm endosome-derived tetraspanin-rich vesicles known as exosomes. Purified exosomes from CD8(+) T-cell culture supernatant noncytotoxically suppressed CCR5-tropic (R5) and CXCR4-tropic (X4) replication of HIV-1 in vitro through a protein moiety. Similar antiviral activity was also found in exosomes isolated from two HIV-1-infected subjects. The antiviral exosomes specifically inhibited HIV-1 transcription in both acute and chronic models of infection. Our results, for the first time, indicate the existence of an antiviral membrane-bound factor consistent with the hallmarks defining noncytotoxic CD8(+) T-cell suppression of HIV-1.

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Year:  2009        PMID: 19193788      PMCID: PMC2668436          DOI: 10.1128/JVI.02629-08

Source DB:  PubMed          Journal:  J Virol        ISSN: 0022-538X            Impact factor:   5.103


  52 in total

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Journal:  Cell Immunol       Date:  1999-09-15       Impact factor: 4.868

Review 2.  The tetraspanin web modulates immune-signalling complexes.

Authors:  Shoshana Levy; Tsipi Shoham
Journal:  Nat Rev Immunol       Date:  2005-02       Impact factor: 53.106

Review 3.  Tetraspanin functions and associated microdomains.

Authors:  Martin E Hemler
Journal:  Nat Rev Mol Cell Biol       Date:  2005-10       Impact factor: 94.444

Review 4.  Proteomics of organelles and large cellular structures.

Authors:  John R Yates; Annalyn Gilchrist; Kathryn E Howell; John J M Bergeron
Journal:  Nat Rev Mol Cell Biol       Date:  2005-09       Impact factor: 94.444

5.  Role of class I major histocompatibility complex-restricted and -unrestricted suppression of human immunodeficiency virus type 1 replication by CD8+ T lymphocytes.

Authors:  T Ohashi; M Kubo; H Kato; A Iwamoto; H Takahashi; M Fujii; M Kannagi
Journal:  J Gen Virol       Date:  1999-01       Impact factor: 3.891

6.  CD8(+)-Cell antiviral factor activity is not restricted to human immunodeficiency virus (HIV)-specific T cells and can block HIV replication after initiation of reverse transcription.

Authors:  S Le Borgne; M Février; C Callebaut; S P Lee; Y Rivière
Journal:  J Virol       Date:  2000-05       Impact factor: 5.103

7.  Activated platelets release two types of membrane vesicles: microvesicles by surface shedding and exosomes derived from exocytosis of multivesicular bodies and alpha-granules.

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Journal:  Blood       Date:  1999-12-01       Impact factor: 22.113

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Journal:  Blood       Date:  2004-07-29       Impact factor: 22.113

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Authors:  C E Mackewicz; M R Garovoy; J A Levy
Journal:  J Virol       Date:  1998-12       Impact factor: 5.103

10.  CD8+ T cell-mediated suppressive activity inhibits HIV-1 after virus entry with kinetics indicating effects on virus gene expression.

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Journal:  Proc Natl Acad Sci U S A       Date:  2000-03-28       Impact factor: 11.205
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  32 in total

Review 1.  The CD8+ T Cell Noncytotoxic Antiviral Responses.

Authors:  Maelig G Morvan; Fernando C Teque; Christopher P Locher; Jay A Levy
Journal:  Microbiol Mol Biol Rev       Date:  2021-05-12       Impact factor: 11.056

Review 2.  Exosomes and other extracellular vesicles in host-pathogen interactions.

Authors:  Jeffrey S Schorey; Yong Cheng; Prachi P Singh; Victoria L Smith
Journal:  EMBO Rep       Date:  2014-12-08       Impact factor: 8.807

Review 3.  Extracellular vesicles and infectious diseases: new complexity to an old story.

Authors:  Jeffrey S Schorey; Clifford V Harding
Journal:  J Clin Invest       Date:  2016-04-01       Impact factor: 14.808

4.  Canonical Wnts Mediate CD8+ T Cell Noncytolytic Anti-HIV-1 Activity and Correlate with HIV-1 Clinical Status.

Authors:  Jennillee Wallace; Srinivas D Narasipura; Beverly E Sha; Audrey L French; Lena Al-Harthi
Journal:  J Immunol       Date:  2020-09-04       Impact factor: 5.422

Review 5.  Exosomal packaging of trans-activation response element (TAR) RNA by HIV-1 infected cells: a pro-malignancy message delivery to cancer cells.

Authors:  Nilesh Kumar Sharma
Journal:  Mol Biol Rep       Date:  2019-03-22       Impact factor: 2.316

6.  Extracellular Vesicles Facilitate the Intercellular Communications in the Pathogenesis of Lung Injury.

Authors:  Heedoo Lee; Duo Zhang; Jasleen Minhas; Yang Jin
Journal:  Cell Dev Biol       Date:  2016-07-07

Review 7.  Viral effects on the content and function of extracellular vesicles.

Authors:  Nancy Raab-Traub; Dirk P Dittmer
Journal:  Nat Rev Microbiol       Date:  2017-06-26       Impact factor: 60.633

8.  Suppression of HIV-1 Infectivity by Human Glioma Cells.

Authors:  Sheikh Ariful Hoque; Atsushi Tanaka; Salequl Islam; Gias Uddin Ahsan; Atsushi Jinno-Oue; Hiroo Hoshino
Journal:  AIDS Res Hum Retroviruses       Date:  2016-01-07       Impact factor: 2.205

Review 9.  Pancreatic cancer diagnosis by free and exosomal miRNA.

Authors:  Margot Zöller
Journal:  World J Gastrointest Pathophysiol       Date:  2013-11-15

10.  Antigen-specific, antibody-coated, exosome-like nanovesicles deliver suppressor T-cell microRNA-150 to effector T cells to inhibit contact sensitivity.

Authors:  Krzysztof Bryniarski; Wlodzimierz Ptak; Asha Jayakumar; Kerstin Püllmann; Michael J Caplan; Arthit Chairoungdua; Jun Lu; Brian D Adams; Emilia Sikora; Katarzyna Nazimek; Susanna Marquez; Steven H Kleinstein; Panjamaporn Sangwung; Yasuko Iwakiri; Eric Delgato; Frank Redegeld; Bart R Blokhuis; Jacek Wojcikowski; Anna Wladyslawa Daniel; Tom Groot Kormelink; Philip W Askenase
Journal:  J Allergy Clin Immunol       Date:  2013-05-31       Impact factor: 10.793
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