Literature DB >> 34237254

Translocated microbiome composition determines immunological outcome in treated HIV infection.

Krystelle Nganou-Makamdop1, Aarthi Talla2, Ashish Arunkumar Sharma3, Sam Darko4, Amy Ransier4, Farida Laboune4, Jeffrey G Chipman5, Gregory J Beilman5, Torfi Hoskuldsson5, Slim Fourati3, Thomas E Schmidt6, Sahaana Arumugam4, Noemia S Lima4, Damee Moon4, Samuel Callisto6, Jordan Schoephoerster6, Jeffery Tomalka3, Peter Mugyenyi7, Francis Ssali7, Proscovia Muloma7, Patrick Ssengendo7, Ana R Leda8, Ryan K Cheu8, Jacob K Flynn9, Antigoni Morou10, Elsa Brunet-Ratnasingham11, Benigno Rodriguez12, Michael M Lederman12, Daniel E Kaufmann11, Nichole R Klatt8, Cissy Kityo7, Jason M Brenchley9, Timothy W Schacker13, Rafick P Sekaly14, Daniel C Douek15.   

Abstract

The impact of the microbiome on HIV disease is widely acknowledged although the mechanisms downstream of fluctuations in microbial composition remain speculative. We detected rapid, dynamic changes in translocated microbial constituents during two years after cART initiation. An unbiased systems biology approach revealed two distinct pathways driven by changes in the abundance ratio of Serratia to other bacterial genera. Increased CD4 T cell numbers over the first year were associated with high Serratia abundance, pro-inflammatory innate cytokines, and metabolites that drive Th17 gene expression signatures and restoration of mucosal integrity. Subsequently, decreased Serratia abundance and downregulation of innate cytokines allowed re-establishment of systemic T cell homeostasis promoting restoration of Th1 and Th2 gene expression signatures. Analyses of three other geographically distinct cohorts of treated HIV infection established a more generalized principle that changes in diversity and composition of translocated microbial species influence systemic inflammation and consequently CD4 T cell recovery. Published by Elsevier Inc.

Entities:  

Keywords:  HIV; antiretroviral therapy; inflammation; microbiome; systems biology

Mesh:

Substances:

Year:  2021        PMID: 34237254      PMCID: PMC8316372          DOI: 10.1016/j.cell.2021.05.023

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   66.850


  61 in total

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Authors:  Alexander Dobin; Carrie A Davis; Felix Schlesinger; Jorg Drenkow; Chris Zaleski; Sonali Jha; Philippe Batut; Mark Chaisson; Thomas R Gingeras
Journal:  Bioinformatics       Date:  2012-10-25       Impact factor: 6.937

2.  Dietary Fatty Acids Directly Impact Central Nervous System Autoimmunity via the Small Intestine.

Authors:  Aiden Haghikia; Stefanie Jörg; Alexander Duscha; Johannes Berg; Arndt Manzel; Anne Waschbisch; Anna Hammer; De-Hyung Lee; Caroline May; Nicola Wilck; Andras Balogh; Annika I Ostermann; Nils Helge Schebb; Denis A Akkad; Diana A Grohme; Markus Kleinewietfeld; Stefan Kempa; Jan Thöne; Seray Demir; Dominik N Müller; Ralf Gold; Ralf A Linker
Journal:  Immunity       Date:  2015-10-20       Impact factor: 31.745

3.  Immunologic failure despite suppressive antiretroviral therapy is related to activation and turnover of memory CD4 cells.

Authors:  Michael M Lederman; Leonard Calabrese; Nicholas T Funderburg; Brian Clagett; Kathy Medvik; Hector Bonilla; Barbara Gripshover; Robert A Salata; Alan Taege; Michelle Lisgaris; Grace A McComsey; Elizabeth Kirchner; Jane Baum; Carey Shive; Robert Asaad; Robert C Kalayjian; Scott F Sieg; Benigno Rodriguez
Journal:  J Infect Dis       Date:  2011-10-15       Impact factor: 5.226

Review 4.  Microbial translocation in the pathogenesis of HIV infection and AIDS.

Authors:  Giulia Marchetti; Camilla Tincati; Guido Silvestri
Journal:  Clin Microbiol Rev       Date:  2013-01       Impact factor: 26.132

5.  limma powers differential expression analyses for RNA-sequencing and microarray studies.

Authors:  Matthew E Ritchie; Belinda Phipson; Di Wu; Yifang Hu; Charity W Law; Wei Shi; Gordon K Smyth
Journal:  Nucleic Acids Res       Date:  2015-01-20       Impact factor: 16.971

6.  Fatty Acid Metabolites Combine with Reduced β Oxidation to Activate Th17 Inflammation in Human Type 2 Diabetes.

Authors:  Dequina A Nicholas; Elizabeth A Proctor; Madhur Agrawal; Anna C Belkina; Stephen C Van Nostrand; Leena Panneerseelan-Bharath; Albert R Jones; Forum Raval; Blanche C Ip; Min Zhu; Jose M Cacicedo; Chloe Habib; Nestor Sainz-Rueda; Leah Persky; Patrick G Sullivan; Barbara E Corkey; Caroline M Apovian; Philip A Kern; Douglas A Lauffenburger; Barbara S Nikolajczyk
Journal:  Cell Metab       Date:  2019-08-01       Impact factor: 27.287

Review 7.  Immunologic Biomarkers, Morbidity, and Mortality in Treated HIV Infection.

Authors:  Peter W Hunt; Sulggi A Lee; Mark J Siedner
Journal:  J Infect Dis       Date:  2016-10-01       Impact factor: 5.226

8.  Low nadir CD4+ T-cell counts predict gut dysbiosis in HIV-1 infection.

Authors:  Yolanda Guillén; Marc Noguera-Julian; Javier Rivera; Maria Casadellà; Alexander S Zevin; Muntsa Rocafort; Mariona Parera; Cristina Rodríguez; Marçal Arumí; Jorge Carrillo; Beatriz Mothe; Carla Estany; Josep Coll; Isabel Bravo; Cristina Herrero; Jorge Saz; Guillem Sirera; Ariadna Torrella; Jordi Navarro; Manuel Crespo; Eugènia Negredo; Christian Brander; Julià Blanco; Maria Luz Calle; Nichole R Klatt; Bonaventura Clotet; Roger Paredes
Journal:  Mucosal Immunol       Date:  2018-08-31       Impact factor: 7.313

Review 9.  Crosstalk mechanisms between the WNT signaling pathway and long non-coding RNAs.

Authors:  Vasiliki Zarkou; Alexandros Galaras; Antonis Giakountis; Pantelis Hatzis
Journal:  Noncoding RNA Res       Date:  2018-04-12

10.  IL-1β promotes Th17 differentiation by inducing alternative splicing of FOXP3.

Authors:  Reiner K W Mailer; Anne-Laure Joly; Sang Liu; Szabolcs Elias; Jesper Tegner; John Andersson
Journal:  Sci Rep       Date:  2015-10-06       Impact factor: 4.379
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  9 in total

1.  TCA cycle remodeling drives proinflammatory signaling in humans with pulmonary tuberculosis.

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Journal:  PLoS Pathog       Date:  2021-09-24       Impact factor: 7.464

Review 2.  Role of Microbiota in Viral Infections and Pathological Progression.

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3.  Mitochondrial Exhaustion of Memory CD4 T-Cells in Treated HIV-1 Infection.

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Journal:  Immunometabolism       Date:  2022-04-28

4.  Broadening the concept of glycoconjugates: glycoRNA and ubiquitinylated lipopolysaccharide.

Authors:  Roberto Adamo
Journal:  Glycoconj J       Date:  2021-07-21       Impact factor: 2.916

Review 5.  Microbiome Studies in Non-human Primates.

Authors:  Jason M Brenchley; Alexandra M Ortiz
Journal:  Curr HIV/AIDS Rep       Date:  2021-11-04       Impact factor: 5.071

6.  Lysozyme-like Protein Produced by Bifidobacterium longum Regulates Human Gut Microbiota Using In Vitro Models.

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Journal:  Molecules       Date:  2021-10-27       Impact factor: 4.411

7.  Gut-derived bacterial toxins impair memory CD4+ T cell mitochondrial function in HIV-1 infection.

Authors:  Brian Ferrari; Amanda Cabral Da Silva; Ken H Liu; Evgeniya V Saidakova; Larisa B Korolevskaya; Konstantin V Shmagel; Carey Shive; Gabriela Pacheco Sanchez; Mauricio Retuerto; Ashish Arunkumar Sharma; Khader Ghneim; Laura Noel-Romas; Benigno Rodriguez; Mahmoud A Ghannoum; Peter P Hunt; Steven G Deeks; Adam D Burgener; Dean P Jones; Mirela A Dobre; Vincent C Marconi; Rafick-Pierre Sekaly; Souheil-Antoine Younes
Journal:  J Clin Invest       Date:  2022-05-02       Impact factor: 19.456

Review 8.  I've looked at gut from both sides now: Gastrointestinal tract involvement in the pathogenesis of SARS-CoV-2 and HIV/SIV infections.

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Journal:  Front Immunol       Date:  2022-08-12       Impact factor: 8.786

9.  Signature changes in gut microbiome are associated with increased susceptibility to HIV-1 infection in MSM.

Authors:  Yue Chen; Huang Lin; Mariah Cole; Alison Morris; Jeremy Martinson; Heather Mckay; Matthew Mimiaga; Joseph Margolick; Adam Fitch; Barbara Methe; Vatsala Rangachar Srinivas; Shyamal Peddada; Charles R Rinaldo
Journal:  Microbiome       Date:  2021-12-09       Impact factor: 14.650
  9 in total

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