Literature DB >> 27699251

Cell-type deconvolution with immune pathways identifies gene networks of host defense and immunopathology in leprosy.

Megan S Inkeles1, Rosane Mb Teles2, Delila Pouldar2, Priscila R Andrade2, Cressida A Madigan2, David Lopez1, Mike Ambrose1, Mahdad Noursadeghi3, Euzenir N Sarno4, Thomas H Rea5, Maria T Ochoa5, M Luisa Iruela-Arispe1, William R Swindell6, Tom Hm Ottenhoff7, Annemieke Geluk7, Barry R Bloom8, Matteo Pellegrini1, Robert L Modlin2,9.   

Abstract

Transcriptome profiles derived from the site of human disease have led to the identification of genes that contribute to pathogenesis, yet the complex mixture of cell types in these lesions has been an obstacle for defining specific mechanisms. Leprosy provides an outstanding model to study host defense and pathogenesis in a human infectious disease, given its clinical spectrum, which interrelates with the host immunologic and pathologic responses. Here, we investigated gene expression profiles derived from skin lesions for each clinical subtype of leprosy, analyzing gene coexpression modules by cell-type deconvolution. In lesions from tuberculoid leprosy patients, those with the self-limited form of the disease, dendritic cells were linked with MMP12 as part of a tissue remodeling network that contributes to granuloma formation. In lesions from lepromatous leprosy patients, those with disseminated disease, macrophages were linked with a gene network that programs phagocytosis. In erythema nodosum leprosum, neutrophil and endothelial cell gene networks were identified as part of the vasculitis that results in tissue injury. The present integrated computational approach provides a systems approach toward identifying cell-defined functional networks that contribute to host defense and immunopathology at the site of human infectious disease.

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Year:  2016        PMID: 27699251      PMCID: PMC5033757          DOI: 10.1172/jci.insight.88843

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  71 in total

1.  Toll-like receptor triggering of a vitamin D-mediated human antimicrobial response.

Authors:  Philip T Liu; Steffen Stenger; Huiying Li; Linda Wenzel; Belinda H Tan; Stephan R Krutzik; Maria Teresa Ochoa; Jürgen Schauber; Kent Wu; Christoph Meinken; Diane L Kamen; Manfred Wagner; Robert Bals; Andreas Steinmeyer; Ulrich Zügel; Richard L Gallo; David Eisenberg; Martin Hewison; Bruce W Hollis; John S Adams; Barry R Bloom; Robert L Modlin
Journal:  Science       Date:  2006-02-23       Impact factor: 47.728

2.  Epidermal keratinocyte Ia expression, Langerhans cell hyperplasia and lymphocytic infiltration in skin lesions of leprosy.

Authors:  T H Rea; J Y Shen; R L Modlin
Journal:  Clin Exp Immunol       Date:  1986-08       Impact factor: 4.330

3.  Mechanism of "reactions" in borderline tuberculoid (BT) leprosy. A preliminary report.

Authors:  T Godal; B Myrvang; D R Samuel; W F Ross; M Lofgren
Journal:  Acta Pathol Microbiol Scand Suppl       Date:  1973

4.  In vivo knockdown of nicotinic acetylcholine receptor α1 diminishes aortic atherosclerosis.

Authors:  Guoqiang Zhang; Amanda L Marshall; Alison L Thomas; Kelly A Kernan; Yanyuan Su; Renee C LeBoeuf; Xiu Rong Dong; B N Angela Tchao
Journal:  Atherosclerosis       Date:  2010-08-10       Impact factor: 5.162

5.  Vitamin D is required for IFN-gamma-mediated antimicrobial activity of human macrophages.

Authors:  Mario Fabri; Steffen Stenger; Dong-Min Shin; Jae-Min Yuk; Philip T Liu; Susan Realegeno; Hye-Mi Lee; Stephan R Krutzik; Mirjam Schenk; Peter A Sieling; Rosane Teles; Dennis Montoya; Shankar S Iyer; Heiko Bruns; David M Lewinsohn; Bruce W Hollis; Martin Hewison; John S Adams; Andreas Steinmeyer; Ulrich Zügel; Genhong Cheng; Eun-Kyeong Jo; Barry R Bloom; Robert L Modlin
Journal:  Sci Transl Med       Date:  2011-10-12       Impact factor: 17.956

6.  Expression of Toll-like receptor 2 on human Schwann cells: a mechanism of nerve damage in leprosy.

Authors:  Rosane B Oliveira; Maria T Ochoa; Peter A Sieling; Thomas H Rea; Anura Rambukkana; Euzenir N Sarno; Robert L Modlin
Journal:  Infect Immun       Date:  2003-03       Impact factor: 3.441

7.  Use of genetic profiling in leprosy to discriminate clinical forms of the disease.

Authors:  Joshua R Bleharski; Huiying Li; Christoph Meinken; Thomas G Graeber; Maria-Teresa Ochoa; Masahiro Yamamura; Anne Burdick; Euzenir N Sarno; Manfred Wagner; Martin Röllinghoff; Thomas H Rea; Marco Colonna; Steffen Stenger; Barry R Bloom; David Eisenberg; Robert L Modlin
Journal:  Science       Date:  2003-09-12       Impact factor: 47.728

8.  Divergence of macrophage phagocytic and antimicrobial programs in leprosy.

Authors:  Dennis Montoya; Daniel Cruz; Rosane M B Teles; Delphine J Lee; Maria Teresa Ochoa; Stephan R Krutzik; Rene Chun; Mirjam Schenk; Xiaoran Zhang; Benjamin G Ferguson; Anne E Burdick; Euzenir N Sarno; Thomas H Rea; Martin Hewison; John S Adams; Genhong Cheng; Robert L Modlin
Journal:  Cell Host Microbe       Date:  2009-10-22       Impact factor: 21.023

Review 9.  Mammalian nicotinic acetylcholine receptors: from structure to function.

Authors:  Edson X Albuquerque; Edna F R Pereira; Manickavasagom Alkondon; Scott W Rogers
Journal:  Physiol Rev       Date:  2009-01       Impact factor: 37.312

10.  Comparison of molecular signatures from multiple skin diseases identifies mechanisms of immunopathogenesis.

Authors:  Megan S Inkeles; Philip O Scumpia; William R Swindell; David Lopez; Rosane M B Teles; Thomas G Graeber; Stephan Meller; Bernhard Homey; James T Elder; Michel Gilliet; Robert L Modlin; Matteo Pellegrini
Journal:  J Invest Dermatol       Date:  2014-08-11       Impact factor: 8.551
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  12 in total

Review 1.  The versatility of the CD1 lipid antigen presentation pathway.

Authors:  Andrew Chancellor; Stephan D Gadola; Salah Mansour
Journal:  Immunology       Date:  2018-03-24       Impact factor: 7.397

2.  Computational de novo discovery of distinguishing genes for biological processes and cell types in complex tissues.

Authors:  Lee A Newberg; Xiaowei Chen; Chinnappa D Kodira; Maria I Zavodszky
Journal:  PLoS One       Date:  2018-03-01       Impact factor: 3.240

3.  High-Throughput Identification of the Plasma Proteomic Signature of Inflammatory Bowel Disease.

Authors:  Antonio F Di Narzo; Carrie Brodmerkel; Shannon E Telesco; Carmen Argmann; Lauren A Peters; Katherine Li; Brian Kidd; Joel Dudley; Judy Cho; Eric E Schadt; Andrew Kasarskis; Radu Dobrin; Ke Hao
Journal:  J Crohns Colitis       Date:  2019-03-30       Impact factor: 9.071

Review 4.  Neutrophils in Leprosy.

Authors:  Veronica Schmitz; Isabella Forasteiro Tavares; Patricia Pignataro; Alice de Miranda Machado; Fabiana Dos Santos Pacheco; Jéssica Brandão Dos Santos; Camila Oliveira da Silva; Euzenir Nunes Sarno
Journal:  Front Immunol       Date:  2019-03-19       Impact factor: 7.561

5.  Identification of a systemic interferon-γ inducible antimicrobial gene signature in leprosy patients undergoing reversal reaction.

Authors:  Rosane M B Teles; Jing Lu; Maria Tió-Coma; Isabela M B Goulart; Sayera Banu; Deanna Hagge; Kidist Bobosha; Tom H M Ottenhoff; Matteo Pellegrini; Annemieke Geluk; Robert L Modlin
Journal:  PLoS Negl Trop Dis       Date:  2019-10-10

Review 6.  Neutrophil NETworking in ENL: Potential as a Putative Biomarker: Future Insights.

Authors:  Smrity Sahu; Keshav Sharma; Maryada Sharma; Tarun Narang; Sunil Dogra; Ranjana Walker Minz; Seema Chhabra
Journal:  Front Med (Lausanne)       Date:  2021-07-14

7.  The cellular architecture of the antimicrobial response network in human leprosy granulomas.

Authors:  Feiyang Ma; Travis K Hughes; Rosane M B Teles; Priscila R Andrade; Bruno J de Andrade Silva; Olesya Plazyo; Lam C Tsoi; Tran Do; Marc H Wadsworth; Aislyn Oulee; Maria Teresa Ochoa; Euzenir N Sarno; M Luisa Iruela-Arispe; Eynav Klechevsky; Bryan Bryson; Alex K Shalek; Barry R Bloom; Johann E Gudjonsson; Matteo Pellegrini; Robert L Modlin
Journal:  Nat Immunol       Date:  2021-06-24       Impact factor: 31.250

Review 8.  Innate Immune Responses in Leprosy.

Authors:  Roberta Olmo Pinheiro; Veronica Schmitz; Bruno Jorge de Andrade Silva; André Alves Dias; Beatriz Junqueira de Souza; Mayara Garcia de Mattos Barbosa; Danuza de Almeida Esquenazi; Maria Cristina Vidal Pessolani; Euzenir Nunes Sarno
Journal:  Front Immunol       Date:  2018-03-28       Impact factor: 7.561

9.  KLRD1-expressing natural killer cells predict influenza susceptibility.

Authors:  Erika Bongen; Francesco Vallania; Paul J Utz; Purvesh Khatri
Journal:  Genome Med       Date:  2018-06-14       Impact factor: 11.117

10.  CD1b-restricted GEM T cell responses are modulated by Mycobacterium tuberculosis mycolic acid meromycolate chains.

Authors:  Andrew Chancellor; Anna S Tocheva; Chris Cave-Ayland; Liku Tezera; Andrew White; Juma'a R Al Dulayymi; John S Bridgeman; Ivo Tews; Susan Wilson; Nikolai M Lissin; Marc Tebruegge; Ben Marshall; Sally Sharpe; Tim Elliott; Chris-Kriton Skylaris; Jonathan W Essex; Mark S Baird; Stephan Gadola; Paul Elkington; Salah Mansour
Journal:  Proc Natl Acad Sci U S A       Date:  2017-11-20       Impact factor: 11.205
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