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Literature DB >> 33789339

A myeloid-stromal niche and gp130 rescue in NOD2-driven Crohn's disease.

Shikha Nayar^1,2, Joshua K Morrison³, Mamta Giri⁴, Kyle Gettler^1,4, Ling-Shiang Chuang¹, Laura A Walker⁵, Huaibin M Ko^6,7,8, Ephraim Kenigsberg¹, Subra Kugathasan⁹, Miriam Merad⁵, Jaime Chu³, Judy H Cho¹⁰.

Abstract

Crohn's disease is a chronic inflammatory intestinal disease that is frequently accompanied by aberrant healing and stricturing complications. Crosstalk between activated myeloid and stromal cells is critical in the pathogenicity of Crohn's disease1,2, and increases in intravasating monocytes are correlated with a lack of response to anti-TNF treatment3. The risk alleles with the highest effect on Crohn's disease are loss-of-function mutations in NOD24,5, which increase the risk of stricturing6. However, the mechanisms that underlie pathogenicity driven by NOD2 mutations and the pathways that might rescue a lack of response to anti-TNF treatment remain largely uncharacterized. Here we use direct ex vivo analyses of patients who carry risk alleles of NOD2 to show that loss of NOD2 leads to dysregulated homeostasis of activated fibroblasts and macrophages. CD14+ peripheral blood mononuclear cells from carriers of NOD2 risk alleles produce cells that express high levels of collagen, and elevation of conserved signatures is observed in nod2-deficient zebrafish models of intestinal injury. The enrichment of STAT3 regulation and gp130 ligands in activated fibroblasts and macrophages suggested that gp130 blockade might rescue the activated program in NOD2-deficient cells. We show that post-treatment induction of the STAT3 pathway is correlated with a lack of response to anti-TNF treatment in patients, and demonstrate in vivo in zebrafish the amelioration of the activated myeloid-stromal niche using the specific gp130 inhibitor bazedoxifene. Our results provide insights into NOD2-driven fibrosis in Crohn's disease, and suggest that gp130 blockade may benefit some patients with Crohn's disease-potentially as a complement to anti-TNF therapy.

Entities: Chemical

Mesh：

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Year: 2021 PMID： 33789339 PMCID： PMC8284870 DOI： 10.1038/s41586-021-03484-5

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 69.504

42 in total

1. Prediction of complicated disease course for children newly diagnosed with Crohn's disease: a multicentre inception cohort study.

Authors: Subra Kugathasan; Lee A Denson; Thomas D Walters; Mi-Ok Kim; Urko M Marigorta; Melanie Schirmer; Kajari Mondal; Chunyan Liu; Anne Griffiths; Joshua D Noe; Wallace V Crandall; Scott Snapper; Shervin Rabizadeh; Joel R Rosh; Jason M Shapiro; Stephen Guthery; David R Mack; Richard Kellermayer; Michael D Kappelman; Steven Steiner; Dedrick E Moulton; David Keljo; Stanley Cohen; Maria Oliva-Hemker; Melvin B Heyman; Anthony R Otley; Susan S Baker; Jonathan S Evans; Barbara S Kirschner; Ashish S Patel; David Ziring; Bruce C Trapnell; Francisco A Sylvester; Michael C Stephens; Robert N Baldassano; James F Markowitz; Judy Cho; Ramnik J Xavier; Curtis Huttenhower; Bruce J Aronow; Greg Gibson; Jeffrey S Hyams; Marla C Dubinsky
Journal: Lancet Date: 2017-03-02 Impact factor: 79.321

2. Pharmacogenetic investigation of the TNF/TNF-receptor system in patients with chronic active Crohn's disease treated with infliximab.

Authors: S Mascheretti; J Hampe; T Kühbacher; H Herfarth; M Krawczak; U R Fölsch; S Schreiber
Journal: Pharmacogenomics J Date: 2002 Impact factor: 3.550

3. Association of NOD2 leucine-rich repeat variants with susceptibility to Crohn's disease.

Authors: J P Hugot; M Chamaillard; H Zouali; S Lesage; J P Cézard; J Belaiche; S Almer; C Tysk; C A O'Morain; M Gassull; V Binder; Y Finkel; A Cortot; R Modigliani; P Laurent-Puig; C Gower-Rousseau; J Macry; J F Colombel; M Sahbatou; G Thomas
Journal: Nature Date: 2001-05-31 Impact factor: 49.962

4. A frameshift mutation in NOD2 associated with susceptibility to Crohn's disease.

Authors: Y Ogura; D K Bonen; N Inohara; D L Nicolae; F F Chen; R Ramos; H Britton; T Moran; R Karaliuskas; R H Duerr; J P Achkar; S R Brant; T M Bayless; B S Kirschner; S B Hanauer; G Nuñez; J H Cho
Journal: Nature Date: 2001-05-31 Impact factor: 49.962

5. CARD15/NOD2 mutational analysis and genotype-phenotype correlation in 612 patients with inflammatory bowel disease.

Authors: Suzanne Lesage; Habib Zouali; Jean-Pierre Cézard; Jean-Frédéric Colombel; Jacques Belaiche; Sven Almer; Curt Tysk; Colm O'Morain; Miquel Gassull; Vibeke Binder; Yigael Finkel; Robert Modigliani; Corinne Gower-Rousseau; Jeanne Macry; Françoise Merlin; Mathias Chamaillard; Anne-Sophie Jannot; Gilles Thomas; Jean-Pierre Hugot
Journal: Am J Hum Genet Date: 2002-03-01 Impact factor: 11.025

6. Circuit Design Features of a Stable Two-Cell System.

Authors: Xu Zhou; Ruth A Franklin; Miri Adler; Jeremy B Jacox; Will Bailis; Justin A Shyer; Richard A Flavell; Avi Mayo; Uri Alon; Ruslan Medzhitov
Journal: Cell Date: 2018-02-01 Impact factor: 41.582

7. Defining complex contributions of NOD2/CARD15 gene mutations, age at onset, and tobacco use on Crohn's disease phenotypes.

Authors: Steven R Brant; Michael F Picco; Jean-Paul Achkar; Theodore M Bayless; Sunanda V Kane; Aaron Brzezinski; Franklin J Nouvet; Denise Bonen; Amir Karban; Themistocles Dassopoulos; Reda Karaliukas; Terri H Beaty; Stephen B Hanauer; Richard H Duerr; Judy H Cho
Journal: Inflamm Bowel Dis Date: 2003-09 Impact factor: 5.325

8. NOD2/CARD15 does not influence response to infliximab in Crohn's disease.

Authors: Severine Vermeire; Edouard Louis; Paul Rutgeerts; Martine De Vos; Andre Van Gossum; Jacques Belaiche; Paul Pescatore; Rene Fiasse; Paul Pelckmans; Robert Vlietinck; Françoise Merlin; Habib Zouali; Gilles Thomas; Jean-Frederic Colombel; Jean-Pierre Hugot
Journal: Gastroenterology Date: 2002-07 Impact factor: 22.682

9. Single-Cell Analysis of Crohn's Disease Lesions Identifies a Pathogenic Cellular Module Associated with Resistance to Anti-TNF Therapy.

Authors: Jerome C Martin; Christie Chang; Gilles Boschetti; Ryan Ungaro; Mamta Giri; John A Grout; Kyle Gettler; Ling-Shiang Chuang; Shikha Nayar; Alexander J Greenstein; Marla Dubinsky; Laura Walker; Andrew Leader; Jay S Fine; Charles E Whitehurst; M Lamine Mbow; Subra Kugathasan; Lee A Denson; Jeffrey S Hyams; Joshua R Friedman; Prerak T Desai; Huaibin M Ko; Ilaria Laface; Guray Akturk; Eric E Schadt; Helene Salmon; Sacha Gnjatic; Adeeb H Rahman; Miriam Merad; Judy H Cho; Ephraim Kenigsberg
Journal: Cell Date: 2019-08-29 Impact factor: 41.582

10. Oncostatin M drives intestinal inflammation and predicts response to tumor necrosis factor-neutralizing therapy in patients with inflammatory bowel disease.

Authors: Nathaniel R West; Ahmed N Hegazy; Benjamin M J Owens; Samuel J Bullers; Bryan Linggi; Sofia Buonocore; Margherita Coccia; Dieter Görtz; Sébastien This; Krista Stockenhuber; Johanna Pott; Matthias Friedrich; Grigory Ryzhakov; Frédéric Baribaud; Carrie Brodmerkel; Constanze Cieluch; Nahid Rahman; Gerhard Müller-Newen; Raymond J Owens; Anja A Kühl; Kevin J Maloy; Scott E Plevy; Satish Keshav; Simon P L Travis; Fiona Powrie
Journal: Nat Med Date: 2017-04-03 Impact factor: 53.440

15 in total

1. A molecular connection hints at how a genetic risk factor drives Crohn's disease.

Authors: Scott Plevy
Journal: Nature Date: 2021-04-19 Impact factor: 49.962

Review 2. Intestinal strictures in Crohn's disease: a 2021 update.

Authors: Xiaoxuan Lin; Yu Wang; Zishan Liu; Sinan Lin; Jinyu Tan; Jinshen He; Fan Hu; Xiaomin Wu; Subrata Ghosh; Minhu Chen; Fen Liu; Ren Mao
Journal: Therap Adv Gastroenterol Date: 2022-06-21 Impact factor: 4.802

3. Identification of a Disease-Associated Network of Intestinal Immune Cells in Treatment-Naive Inflammatory Bowel Disease.

Authors: Vincent van Unen; Laura F Ouboter; Na Li; Mette Schreurs; Tamim Abdelaal; Yvonne Kooy-Winkelaar; Guillaume Beyrend; Thomas Höllt; P W Jeroen Maljaars; M Luisa Mearin; Ahmed Mahfouz; Anne M C Witte; Cornelis H M Clemens; Sunje Abraham; Johanna C Escher; Boudewijn P F Lelieveldt; M Fernanda Pascutti; Andrea E van der Meulen-de Jong; Frits Koning
Journal: Front Immunol Date: 2022-06-23 Impact factor: 8.786

Review 4. Tissue Niches Formed by Intestinal Mesenchymal Stromal Cells in Mucosal Homeostasis and Immunity.

Authors: Maria Pasztoi; Caspar Ohnmacht
Journal: Int J Mol Sci Date: 2022-05-06 Impact factor: 6.208

Review 5. Intestinal Macrophage Autophagy and its Pharmacological Application in Inflammatory Bowel Disease.

Authors: Yang Zheng; Yang Yu; Xu-Feng Chen; Sheng-Lan Yang; Xiao-Long Tang; Zheng-Guo Xiang
Journal: Front Pharmacol Date: 2021-11-24 Impact factor: 5.810

6. Leukemia inhibitory factor receptor homodimerization mediated by acetylation of extracellular lysine promotes prostate cancer progression through the PDPK1/AKT/GCN5 axis.

Authors: Yufeng Ding; Honggang Chi; Jialiang Shao; Tiezhu Shi; Hua Yu; Xiang Wang; Xiongjun Wang
Journal: Clin Transl Med Date: 2022-02

7. Deleterious Genetic Variation Across the NOD Signaling Pathway Is Associated With Reduced NFKB Signaling Transcription and Upregulation of Alternative Inflammatory Transcripts in Pediatric Inflammatory Bowel Disease.

Authors: James J Ashton; Konstantinos Boukas; Imogen S Stafford; Guo Cheng; Rachel Haggarty; Tracy A F Coelho; Akshay Batra; Nadeem A Afzal; Anthony P Williams; Marta E Polak; R Mark Beattie; Sarah Ennis
Journal: Inflamm Bowel Dis Date: 2022-06-03 Impact factor: 7.290