Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 MicroRNA expression abnormalities in limited cutaneous scleroderma and diffuse cutaneous scleroderma.

Literature DB >> 22307526

MicroRNA expression abnormalities in limited cutaneous scleroderma and diffuse cutaneous scleroderma.

Honglin Zhu¹, Yisha Li, Shunlin Qu, Hui Luo, Yaou Zhou, Yanping Wang, Hongjun Zhao, Yunhui You, Xianzhong Xiao, Xiaoxia Zuo.

Abstract

Scleroderma (systemic sclerosis, SSc) is a complex autoimmune disease caused by progressive fibrotic replacement of normal tissue architecture, a progressive and ultimately fatal process that currently has no cure. Although dysregulation of microRNAs (miRNAs) is known to be involved in a variety of pathophysiologic processes, the role of miRNAs in SSc is unclear. In comparison with the normal skin tissues, miRNAs were aberrantly expressed in limited cutaneous scleroderma and diffuse cutaneous scleroderma skin tissues. We also identified miRNAs whose expressions were correlated with SSc fibrosis: miR-21, miR-31, miR-146, miR-503, miR-145, and miR-29b were predicted to be involved. This study further confirmed that miR-21 was increased whereas miR-145 and miR-29b were decreased both in the skin tissues and fibroblasts. As predicted target genes, SMAD7, SAMD3, and COL1A1 were regulated by these miRNAs. After stimulation with transforming growth factor β, the expression of miR-21 was increased and that of SMAD7 mRNA was decreased. MiR-145 was upregulated whereas the mRNA level of SMAD3 was downregulated. The downregulation of miR-29b was correlated with the upregulation of COL1A1 mRNA. MiRNAs might play an important role in the pathogenesis of SSc and suggest a potential therapy.

Entities: Disease Gene

Mesh：

Substances：

Year: 2012 PMID： 22307526 DOI： 10.1007/s10875-011-9647-y

Source DB: PubMed Journal: J Clin Immunol ISSN： 0271-9142 Impact factor: 8.317

24 in total

Review 1. Scleroderma and Smads: dysfunctional Smad family dynamics culminating in fibrosis.

Authors: John Varga
Journal: Arthritis Rheum Date: 2002-07

Review 2. microRNA functions.

Authors: Natascha Bushati; Stephen M Cohen
Journal: Annu Rev Cell Dev Biol Date: 2007 Impact factor: 13.827

Review 3. Small non-coding RNAs in animal development.

Authors: Giovanni Stefani; Frank J Slack
Journal: Nat Rev Mol Cell Biol Date: 2008-03 Impact factor: 94.444

4. LNA-mediated microRNA silencing in non-human primates.

Authors: Joacim Elmén; Morten Lindow; Sylvia Schütz; Matthew Lawrence; Andreas Petri; Susanna Obad; Marie Lindholm; Maj Hedtjärn; Henrik Frydenlund Hansen; Urs Berger; Steven Gullans; Phil Kearney; Peter Sarnow; Ellen Marie Straarup; Sakari Kauppinen
Journal: Nature Date: 2008-03-26 Impact factor: 49.962

5. Dysregulation of transforming growth factor beta signaling in scleroderma: overexpression of endoglin in cutaneous scleroderma fibroblasts.

Authors: A Leask; D J Abraham; D R Finlay; A Holmes; D Pennington; X Shi-Wen; Y Chen; K Venstrom; X Dou; M Ponticos; C Black; C Bernabeu; J K Jackman; P R Findell; M K Connolly
Journal: Arthritis Rheum Date: 2002-07

6. Preliminary criteria for the classification of systemic sclerosis (scleroderma). Subcommittee for scleroderma criteria of the American Rheumatism Association Diagnostic and Therapeutic Criteria Committee.

Authors:
Journal: Arthritis Rheum Date: 1980-05

7. Immunohistological demonstration of transforming growth factor-beta isoforms in the skin of patients with systemic sclerosis.

Authors: P P Sfikakis; B K McCune; M Tsokos; K Aroni; G Vayiopoulos; G C Tsokos
Journal: Clin Immunol Immunopathol Date: 1993-11

8. A TGFbeta-responsive gene signature is associated with a subset of diffuse scleroderma with increased disease severity.

Authors: Jennifer L Sargent; Ausra Milano; Swati Bhattacharyya; John Varga; M Kari Connolly; Howard Y Chang; Michael L Whitfield
Journal: J Invest Dermatol Date: 2009-10-08 Impact factor: 8.551

Review 9. Toward microRNA-based therapeutics for heart disease: the sense in antisense.

Authors: Eva van Rooij; William S Marshall; Eric N Olson
Journal: Circ Res Date: 2008-10-24 Impact factor: 17.367

10. Antagonism of microRNA-122 in mice by systemically administered LNA-antimiR leads to up-regulation of a large set of predicted target mRNAs in the liver.

Authors: Joacim Elmén; Morten Lindow; Asli Silahtaroglu; Mads Bak; Mette Christensen; Allan Lind-Thomsen; Maj Hedtjärn; Jens Bo Hansen; Henrik Frydenlund Hansen; Ellen Marie Straarup; Keith McCullagh; Phil Kearney; Sakari Kauppinen
Journal: Nucleic Acids Res Date: 2007-12-23 Impact factor: 16.971

50 in total

Review 1. The role of microRNAs in skin fibrosis.

Authors: Olubukola Babalola; Andrew Mamalis; Hadar Lev-Tov; Jared Jagdeo
Journal: Arch Dermatol Res Date: 2013-11 Impact factor: 3.017

Review 2. The sex bias in systemic sclerosis: on the possible mechanisms underlying the female disease preponderance.

Authors: Fabio D'Amico; Evangelia Skarmoutsou; Maria Clorinda Mazzarino
Journal: Clin Rev Allergy Immunol Date: 2014-12 Impact factor: 8.667

3. MicroRNA-21 in scleroderma fibrosis and its function in TGF-β-regulated fibrosis-related genes expression.

Authors: Honglin Zhu; Hui Luo; Yisha Li; Yaou Zhou; Ying Jiang; Jin Chai; Xianzhong Xiao; Yunhui You; Xiaoxia Zuo
Journal: J Clin Immunol Date: 2013-05-09 Impact factor: 8.317

Review 4. Pathogenesis of Systemic Sclerosis.

Authors: Debendra Pattanaik; Monica Brown; Bradley C Postlethwaite; Arnold E Postlethwaite
Journal: Front Immunol Date: 2015-06-08 Impact factor: 7.561

Review 5. MicroRNA: master controllers of intracellular signaling pathways.

Authors: Pak-Yin Lui; Dong-Yan Jin; Nigel J Stevenson
Journal: Cell Mol Life Sci Date: 2015-06-10 Impact factor: 9.261

Review 6. Epigenetics and systemic sclerosis.

Authors: Nezam Altorok; Bashar Kahaleh
Journal: Semin Immunopathol Date: 2015-07-11 Impact factor: 9.623