A Circulating MicroRNA Signature Serves as a Diagnostic and Prognostic Indicator in Sarcoidosis.

Pubmed ID: 28812922

Pubmed Central ID: PMC5941311

Journal: American journal of respiratory cell and molecular biology

Publication Date: Jan. 1, 2018

Affiliation: Department of Microbiology and Immunology.

Grants: F30 HL137267, T32 HL082547, R01 HL138628

Authors: Moran A, Yeager H, Yeager H, Rossman MD, Rossman MD, Baughman RP, Baughman RP, Teirstein AS, Teirstein AS, Judson MA, Judson MA, Rabin DL, Iannuzzi MC, Iannuzzi MC, Rose C, Bresnitz EA, DePalo L, Johns CJ, McLennan G, McLennan G, McLennan G, Moller DR, Moller DR, Newman LS, Newman LS, Weinberger SE, Cherniack R, Cherniack R, Cherniack R, Terrin ML, Terrin ML, Rybicki BA, Brown K, Marshall M, Ascoli C, Huang Y, Schott C, Turturice BA, Metwally A, Perkins DL, Finn PW, Johnson T, Finn P, Finn P, Garpestad E, Stein S, Major M, Maliarik M, Maliarik M, Popovich J, Rand C, Steimel J, D'Alessandro S, Heister N, Lackland DT, Pandey J, Pandey J, Sahn S, Strange C, Brown S, Brown S, Lesser M, Lesser M, Padilla ML, Barnard J, Lower EE, Winget DB, Hunninghake G, Hunninghake G, Dayton C, Powers L, Daniele R, Regovich J, Sexauer W, Musson R, Musson R, Deshler J, Deshler J, Sorlie P, Wu M, Newman L, Newman L, Newman L, Knatterud GL, Knatterud GL, Knatterud GL, Thompson BW, Frederick M, LoPresti F, Wilkins P, Canner M, Dotson J, Bioservices M, Lindenfelser S, Cosentino M, Baughman R, Rossman M, Monos D, Lee CW, Cizman B, Moller D, Almenoff P, Brett I, Kotzin B, Jaffe RD, Musson RA, Weinberger TE, Martin W, Ashikaga T, Coultas DB, Davis GS, Gifford F, Schlesselman JJ, Stover D

Cite As: Ascoli C, Huang Y, Schott C, Turturice BA, Metwally A, Perkins DL, Finn PW, ACCESS Research Group. A Circulating MicroRNA Signature Serves as a Diagnostic and Prognostic Indicator in Sarcoidosis. Am J Respir Cell Mol Biol 2018 Jan;58(1):40-54.

Studies:

Abstract

MicroRNAs (miRNAs) act as post-transcriptional regulators of gene expression. In sarcoidosis, aberrant miRNA expression may enhance immune responses mounted against an unknown antigenic agent. We tested whether a distinct miRNA signature functions as a diagnostic biomarker and explored its role as an immune modulator in sarcoidosis. The expression of miRNAs in peripheral blood mononuclear cells from subjects who met clinical and histopathologic criteria for sarcoidosis was compared with that observed in matched controls in the ACCESS (A Case Controlled Etiologic Study of Sarcoidosis) study. Signature miRNAs were determined by miRNA microarray analysis and validated by quantitative RT-PCR. Microarray analysis identified 54 mature, human feature miRNAs that were differentially expressed between the groups. Significant feature miRNAs that distinguished subjects with sarcoidosis from controls were selected by means of probabilistic models adjusted for clinical variables. Eight signature miRNAs were chosen to verify the diagnosis of sarcoidosis in a validation cohort, and distinguished subjects with sarcoidosis from controls with a positive predictive value of 88%. We identified both novel and previously described genes and molecular pathways associated with sarcoidosis as targets of these signature miRNAs. Additionally, we demonstrate that signature miRNAs (hsa-miR-150-3p and hsa-miR-342-5p) are significantly associated with reduced lymphocytes and airflow limitations, both of which are known markers of a poor prognosis. Together, these findings suggest that a circulating miRNA signature serves as a noninvasive biomarker that supports the diagnosis of sarcoidosis. Future studies will test the miRNA signature as a prognostication tool to identify unfavorable changes associated with poor clinical outcomes in sarcoidosis.