TY - JOUR T1 - miR-320c Regulates SERPINA1 Expression and Is Induced in Patients With Pulmonary Disease JO - Archivos de Bronconeumología T2 - AU - Matamala,Nerea AU - Lara,Beatriz AU - Gómez-Mariano,Gema AU - Martínez,Selene AU - Vázquez-Domínguez,Irene AU - Otero-Sobrino,Álvaro AU - Muñoz-Callejas,Antonio AU - Sánchez,Elena AU - Esquinas,Cristina AU - Bustamante,Ana AU - Cadenas,Sergio AU - Curi,Sergio AU - Lázaro,Lourdes AU - Martínez,María Teresa AU - Rodríguez,Esther AU - Miravitlles,Marc AU - Torres-Duran,María AU - Herrero,Inés AU - Michel,Francisco Javier AU - Castillo,Silvia AU - Hernández-Pérez,José Mª AU - Blanco,Ignacio AU - Casas,Francisco AU - Martínez-Delgado,Beatriz SN - 03002896 M3 - 10.1016/j.arbres.2020.03.006 DO - 10.1016/j.arbres.2020.03.006 UR - https://archbronconeumol.org/en-mir-320c-regulates-serpina1-expression-is-articulo-S0300289620300843 AB - IntroductionAlpha-1 antitrypsin deficiency (AATD) is a genetic condition resulting in lung and liver disease with a great clinical variability. MicroRNAs have been identified as disease modifiers; therefore miRNA deregulation could play an important role in disease heterogeneity. Members of miR-320 family are involved in regulating of multiple processes including inflammation, and have potential specific binding sites in the 3′UTR region of SERPINA1 gene. In this study we explore the involvement of miR-320c, a member of this family, in this disease. MethodsFirstly in vitro studies were carried out to demonstrate regulation of SERPINA1 gene by miR-320. Furthermore, the expression of miR-320c was analyzed in the blood of 98 individuals with different AAT serum levels by using quantitative PCR and expression was correlated to clinical parameters of the patients. Finally, HL60 cells were used to analyze induction of miR-320c in inflammatory conditions. ResultsOverexpression of miR-320 members in human HepG2 cells led to inhibition of SERPINA1 expression. Analysis of miR-320c expression in patient's samples revealed significantly increased expression of miR-320c in individuals with pulmonary disease. Additionally, HL60 cells treated with the pro-inflammatory factor lipopolysaccharide (LPS) showed increase in miR-320c expression, suggesting that miR-320c responds to inflammation. ConclusionOur findings demonstrate that miR-320c inhibits SERPINA1 expression in a hepatic cell line and its levels in blood are associated with lung disease in a cohort of patients with different AAT serum levels. These results suggest that miR-320c can play a role in AAT regulation and could be a biomarker of inflammatory processes in pulmonary diseases. ER -