APA
Costa, Marina C. & Calderon Dominguez, Maria & Mangas, Alipio & Campuzano, Oscar & Sarquella Brugada, Georgia & Ramos Sánchez, Mónica & Quezada Feijoó, Dolores Maribel & Robles Mezcua, Ainhoa & Pacheco¿Cruz, Galan del Aguila & Belmonte, Thalia & Enguita, Francisco J. & Toro, Rocío .Circulating circRNA as biomarkers for dilated cardiomyopathy etiology.
ISO 690
Costa, Marina C. & Calderon Dominguez, Maria & Mangas, Alipio & Campuzano, Oscar & Sarquella Brugada, Georgia & Ramos Sánchez, Mónica & Quezada Feijoó, Dolores Maribel & Robles Mezcua, Ainhoa & Pacheco¿Cruz, Galan del Aguila & Belmonte, Thalia & Enguita, Francisco J. & Toro, Rocío. Circulating circRNA as biomarkers for dilated cardiomyopathy etiology.
https://hdl.handle.net/20.500.12080/25604
Abstract:
Dilated cardiomyopathy (DCM) is the third most common cause of
heart failure. The multidisciplinary nature of testing ¿ involving
genetics, imaging, or cardiovascular techniques ¿ makes its
diagnosis challenging. Novel and reliable biomarkers are needed
for early identifcation and tailored personalized management.
Peripheral circular RNAs (circRNAs), a leading research
topic, remain mostly unexplored in DCM. We aimed to assess
whether peripheral circRNAs are expressed diferentially among
etiology-based DCM. The study was based on a case¿control
multicentric study. We enrolled 130 subjects: healthy controls
(n=20), idiopathic DCM (n=30), ischemic DCM (n=20), and
familial DCM patients which included pathogen variants of
(i) LMNA gene (n=30) and (ii) BCL2-associated athanogene 3
(BAG3) gene (n=30). Diferentially expressed circRNAs were
analyzed in plasma samples by quantitative RT-PCR and cor¿
related to relevant systolic and diastolic parameters. The patho¿
physiological implications were explored through bioinformatics
tools. Four circRNAs were overexpressed compared to controls:
hsa_circ_0003258, hsa_circ_0051238, and hsa_circ_0051239
in LMNA-related DCM and hsa_circ_0089762 in the ischemic
DCM cohort. The obtained areas under the curve confrm the
discriminative capacity of circRNAs. The circRNAs correlated
with some diastolic and systolic echocardiographic parameters
with notable diagnostic potential in DCM. Circulating circRNAs
may be helpful for the etiology-based diagnosis of DCM as a
non-invasive biomarker.