MicroRNA-328 Contributes to Adverse Electrical Remodeling in Atrial Fibrillation

Lu, Yanjie; Zhang, Ying; Wang, Ning; Pan, Zhenwei; Gao, Xu; Zhang, Fengmin; Zhang, Yong; Shan, Hongli; Luo, Xiaobin; Bai, Yunlong; Sun, Lihua; Song, Wuqi; Xu, Chaoqian; Wang, Zhiguo; Yang, Baofeng

doi:10.1161/circulationaha.110.958967

Cited by 402 publications

(339 citation statements)

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“…A number of profiling studies suggested potential roles for miRs in AF. For example, miR-328 expression was elevated in human AF patients and in a canine AF model although direct functional analysis of miR-328 awaits further experimentation (35). MiR-21 expression was increased in AF patients, a mouse model of spontaneous AF, and age-induced atrial fibrosis whereas miR-21 knockdown suppressed atrial fibrosis and AF promotion in rats (36,37).…”

Section: Discussionmentioning

confidence: 99%

Pitx2 -microRNA pathway that delimits sinoatrial node development and inhibits predisposition to atrial fibrillation

Wang¹,

Bai

Li³

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

106

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The molecular mechanisms underlying atrial fibrillation, the most common sustained cardiac arrhythmia, remain poorly understood. Genome-wide association studies uncovered a major atrial fibrillation susceptibility locus on human chromosome 4q25 in close proximity to the paired-like homeodomain transcription factor 2 (Pitx2) homeobox gene. Pitx2, a target of the left-sided Nodal signaling pathway that initiates early in development, represses the sinoatrial node program and pacemaker activity on the left side. To address the mechanisms underlying this repressive activity, we hypothesized that Pitx2 regulates microRNAs (miRs) to repress the sinoatrial node genetic program. MiRs are small noncoding RNAs that regulate gene expression posttranscriptionally. Using an integrated genomic approach, we discovered that Pitx2 positively regulates miR-17-92 and miR-106b-25. Intracardiac electrical stimulation revealed that both miR-17-92 and miR-106b-25 deficient mice exhibit pacing-induced atrial fibrillation. Furthermore electrocardiogram telemetry revealed that mice with miR-17-92 cardiac-specific inactivation develop prolonged PR intervals whereas mice with miR-17-92 cardiac-specific inactivation and miR-106b-25 heterozygosity develop sinoatrial node dysfunction. Both arrhythmias are risk factors for atrial fibrillation in humans. Importantly, miR-17-92 and miR-106b-25 directly repress genes, such as Shox2 and Tbx3, that are required for sinoatrial node development. Together, to our knowledge, these findings provide the first genetic evidence for an miR loss-of-function that increases atrial fibrillation susceptibility. irregular heart rate | single nucleotide variant | mouse genetics A trial fibrillation (AF), the most common arrhythmia in adult patients, increases in prevalence with age to almost 5% of the population over 65. Patients with AF have an increased risk of stroke, dementia, and heart failure (1). Electrical impulses that are critical for a coordinated, physiologic heartbeat originate in the sinoatrial node (SAN). In AF, abnormal fibrillatory atrial impulses override normal SAN function, with resultant irregular conduction to the ventricles. Many cases of ectopic electrical activity originate in the pulmonary vein (2). Other sites of ectopy include the left atrial posterior wall, superior vena cava, interatrial septum, crista terminalis, and coronary sinus myocardium (3, 4).Multiple approaches have been used to uncover genes that may contribute to the AF phenotype in adult patients. A seminal genome-wide association study (GWAS), subsequently replicated by multiple studies, uncovered a single nucleotide variant (SNV) on human 4q25 that was strongly associated with familial AF (5). Patients with the 4q25 variant exhibited early onset AF that was independent from other risk factors such as hypertension and diabetes, suggesting a novel biologic mechanism involving genes located on chromosome 4q25. The presence of the 4q25 SNV also had prognostic value because patients with the SNV are prone to cardioembolic str...

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Section: Discussionmentioning

confidence: 99%

Pitx2 -microRNA pathway that delimits sinoatrial node development and inhibits predisposition to atrial fibrillation

Wang¹,

Bai

Li³

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

106

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“…Furthermore CACNA1C and CACNB1, which encode the cardiac L-type Ca 2+ channel 1c-and 1 subunits, are predicted to be potential targets of miR-328. This hypothesis has been verified using adenovirus infection and a transgenic approach to force the expression of miR-328, resulting in enhanced AF vulnerability, diminished L-type Ca 2+ currents, and shortened atrial APD [29].…”

Section: Effect Of Mirnas On Electrical and Molecular Remodeling In Afmentioning

confidence: 85%

“…Unlike polymorphisms in coding genes, polymorphisms in miRNAs are closely related to various diseases, including tumors, nervous system diseases, and cardiovascular diseases. To date, thousands of miRNA genes have been found in diverse animals, with functions in regulating cell death, cell proliferation, and hematopoiesis, and even in the process of cardiovascular disease [29,30]. Increasing evidence has identified an important role for miRNAs in AF initiation and maintenance.…”

Section: Mirna Biologymentioning

confidence: 99%

Atrial remodeling in atrial fibrillation and association between microRNA network and atrial fibrillation

Zhang

Dong

Yang

2011

Sci. China Life Sci.

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Atrial fibrillation (AF) remains one of the leading causes of morbidity and mortality in the world which are related to palpitations, fainting, congestive heart failure or stroke. The mechanism for atrial fibrillation has been identified as electrical remodeling, structure remodeling and intracellular calcium handling remodeling. microRNAs (miRNAs) have recently emerged as one of the important factors in regulating gene expression. So far, thousands of miRNA genes have been found in diverse animals with the function of regulating cell death, cell proliferation, haematopoiesis and even participate in the processing of cardiovascular disease. In this review, we summarize the mechanism of AF and the association of microRNAs network with AF. We provide a potential perspective of miRNAs as the therapeutic target for AF. atrial fibrillation, remodeling, microRNA Citation:Zhang Y, Dong D L, Yang B F. Atrial remodeling in atrial fibrillation and association between microRNA network and atrial fibrillation.

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“…1). Repressed translation of a 1C (Cav1.2) and b 1 (Cavb1) I Ca,L subunits by enhanced miR-328 is one potential mechanism of reduced I Ca,L in human AF [21]. The KCNQ1 gene encoding the major I Ks channel subunit contains putative binding sites for miR-1, which potentially links reduced miR-1 [13] levels with enhanced I Ks current in AF patients [3].…”

mentioning

confidence: 99%

“…exchanger 1 (NCX1) as a novel target of miR-1 [17], suggesting that deregulated miR-1 may contribute to the higher NCX expression and function in AF patients [14]. However, reduced miR-1 is not a consistent finding in AF, because unaltered [21] and enhanced miR-1 levels [4] have also been reported. The reason for these inconsistent findings in atrial miR levels among studies is not known, but might reflect use of right versus left atrial tissue and differences in age, concomitant diseases and medication in the studied patient populations [5,12,29].…”

mentioning

confidence: 99%

Is altered atrial microRNA-ome a critical contributor to the pathophysiology of atrial fibrillation?

Dobrev

2012

Basic Res Cardiol

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MicroRNA-328 Contributes to Adverse Electrical Remodeling in Atrial Fibrillation

Cited by 402 publications

References 53 publications

Pitx2 -microRNA pathway that delimits sinoatrial node development and inhibits predisposition to atrial fibrillation

Pitx2 -microRNA pathway that delimits sinoatrial node development and inhibits predisposition to atrial fibrillation

Atrial remodeling in atrial fibrillation and association between microRNA network and atrial fibrillation

Is altered atrial microRNA-ome a critical contributor to the pathophysiology of atrial fibrillation?

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