Roles of miRNA‐1 and miRNA‐133 in the proliferation and differentiation of myoblasts in duck skeletal muscle

Wu, Ningzhao; Gu, Tiantian; Lu, Lu; Cao, Zhen; Song, Qianqian; Wang, Zhixiu; Zhang, Yang; Chang, Guobin; Xu, Qi

doi:10.1002/jcp.26857

Cited by 42 publications

(30 citation statements)

References 35 publications

(58 reference statements)

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“…The difference among these breeds might explain this phenomenon. Many miRNAs, such as let‐7, miR‐1, miR‐23a and miR‐24, have been demonstrated that had different functions during myogenesis in different animals (Allen & Loh, ; Chen et al, ; Drummond et al, ; Elia et al, ; Wada et al, ; Wu et al, ).…”

Section: Discussionmentioning

confidence: 99%

Deciphering the miRNA transcriptome of Rongchang pig longissimus dorsi at weaning and slaughter time points

Chen

Zhao

Dou

et al. 2020

Animal Physiology Nutrition

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MicroRNA (miRNA) is essential for the process of gene posttranscriptional regulation in skeletal muscle of many species, such as mice, cattle and so on. However, a little number of miRNAs have been reported in the muscle development of Chinese native pig breeds. In this study, the longissimus dorsi transcripts of Chinese native Rongchang pig at weaning and slaughter time points were analysed for miRNA‐seq. The results showed that 19 novel and 186 known miRNAs involved in the Rongchang pig skeletal muscle development were identified. Based on these findings, we further confirmed that porcine miR‐127, miR‐299 and miR‐432‐5p were obviously down‐expressed in adult pig (287 days of age), while miR‐7134‐3p and 664‐5p were significantly up‐expressed in weaning pig (35 days of age). In other words, these miRNAs could be the potential molecular markers and play vital roles in the muscle development process. Moreover, we found miR‐127 could inhibit the proliferation and myogenesis of porcine satellite cells in longissimus dorsi muscle. Our findings will provide deep insight into miRNA function for pork quality research with Chinese indigenous pig breeds.

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Section: Discussionmentioning

confidence: 99%

Deciphering the miRNA transcriptome of Rongchang pig longissimus dorsi at weaning and slaughter time points

Chen

Zhao

Dou

et al. 2020

Animal Physiology Nutrition

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“…Porcine follicular granulosa cells (pGCs) are important in follicles, and apoptosis of pGCs is the main cause of follicular atresia. In cells, miRNAs regulate a variety of important physiological and pathological processes, including cell proliferation (Han, Yin, & Zhang, ), differentiation (Wu et al, ), apoptosis (Yao, Pan, Du, Zhang, & Li, ), and hormone biosynthesis and secretion (Song et al, ). Previous studies have indicated that miR‐222 is an important regulatory factor for cancer development (Galardi et al, ; Gong et al, ; Gu et al, ; Guo et al, ; Huang, Ouyang, Wei, & Yu, ; Iida et al, ; le Sage et al, ; Liu et al, ).…”

Section: Introductionmentioning

confidence: 99%

MiR‐222 inhibits apoptosis in porcine follicular granulosa cells by targeting the THBS1 gene

Zhu

Yang

Shang

et al. 2019

Animal Science Journal

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Apoptosis of granulosa cells affects follicular atresia and reproduction and is regulated by miRNAs and the expression of certain genes. For the present study, we investigated the regulatory relationship between microRNA‐222 (miR‐222) and THBS1 in porcine follicular granulosa cells (pGCs) and its effects on apoptosis to provide empirical data for developing methods to improve pig fecundity. Results revealed that miR‐222 promotes the proliferation of pGCs. MiRNA mimics and luciferase reporter assays revealed that miR‐222 functions as an anti‐apoptotic factor in pGCs. MiR‐222 mimics in pGCs result in the upregulation of the anti‐apoptotic BCL‐2 gene, down‐regulation of the proapoptotic caspase‐3 gene, and inhibition of apoptosis. MiR‐222 inhibitors reduced BCL‐2 and had no significant effect on caspase‐3. MiR‐222 mimics promoted estrogen levels. Inhibition of THBS1 inhibited pGC apoptosis. Transfection of THBS1‐siRNA reduced the proapoptotic BAX gene. MiR‐222 can directly target the 3′‐untranslated region of the THBS1 gene. MiR‐222 mimics suppressed THBS1 mRNA and proteins, but these were upregulated by the miR‐222 inhibitor. Transfection of THBS1‐siRNA resulted in the inhibition of the miR‐222 inhibitor, which suggests that miR‐222 inhibits pGC apoptosis by targeting THBS1. These findings suggest that miR‐222 and THBS1 play important roles in follicular atresia, ovarian development, and female reproduction.

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“…MiR-1 and miR-133 are specifically expressed in heart and skeletal muscle in humans, mice, and zebrafish (Wu et al, 2019). The miR-133 family contains three subfamilies: miR-133a-1, miR-133a-2 and miR-133b.…”

Section: The Roles Of Mir-1 and Mir-133 In Cardiovascular Related Dismentioning

confidence: 99%

“…During the metamorphosis of flatfish, the expression of HDAC4 decreased, which reduced its inhibition of MEF2 family transcription factors and promoted cell differentiation (Zhang et al, 2015). During the development of human fetus, the expression levels of miR-133 and miR-1 are directly proportional to the ability of myoblasts to form myotubes (Wu et al, 2019). MiR-133 and miR-1 upregulate the expression of MEF2 by specifically inhibiting HDAC4 and MEF2 then promotes cardiomyocyte differentiation with myogenic determination factor (MyoD).…”

Section: Myocardial Differentiationmentioning

confidence: 99%

Potential roles of microRNA-1 and microRNA-133 in cardiovascular disease

Song

Gao

Yan

2020

Reviews in Cardiovascular Medicine

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Cardiovascular disease is still the main cause of morbidity and mortality worldwide. Currently, the frontier of research into cardiovascular disease is the field of noncoding RNA. In this review, information was collected on the use of micro-RNAs as non-invasive biomarkers and their role in pathophysiological processes and therapeutic applications. In the case of microRNA-1 and microRNA-133, the roles and regulatory mechanisms of them are reviewed for arrhythmia, myocardial infarction, diabetic cardiomyopathy, myocardial hypertrophy, cardiomyocyte differentiation, and cell reprogramming. It was observed that microRNA-1 and microRNA-133 do not exist independently, but are two co-transcriptional and cooperative regulatory factors. They have diagnostic value as biomarkers, but also have the potential as therapeutic targets such as for antiarrhythmia and cardiac reprogramming.

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Roles of miRNA‐1 and miRNA‐133 in the proliferation and differentiation of myoblasts in duck skeletal muscle

Cited by 42 publications

References 35 publications

Deciphering the miRNA transcriptome of Rongchang pig longissimus dorsi at weaning and slaughter time points

Deciphering the miRNA transcriptome of Rongchang pig longissimus dorsi at weaning and slaughter time points

MiR‐222 inhibits apoptosis in porcine follicular granulosa cells by targeting the THBS1 gene

Potential roles of microRNA-1 and microRNA-133 in cardiovascular disease

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