Your search keyword '"Niu Lili"' showing total 11 results

1. Cooked pork-derived exosome nanovesicles mediate metabolic disorder—microRNA could be the culprit

Author

Shen, Linyuan, Ma, Jianfeng, Yang, Yiting, Liao, Tianci, Wang, Jinyong, Chen, Lei, Zhang, Shunhua, Zhao, Ye, Niu, Lili, Hao, Xiaoxia, Jiang, Anan, Li, Xuewei, Gan, Mailin, and Zhu, Li

Published

2023

2. Identification and expression profile of microRNA in seven tissues of the Golden snub-nosed monkey (Rhinopithecus roxellanae)

Author

Yang, Qiao, Yu, Jianqiu, Jiang, Lan, Liu, Xuanzhen, Liu, Fangyuan, Cai, Yansen, Niu, Lili, Price, Megan, and Li, Jing

Published

2020

3. miRNAs derived from cobra venom exosomes contribute to the cobra envenomation.

Author

Liao, Tianci, Gan, Mailin, Qiu, Yanhao, Lei, Yuhang, Chen, Qiuyang, Wang, Xingyu, Yang, Yiting, Chen, Lei, Zhao, Ye, Niu, Lili, Wang, Yan, Zhang, Shunhua, Zhu, Li, and Shen, Linyuan

Subjects

VENOM, EXOSOMES, SNAKE venom, MICRORNA, MICE, COBRAS, GENE expression, SNAKEBITES, ULTRACENTRIFUGATION

Abstract

Currently, there is an increasing amount of evidence indicating that exosomes and the miRNAs they contain are crucial players in various biological processes. However, the role of exosomes and miRNAs in snake venom during the envenomation process remains largely unknown. In this study, fresh venom from Naja atra of different ages (2-month-old, 1-year-old, and 5-year-old) was collected, and exosomes were isolated through ultracentrifugation. The study found that exosomes with inactivated proteins and enzymes can still cause symptoms similar to cobra envenomation, indicating that substances other than proteins and enzymes in exosomes may also play an essential role in cobra envenomation. Furthermore, the expression profiles of isolated exosome miRNAs were analyzed. The study showed that a large number of miRNAs were co-expressed and abundant in cobra venom exosomes (CV-exosomes) of different ages, including miR-2904, which had high expression abundance and specific sequences. The specific miR-2094 derived from CV-exosomes (CV-exo-miR-2904) was overexpressed both in vitro and in vivo. As a result, CV-exo-miR-2904 induced symptoms similar to cobra envenomation in mice and caused liver damage, demonstrating that it plays a crucial role in cobra envenomation. These results reveal that CV-exosomes and the miRNAs they contain play a significant regulatory role in cobra envenomation. Our findings provide new insights for the treatment of cobra bites and the development of snake venom-based medicines. [ABSTRACT FROM AUTHOR]

Published

2023

4. Characteristics of microRNAs in Skeletal Muscle of Intrauterine Growth-Restricted Pigs.

Author

Jing, Yunhong, Gan, Mailin, Xie, Zhongwei, Ma, Jianfeng, Chen, Lei, Zhang, Shunhua, Zhao, Ye, Niu, Lili, Wang, Yan, Zhu, Li, and Shen, Linyuan

Subjects

SKELETAL muscle, GENE expression, SWINE, MICRORNA, NON-coding RNA

Abstract

microRNAs are a class of small RNAs that have been extensively studied, which are involved in many biological processes and disease occurrence. The incidence of intrauterine growth restriction is higher in mammals, especially multiparous mammals. In this study, we found that the weight of the longissimus dorsi of intrauterine growth-restricted pigs was significantly lower than that of normal pigs. Then, intrauterine growth-restricted pig longissimus dorsi were used to characterize miRNA expression profiles by RNA sequencing. A total of 333 miRNAs were identified, of which 26 were differentially expressed. Functional enrichment analysis showed that these differentially expressed miRNAs regulate the expression of their target genes (such as PIK3R1, CCND2, AKT3, and MAP3K7), and these target genes play an important role in the proliferation and differentiation of skeletal muscle through signaling pathways such as the PI3K-Akt, MAPK, and FoxO signaling pathways. Furthermore, miRNA-451 was significantly upregulated in IUGR pig skeletal muscle. Overexpression of miR-451 in C2C12 cells significantly promoted the expression of Mb, Myod, Myog, Myh1, and Myh7, suggesting that miR-451 may be involved in the regulation of the myoblastic differentiation of C2C12 cells. Our results reveal the role of miRNA-451 in regulating myogenic differentiation of skeletal muscle in pigs with intrauterine growth restriction. [ABSTRACT FROM AUTHOR]

Published

2023

5. Potential Function of Testicular MicroRNAs in Heat-Stress-Induced Spermatogenesis Disorders.

Author

Gan, Mailin, Jing, Yunhong, Xie, Zhongwei, Ma, Jianfeng, Chen, Lei, Zhang, Shunhua, Zhao, Ye, Niu, Lili, Wang, Yan, Li, Xuewei, Zhu, Li, and Shen, Linyuan

Subjects

SPERMATOGENESIS, TESTIS physiology, MICRORNA, SEMEN analysis, GENE expression, CELL cycle

Abstract

Spermatogenesis is temperature-dependent, and the increase in testicular temperature seriously affects mammalian spermatogenesis and semen quality. In this study, the testicular heat stress model of mice was made with a 43 °C water bath for 25 min, and the effects of heat stress on semen quality and spermatogenesis-related regulators were analyzed. On the 7th day after heat stress, testis weight shrank to 68.45% and sperm density dropped to 33.20%. High-throughput sequencing analysis showed that 98 microRNAs (miRNAs) and 369 mRNAs were down-regulated, while 77 miRNAs and 1424 mRNAs were up-regulated after heat stress. Through gene ontology (GO) analysis of differentially expressed genes and miRNA–mRNA co-expression networks, it was found that heat stress may be involved in the regulation of testicular atrophy and spermatogenesis disorders by affecting cell meiosis process and cell cycle. In addition, through functional enrichment analysis, co-expression regulatory network, correlation analysis and in vitro experiment, it was found that miR-143-3p may be a representative potential key regulatory factor affecting spermatogenesis under heat stress. In summary, our results enrich the understanding of miRNAs in testicular heat stress and provide a reference for the prevention and treatment of heat-stress-induced spermatogenesis disorders. [ABSTRACT FROM AUTHOR]

Published

2023

6. Characterization of microRNAs from sheep (Ovis aries) using computational and experimental analyses

Author

Sheng, Xihui, Song, Xuemei, Yu, Yan, Niu, Lili, Li, Shangang, Li, Hongbin, Wei, Caihong, Liu, Tao, Zhang, Li, and Du, Lixin

Published

2011

7. Characteristics of tRNA-Derived Small RNAs and microRNAs Associated with Immunocompromise in an Intrauterine Growth-Restricted Pig Model.

Author

Ma, Jianfeng, Gan, Mailin, Chen, Jingyun, Chen, Lei, Zhao, Ye, Zhu, Yan, Niu, Lili, Zhang, Shunhua, Jiang, Yanzhi, Guo, Zongyi, Wang, Jinyong, Zhu, Li, and Shen, Linyuan

Subjects

NON-coding RNA, TRANSFER RNA, FETAL growth retardation, MICRORNA, MAMMAL mortality, SWINE

Abstract

Simple Summary: Intrauterine growth restriction (IUGR) refers to the slow growth and development of an embryo or fetus in the uterus of mammals. IUGR newborns commonly present with slow growth and the development of the body and organs accompany increased risks of infection during the early life period. IUGR remains a significant global public health issue, particularly in developing countries. In this work, we investigated the transfer RNA-derived small RNA and microRNA expression profiles in the spleen using pigs as an IUGR model. These results uncover an important potential regulator network involved in immunocompromise caused by IUGR. The present studies provide a novel perspective on the molecular regulatory mechanism of IUGR and a reference for prevention and treatment. Intrauterine growth restriction (IUGR) is an important cause of newborn morbidity and mortality in mammals. Transfer RNA-derived small RNA (tsRNA) has become an emerging non-coding RNA in recent years. tsRNA and microRNAs (miRNAs) share similar mechanisms, which are involved in various biological processes. In this study, the pig was used as a model of IUGR, and the tsRNA and miRNA expression profile in the spleen was characterized by RNA sequencing. A total of 361 miRNAs and 620 tsRNAs were identified, of which 22 were differentially expressed miRNA (DEM) and 25 differentially expressed tsRNA (DET). tRF-5c were the primary tsRNA type making up more than 90%, and the most abundantly expressed tsRNAs are from tRNA-Gly-GCC. Functional enrichment analysis found that those DETs and DEMs have been implicated in the immune system process. Protein–protein interaction (PPI) network analysis revealed ssc-miR-370, ssc-miR-206, tiRNA-Ser-TGA-001 and tRF-Val-AAC-034 could be major regulators. TNF, TLR4, CD44, MAPK1 and STAT1 were predicted hub target genes. Those DETs and DEMs may regulate the T-cell receptor signaling pathway and Toll-like receptor signaling pathway to mediate the immunocompromise caused by IUGR. The results discussed in this article uncover the potential role of tsRNAs and miRNAs in IUGR porcine spleen. [ABSTRACT FROM AUTHOR]

Published

2022

8. MiR-499 inhibited hypoxia/reoxygenation induced cardiomyocytes injury by targeting SOX6.

Author

Shi, Yujie, Han, Yunfeng, Niu, Lili, Li, Junxia, and Chen, Yundai

Subjects

HYPOXEMIA, HEART cells, MYOCARDIAL infarction, MICRORNA, REPERFUSION injury

Abstract

Objective: MiR-499 has been reported to be expressed only in cardiomyocytes, and its expression would increase after acute myocardial infarction (AMI). miR-499 plays a role in the process of cardiomyocytes injury induced by hypoxia/reoxygenation (H/R), however, it still remains unclear. Results: Hypoxia inhibited miR-499-5p expression and H/R induced apoptosis. SOX6 was a target gene of miR-499-5p, and high expression of miR-499-5p inhibited the expression of SOX6. MiR-499-5p reduced H9c2 cells injury by inhibiting the expression of SOX6, overexpression of which could reverse the effect of miR-499-5p on H9c2 cells. MiR-499-5p inhibited the levels of LDH and MDA, while overexpression of miR-499-5p inhibited H/R-induced cell apoptosis. MiR-499-5p could up-regulate the level of Bcl-2 and down-regulate the expression levels of Bax and caspase-3. However, SOX6 partially reversed these effects of miR-499-5p. Conclusion: We proved that miR-499-5p inhibited H/R-induced cardiomyocytes injury by targeting SOX6. Our results suggested that miR-499-5p/SOX6 pathway may present a potential therapeutic target for the treatment of AMI. [ABSTRACT FROM AUTHOR]

Published

2019

9. MicroRNA-126b-5p Exacerbates Development of Adipose Tissue and Diet-Induced Obesity.

Author

Shen, Linyuan, He, Jin, Zhao, Ye, Niu, Lili, Chen, Lei, Tang, Guoqing, Jiang, Yanzhi, Hao, Xiaoxia, Bai, Lin, Li, Xuewei, Zhang, Shunhua, and Zhu, Li

Subjects

ADIPOSE tissues, INSULIN resistance, DRUG target, NON-coding RNA, MICRORNA, ADIPOSE tissue physiology

Abstract

Obesity has become a worldwide epidemic, caused by many factors such as genetic regulatory elements, unhealthy diet, and lack of exercise. MicroRNAs (miRNAs) are non-coding single-stranded RNA classes, which are about 22 nucleotides in length and highly conserved among species. In the last decade, a series of miRNAs were identified as therapeutic targets for obesity. In the present study, we found that miR-126b-5p was associated with adipogenesis. miR-126b-5p overexpression promoted the proliferation of 3T3-L1 preadipocytes by upregulating the expression of proliferation-related genes and downregulating the expression of apoptosis-related genes; the inhibition of miR-126b-5p gave rise to opposite results. Similarly, miR-126b-5p overexpression could promote the differentiation of 3T3-L1 preadipocytes by increasing the expression of lipid deposition genes and triglyceride (TG) and total cholesterol (TC) levels. Moreover, luciferase reporter assay demonstrated that adiponectin receptor 2 (Adipor2) and acyl-CoA dehydrogenase, long chain (ACADL) were the direct target genes of miR-126b-5p. Moreover, overexpression of miR-126b-5p could exacerbate the clinical symptoms of obesity when mice were induced by a high-fat diet, including increased adipose tissue weight, adipocyte volume, and insulin resistance. Interestingly, overexpression of miR-126b-5p in preadipocytes and mice could significantly increase total fatty acid content and change the fatty acid composition of adipose tissue. Taken together, the present study showed that miR-126b-5p promotes lipid deposition in vivo and in vitro, indicating that miR-126b-5p is a potential target for treating obesity. [ABSTRACT FROM AUTHOR]

Published

2021

10. Comparison of MicroRNA Transcriptomes Reveals the Association between MiR-148a-3p Expression and Rumen Development in Goats.

Author

Zhong, Tao, Wang, Cheng, Hu, Jiangtao, Chen, Xiaoyong, Niu, Lili, Zhan, Siyuan, Wang, Linjie, Guo, Jiazhong, Cao, Jiaxue, Li, Li, and Zhang, Hongping

Subjects

TRANSCRIPTOMES, JAK-STAT pathway, GOATS, MICRORNA, GOAT diseases, GENETIC regulation, RUMEN (Ruminants)

Abstract

Simple Summary: In ruminants, the rumen epithelium plays an important role in nutrient absorption, metabolism and transport. MicroRNAs (miRNAs) have been reported to regulate the proliferation of diverse epithelial cells. In this study, we profiled the miRNA transcriptomes of goat rumens at four development stages and screened for candidate miRNAs related to rumen development. MiR-148a-3p was found to be highly expressed in the rumen tissues and induced the proliferation of GES-1 cells by targeting QKI. Our findings provide some insights into the functional roles of miRNAs in rumen growth and functional development in ruminants. The rumen is an important digestive organ of ruminants. From the fetal to adult stage, the morphology, structure and function of the rumen change significantly. However, the knowledge of the intrinsic genetic regulation of these changes is still limited. We previously reported a genome-wide expression profile of miRNAs in pre-natal goat rumens. In this study, we combined and analyzed the transcriptomes of rumen miRNAs during pre-natal (E60 and E135) and post-natal (D30 and D150) stages. A total of 66 differentially expressed miRNAs (DEMs) were identified in the rumen tissues from D30 and D150 goats. Of these, 17 DEMs were consistently highly expressed in the rumens at the pre-weaning stages (E60, E135 and D30), while down-regulated at D150. Noteworthy, annotation analysis revealed that the target genes regulated by the DEMs were mainly enriched in MAPK signaling pathway, Jak-STAT signaling pathway and Ras signaling pathway. Interestingly, the expression of miR-148a-3p was significantly high in the embryonic stage and down-regulated at D150. The potential binding sites of miR-148a-3p in the 3′-UTR of QKI were predicted by the TargetScan and verified by the dual luciferase report assay. The co-localization of miR-148a-3p and QKI through in situ hybridization was observed in the rumen tissues but not in the intestinal tracts. Moreover, the expression of miR-148a-3p in the epithelium was significantly higher than that in the other layers of the rumen, suggesting that miR-148a-3p is involved in the development of the rumen epithelial cells by targeting QKI. Subsequently, miR-148a-3p inhibitor was found to induce the proliferation of GES-1 cells. Taken together, our study identified DEMs involved in the development of the rumen and provides insights into the regulation mechanism of rumen development in goats. [ABSTRACT FROM AUTHOR]

Published

2020

11. MicroRNA-143a-3p modulates preadipocyte proliferation and differentiation by targeting MAPK7.

Author

Zhang, Peiwen, Du, Jingjing, Wang, Linghui, Niu, Lili, Zhao, Ye, Tang, Guoqing, Jiang, Yanzhi, Shuai, Surong, Bai, Lin, Li, Xuewi, Wang, Jinyong, Zhang, Shunhua, and Zhu, Li

Subjects

*MICRORNA, *FAT cells, *CELL proliferation, *CELL differentiation, *MITOGEN-activated protein kinases

Abstract

Abstract Adipogenesis plays a key role in increasing fat mass, which is a main characteristic for obesity, and involves preadipocyte proliferation and differentiation. Recently, more and more evidences suggested that microRNAs (miRNAs) is an important member of the regulatory network of adipogenesis. In this study, miR-143a-3p was highly expressed in adipose tissues of obese mice, and was up-regulated at the middle and last stage of 3T3-L1 adipocyte differentiation. Using mouse 3T3-L1 cells line, which is an ideal model in vitro for the study of adipogenesis, we observed that overexpression of miR-143a-3p inhibited the preadipocyte proliferation, and enhanced the preadipocyte differentiation. In contrast, the inhibition of miR-143a-3p expression promoted the preadipocyte proliferation, and inhibited the preadipocyte differentiation. Further analysis suggested that miR-143a-3p mediating preadipocyte differentiation might be involved in fatty acid metabolism. In addition, we found that miR-143-3p and PPARγ, an activator of miR-143a-3p transcription, could regulate each other. Compared with miR-143a-3p, MAPK7 played an opposite role in the proliferation and differentiation of adipocyte. Further analysis indicated that MAPK7 is a target gene of miR-143a-3p in 3T3-L1 cells, and inhibition of MAPK7 recede the effect of miR-143a-3p on preadipocyte proliferation and differentiation. Taken together, these results indicated that as a regulator of PPARγ, miR-143a-3p play an important role in adipogenesis via regulating MAPK7 and fatty acid. [ABSTRACT FROM AUTHOR]

Published

2018