Your search keyword '"Junjie Xiao"' showing total 463 results

51. Exercise downregulates HIPK2 and HIPK2 inhibition protects against myocardial infarction

Author

Qiulian Zhou, Jiali Deng, Jianhua Yao, Jiaxin Song, Danni Meng, Yujiao Zhu, Minjun Xu, Yajun Liang, Jiahong Xu, Joost PG Sluijter, and Junjie Xiao

Subjects

Exercise, Myocardial infarction, HIPK2, miR-222, Medicine, Medicine (General), R5-920

Abstract

Background: Exercise can protect myocardial infarction (MI) and downregulate cardiac Homeodomain-Interacting Protein Kinase 2 (HIPK2). However, the role of HIPK2 in MI is unclear. Methods: HIPK2–/– mice and miR-222–/– rats, HIPK2 inhibitor (PKI1H) and adeno-associated virus serotype 9 (AAV9) carrying miR-222 were applied in the study. Animals were subjected to running, swimming, acute MI or post-MI remodeling. HIPK2 inhibition and P53 activator were used in neonatal rat cardiomyocytes (NRCMs) and human embryonic stem cell-derived cardiomyocytes (hESC-CMs) subjected to oxygen glucose deprivation/reperfusion (OGD/R). Serum miR-222 levels were analyzed in healthy people and MI patients that were survival or readmitted to the hospital and/or died. Findings: Cardiac HIPK2 protein levels were reduced by exercise while increased in MI. In vitro, HIPK2 suppression by lentiviral vectors or inhibitor prevented apoptosis induced by OGD/R in NRCMs and hESC-CMs. HIPK2 inhibitor-treated mice and HIPK2–/– mice reduced infarct size after acute MI, and preserved cardiac function in MI remodeling. Mechanistically, protective effect against apoptosis by HIPK2 suppression was reversed by P53 activators. Furthermore, increasing levels of miR-222, targeting HIPK2, protected post-MI cardiac dysfunction, whereas cardiac dysfunction post-MI was aggravated in miR-222–/– rats. Moreover, serum miR-222 levels were significantly reduced in MI patients, as well as in MI patients that were readmitted to the hospital and/or died compared to those not. Interpretation: Exercise-induced HIPK2 suppression attenuates cardiomyocytes apoptosis and protects MI by decreasing P-P53. Inhibition of HIPK2 represents a potential novel therapeutic intervention for MI. Funding: This work was supported by the grants from National Key Research and Development Project (2018YFE0113500 to JJ Xiao), National Natural Science Foundation of China (82020108002, 81722008, and 81911540486 to JJ Xiao, 81400647 to MJ Xu, 81800265 to YJ Liang), Innovation Program of Shanghai Municipal Education Commission (2017-01-07-00-09-E00042 to JJ Xiao), the grant from Science and Technology Commission of Shanghai Municipality (18410722200 and 17010500100 to JJ Xiao), the “Dawn” Program of Shanghai Education Commission (19SG34 to JJ Xiao), Shanghai Sailing Program (21YF1413200 to QL Zhou). JS is supported by Horizon2020 ERC-2016-COG EVICARE (725229).

Published

2021

52. ENGINEERED EXTRACELLULAR VESICLES AND NANOPARTICLES: PROMISING TOOLS FOR DISEASE TREATMENT

Author

Hongyun WANG, Xinyue ZHU, and Junjie XIAO

Subjects

extracellular vesicles, nanoparticles, Medicine, Medicine (General), R5-920

Abstract

Living forever is a beautiful vision that human being has been pursuing. With the development of science and technology, an increasing number of approaches have been emerging for repairing and regenerating the damaged organs, such as cell therapy, gene therapy and transplant etc. However, the side effects of these methods limit their clinical use. For example, myoblast transplantation leads to an increase in number of early postoperative arrhythmic events(1). Therefore, it has a long way to use these approaches for clinical therapy in a short-term and it is urgent to look for secure effective strategies. Recently, extracellular vesicles (EVs) have attracted extensive interests as a potential therapeutic strategy of diseases such as cancer, cardiovascular diseases etc. A growing number of investigations demonstrate that various engineered EVs can repair the damaged tissue in vivo(2). This editorial highlights 6 selected papers dedicated to the engineered extracellular vesicles as well as nanoparticles, including: 1) classical strategies for modifying EVs; 2) the roles of engineered EVs in treatment. Besides, the outlook for engineered EVs has been briefly discussed. To improve the efficiency of EVs as well as targeted tissue retention, several investigations were performed. Kyle et al firstly used a cardiomyocytes specific peptide (CMP) to make the cardiac-targeted EVs(3). It was then verified that the modified EVS (CMP- EVs) can be specifically taken up by cardio-myocytes both in vitro and in vivo. This approach laid the foundation for cell and cardiac-specific EVs delivery, which gives a reference for studying targeted-EV. Interestingly, Tang et al came up with a novel idea based on the recruitment of platelets by injured endothelial cells(4). These authors decorated platelet-microvesicles (inside of platelet, similar with EVs) on the surface of cardiosphere-derived cardiac stem cells (CSCs), which significantly increased the retention in the heart. This manipulation approach is safe and straightforward, which opens novel insights into targeted-EVs for therapy. Recently, Liming et al used an adhesive hydrogel to enhance the retention of EVs(5). The EVs were immobilized in an adhesive hydrogel (Exo-pGel) and the encapsulated-EVs can stay at the injured area. The Exo-pGel presents a promising strategy for preclinical treatment. It has been well established that the engineered EVs have great potential for disease treatment in animal models. Vandergriff et al systemically investigated the role of CMP- EVs in cardiac dysfunction treatment. The authors found that EVs conjugated with cardiac homing peptide (CHP, similar with CMP) can protect heart from ischemia/reperfusion injury owing to their increased retention(6). This work demonstrates a novel approach for increasing delivery of myocardial infarction treatment. Liu et al reported that EVs loading with novel complex hydrogels can promote wounds healing, which provides another effective hydrogel strategy for engineering EVs(7). Li et al investigated the roles of Exo-pGel in treatment of spinal cord injury. The Exo-pGel significantly promoted nerve recovery via inhibiting oxidative stress and inflammation5. Besides, Chuanjiang He et al give an insight into how EVs engineered as powerful tools in translational medicine(8). In conclusion, there are strategies for engineering EVs/nanoparticles, with potential roles in disease treatment. Notably, more preclinical investigations and clinical trials are still needed to elucidate the possibility of engineered EVs and nanoparticles in human diseases treatment.

Published

2020

53. Cathelicidin-related antimicrobial peptide protects against myocardial ischemia/reperfusion injury

Author

Yihua Bei, Li-Long Pan, Qiulian Zhou, Cuimei Zhao, Yuan Xie, Chengfei Wu, Xiangmin Meng, Huanyu Gu, Jiahong Xu, Lei Zhou, Joost P. G. Sluijter, Saumya Das, Birgitta Agerberth, Jia Sun, and Junjie Xiao

Subjects

Cathelicidin, CRAMP, LL-37, Ischemia/reperfusion injury, Cardiomyocyte, Apoptosis, Medicine

Abstract

Abstract Background Cathelicidins are a major group of natural antimicrobial peptides which play essential roles in regulating host defense and immunity. In addition to the antimicrobial and immunomodulatory activities, recent studies have reported the involvement of cathelicidins in cardiovascular diseases by regulating inflammatory response and microvascular dysfunction. However, the role of cathelicidins in myocardial apoptosis upon cardiac ischemia/reperfusion (I/R) injury remains largely unknown. Methods CRAMP (cathelicidin-related antimicrobial peptide) levels were measured in the heart and serum from I/R mice and in neonatal mouse cardiomyocytes treated with oxygen glucose deprivation/reperfusion (OGDR). Human serum cathelicidin antimicrobial peptide (LL-37) levels were measured in myocardial infarction (MI) patients. The role of CRAMP in myocardial apoptosis upon I/R injury was investigated in mice injected with the CRAMP peptide and in CRAMP knockout (KO) mice, as well as in OGDR-treated cardiomyocytes. Results We observed reduced CRAMP level in both heart and serum samples from I/R mice and in OGDR-treated cardiomyocytes, as well as reduced LL-37 level in MI patients. Knockdown of CRAMP enhanced cardiomyocyte apoptosis, and CRAMP KO mice displayed increased infarct size and myocardial apoptosis. In contrast, the CRAMP peptide reduced cardiomyocyte apoptosis and I/R injury. The CRAMP peptide inhibited cardiomyocyte apoptosis by activation of Akt and ERK1/2 and phosphorylation and nuclear export of FoxO3a. c-Jun was identified as a negative regulator of the CRAMP gene. Moreover, lower level of serum LL-37/neutrophil ratio was associated with readmission and/or death in MI patients during 1-year follow-up. Conclusions CRAMP protects against cardiomyocyte apoptosis and cardiac I/R injury via activation of Akt and ERK and phosphorylation and nuclear export of FoxO3a. Increasing LL-37 might be a novel therapy for cardiac ischemic injury.

Published

2019

54. Exercise and cardiovascular protection: Update and future

Author

Junjie Xiao and Anthony Rosenzweig

Subjects

Sports, GV557-1198.995, Sports medicine, RC1200-1245

Published

2021

55. Circular RNAs as Potential Theranostics in the Cardiovascular System

Author

Yihua Bei, Tingting Yang, Lijun Wang, Paul Holvoet, Saumya Das, Joost P.G. Sluijter, Marta Chagas Monteiro, Yang Liu, Qiulian Zhou, and Junjie Xiao

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

Cardiovascular diseases (CVDs) represent the largest contributor to mortality worldwide. Identification of novel therapeutic targets and biomarkers for CVDs is urgently needed. Circular RNAs (circRNAs) are endogenous, abundant, and stable non-coding RNAs formed by back-splicing events. Their role as regulators of gene expression has been increasingly reported. Notably, circRNAs mediate essential physiological and pathological processes in the cardiovascular system. Our first aim, therefore, is to summarize recent advances in the role of circRNAs in cardiac development as well as in pathogenesis of various CVDs. Because circRNAs are stable in circulation and their dynamic changes may reflect different disease stages, they are considered ideal biomarkers. Therefore, our second aim is to review studies that have identified circulating circRNAs as biomarkers for CVDs. Finally, we discuss the shortage of functional studies and the limitations of available clinical studies and provide future perspectives. Keywords: cardiovascular disease, circular RNA, myocardial infarction, heart failure, cardiomyopathy, atherosclerosis, fibrosis, endothelial dysfunction, therapeutic targets, biomarkers

Published

2018

56. miR-132/212 Impairs Cardiomyocytes Contractility in the Failing Heart by Suppressing SERCA2a

Author

Zhiyong Lei, Christine Wahlquist, Hamid el Azzouzi, Janine C. Deddens, Diederik Kuster, Alain van Mil, Agustin Rojas-Munoz, Manon M. Huibers, Mark Mercola, Roel de Weger, Jolanda Van der Velden, Junjie Xiao, Pieter A. Doevendans, and Joost P. G. Sluijter

Subjects

miR-132/212 family, cardiac contractility, heart failure, myocardial infarction, knockout mice, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Compromised cardiac function is a hallmark for heart failure, mostly appearing as decreased contractile capacity due to dysregulated calcium handling. Unfortunately, the underlying mechanism causing impaired calcium handling is still not fully understood. Previously the miR-132/212 family was identified as a regulator of cardiac function in the failing mouse heart, and pharmaceutically inhibition of miR-132 is beneficial for heart failure. In this study, we further investigated the molecular mechanisms of miR-132/212 in modulating cardiomyocyte contractility in the context of the pathological progression of heart failure. We found that upregulated miR-132/212 expressions in all examined hypertrophic heart failure mice models. The overexpression of miR-132/212 prolongs calcium decay in isolated neonatal rat cardiomyocytes, whereas cardiomyocytes isolated from miR-132/212 KO mice display enhanced contractility in comparison to wild type controls. In response to chronic pressure-overload, miR-132/212 KO mice exhibited a blunted deterioration of cardiac function. Using a combination of biochemical approaches and in vitro assays, we confirmed that miR-132/212 regulates SERCA2a by targeting the 3′-end untranslated region of SERCA2a. Additionally, we also confirmed PTEN as a direct target of miR-132/212 and potentially participates in the cardiac response to miR132/212. In end-stage heart failure patients, miR-132/212 is upregulated and correlates with reduced SERCA2a expression. The up-regulation of miR-132/212 in heart failure impairs cardiac contractile function by targeting SERCA2a, suggesting that pharmaceutical inhibition of miR-132/212 might be a promising therapeutic approach to promote cardiac function in heart failure patients.

Published

2021

57. Exercise Training after Myocardial Infarction Attenuates Dysfunctional Ventricular Remodeling and Promotes Cardiac Recovery

Author

Shuqing Liu, Xinxiu Meng, Guoping Li, Priyanka Gokulnath, Jing Wang, and Junjie Xiao

Subjects

exercise training, ventricular remodeling, microrna, myocardial infarction, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Recent evidences have shown that exercise training not only plays a necessary role in maintaining cardiac homeostasis, but also promotes cardiac repair after myocardial infarction. Post-myocardial infarction, exercise training has been observed to effectively increase the maximum cardiac output, and protect myocardial cells against necrosis and apoptosis, thus leading to an improved quality of life of myocardial infarction patients. In fact, exercise training has received more attention as an adjunct therapeutic strategy for both treatment and prevention of myocardial infarction. This review summarizes the experimental evidence of the effects of exercise training in ventricular remodeling after myocardial infarction, and tries to provide theoretical basis along with suitable references for the exercise prescription aimed at prevention and therapy of myocardial infarction.

Published

2022

58. Current Studies and Future Directions of Exercise Therapy for Muscle Atrophy Induced by Heart Failure

Author

Qi Liu, Juan Gao, Jiali Deng, and Junjie Xiao

Subjects

exercise, muscle, atrophy, therapy, targets, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Muscle atrophy is a common complication of heart failure. At present, there is no specific treatment to reverse the course of muscle atrophy. Exercise training, due to the safety and easy operation, is a recommended therapy for muscle atrophy induced by heart failure. However, the patients with muscle atrophy are weak in mobility and may not be able to train for a long time. Therefore, it is necessary to explore novel targets of exercise protection for muscle atrophy, so as to improve the quality of life and survival rate of patients with muscular atrophy induced by heart failure. This article aims to review latest studies, summarize the evidence and limitations, and provide a glimpse into the future of exercise for the treatment of muscle atrophy induced by heart failure. We wish to highlight some important findings about the essential roles of exercise sensors in muscle atrophy induced by heart failure, which might be helpful for searching potential therapeutic targets for muscle wasting induced by heart failure.

Published

2020

59. Editorial: MicroRNA Signaling

Author

Lijun Wang, Carmen Elena Condrat, Saumya Das, Junjie Xiao, and Dragos Creţoiu

Subjects

microRNA, signaling, disease, circulating microRNA, hypertrophy, Biology (General), QH301-705.5

Published

2020

60. MiRNAs: A Powerful Tool in Deciphering Gynecological Malignancies

Author

Florentina Duică, Carmen Elena Condrat, Cezara Alina Dănila, Andreea Elena Boboc, Mihaela Raluca Radu, Junjie Xiao, Xinli Li, Sanda Maria Creţoiu, Nicolae Suciu, Dragoş Creţoiu, and Dragoş-Valentin Predescu

Subjects

miRNA, gynecology, cancer, signaling molecules, biomarkers, resveratrol, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Accumulated evidence on the clinical roles of microRNAs (miRNAs) in cancer prevention and control has revealed the emergence of new genetic techniques that have improved the understanding of the mechanisms essential for pathology induction and progression. Comprehension of the modifications and individual differences of miRNAs and their interactions in the pathogenesis of gynecological malignancies, together with an understanding of the phenotypic variations have considerably improved the management of the diagnosis and personalized treatment for different forms of cancer. In recent years, miRNAs have emerged as signaling molecules in biological pathways involved in different categories of cancer and it has been demonstrated that these molecules could regulate cancer-relevant processes, our focus being on malignancies of the gynecologic tract. The aim of this paper is to summarize novel research findings in the literature regarding the parts that miRNAs play in cancer-relevant processes, specifically regarding gynecological malignancy, while emphasizing their pivotal role in the disruption of cancer-related signaling pathways.

Published

2020

61. MicroRNAs in heart and circulation during physical exercise

Author

Lijun Wang, Yicheng Lv, Guoping Li, and Junjie Xiao

Subjects

Sports, GV557-1198.995, Sports medicine, RC1200-1245

Abstract

Exercise training is beneficial to the cardiovascular system. MicroRNAs (miRNAs, miRs) are a class of conserved non-coding RNAs and play a wide-ranging role in the regulation of eukaryotic gene expression. Exercise training alters the expression levels of large amounts of miRNAs in the heart. In addition, circulating miRNAs appear to be regulated by exercise training. In this review, we will summarize recent advances in the regulation of miRNAs during physical exercise intervention in various cardiovascular diseases, including pathologic cardiac hypertrophy, myocardial fibrosis, ischemia-reperfusion injury, myocardial infarction, and heart failure. The regulatory role of circulating miRNAs after exercise training was also reviewed. In conclusion, miRNAs might be a valuable target for treatment of cardiovascular diseases and have great potential as biomarkers for assessment of physical performance. Keywords: Cardiovascular diseases, Circulating microRNAs, Exercise, MicroRNAs

Published

2018

62. Circular RNAs: Promising Biomarkers for Human Diseases

Author

Zhongrong Zhang, Tingting Yang, and Junjie Xiao

Subjects

Medicine, Medicine (General), R5-920

Abstract

Circular RNA (circRNA) is a group of endogenous noncoding RNA characterized by a covalently closed cyclic structure lacking poly-adenylated tails. Recent studies have suggested that circRNAs play a crucial role in regulating gene expression by acting as a microRNA sponge, RNA binding protein sponge and translational regulator. CircRNAs have become a research hotspot because of their close association with the development of diseases. Some circRNAs are reportedly expressed in a tissue- and development stage-specific manner. Furthermore, due to other features of circRNAs including stability, conservation and high abundance in body fluids, circRNAs are believed to be potential biomarkers for various diseases. In the present review, we provide the current understanding of biogenesis and gene regulatory mechanisms of circRNAs, summarize the recent studies on circRNAs as potential diagnostic and prognostic biomarkers, and highlight the major advantages and limitations of circRNAs as novel biomarkers based on existing knowledge. Keywords: Circular RNA, Biomarker, Diseases, Liquid biopsy

Published

2018

63. Therapeutic Suppression of miR-4261 Attenuates Colorectal Cancer by Targeting MCC

Author

Guanming Jiao, Qi Huang, Muren Hu, Xuchun Liang, Fuchen Li, Chunling Lan, Wencheng Fu, Yu An, Bin Xu, Jinzhe Zhou, and Junjie Xiao

Subjects

Therapeutics. Pharmacology, RM1-950

Abstract

The mutated in colorectal cancer (MCC) gene is an important colorectal tumor suppressor gene, although few studies have reported the microRNA(s) that could directly target MCC in colorectal cancer. Here, we used microRNA (miRNA) target prediction algorithms, and previously reported microarray data in human colorectal cancer found that only miR-4261 was predicted by all three databases to directly target MCC. Based on specimens from our own cohort of colorectal cancer patients, we further demonstrated that miR-4261 was overexpressed in colorectal cancer. Interestingly, overexpression of miR-4261 could enhance cell proliferation and G1/S phase transition of cell cycle, and promote cell migration in HCT116 and HT29 cells, while inhibition of miR-4261 had opposite effects. Luciferase reporter assay and western blot analysis confirmed MCC as a direct target of miR-4261. MCC small interfering RNA (siRNA) could abolish the suppressive effects of miR-4261 inhibitor on cell proliferation and migration in HCT116 and HT29 cell lines. Finally, we showed that therapeutic intervention with lentivirus-based miR-4261 sponge injection could effectively reduce tumor growth and inhibit cell proliferation in colorectal cancer xenograft. Collectively, our study is the first one to unravel the functional role of miR-4261, and it provides strong evidence that inhibition of miR-4261 through targeting of MCC might exert a therapeutic effect for colorectal cancer. Keywords: colorectal cancer, miR-4261, MCC

Published

2017

64. MicroRNA-222 Promotes the Proliferation of Pulmonary Arterial Smooth Muscle Cells by Targeting P27 and TIMP3

Author

Ying Xu, Yihua Bei, Shutong Shen, Jialiang Zhang, Yichao Lu, Junjie Xiao, and Xinli Li

Subjects

MiR-222, Pulmonary artery smooth muscle cells, Pulmonary artery hypertension, Proliferation, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Aberrant vascular smooth muscle cell (VSMC) proliferation plays an important role in the development of pulmonary artery hypertension (PAH). Dysregulated microRNAs (miRNAs, miRs) have been implicated in the progression of PAH. miR-222 has a pro-proliferation effect on VSMCs while it has an anti-proliferation effect on vascular endothelial cells (ECs). As the biological function of a single miRNA could be cell-type specific, the role of miR-222 in pulmonary artery smooth muscle cell (PASMC) proliferation is not clear and deserves to be explored. Methods: PASMCs were transfected with miR-222 mimic or inhibitor and PASMC proliferation was determined by Western blot for PCNA, Ki-67 and EdU staining, and cell number counting. The target genes of miR-222 including P27 and TIMP3 were determined by luciferase assay and Western blot. In addition, the functional rescue experiments were performed based on miR-222 inhibitor and siRNAs to target genes. Results: miR-222 mimic promoted PASMC proliferation while miR-222 inhibitor decreased that. TIMP3 was identified to be a direct target gene of miR-222 based on luciferase assay. Meanwhile, P27 and TIMP3 were up-regulated by miR-222 inhibitor and down-regulated by miR-222 mimic. Moreover, P27 siRNA and TIMP3 siRNA could both attenuate the anti-proliferation effect of miR-222 inhibitor in PASMCs, supporting that P27 and TIMP3 are at least partially responsible for the regulatory effect of miR-222 in PASMCs. Conclusion: miR-222 promotes PASMC proliferation at least partially through targeting P27 and TIMP3.

Published

2017

65. Serum Irisin Predicts Mortality Risk in Acute Heart Failure Patients

Author

Shutong Shen, Rongrong Gao, Yihua Bei, Jin Li, Haifeng Zhang, Yanli Zhou, Wenming Yao, Dongjie Xu, Fang Zhou, Mengchao Jin, Siqi Wei, Kai Wang, Xuejuan Xu, Yongqin Li, Junjie Xiao, and Xinli Li

Subjects

Acute heart failure, Irisin, Prognosis, Biomarker, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Irisin is a peptide hormone cleaved from a plasma membrane protein fibronectin type III domain containing protein 5 (FNDC5). Emerging studies have indicated association between serum irisin and many major chronic diseases including cardiovascular diseases. However, the role of serum irisin as a predictor for mortality risk in acute heart failure (AHF) patients is not clear. Methods: AHF patients were enrolled and serum was collected at the admission and all patients were followed up for 1 year. Enzyme-linked immunosorbent assay was used to measure serum irisin levels. To explore predictors for AHF mortality, the univariate and multivariate logistic regression analysis, and receiver-operator characteristic (ROC) curve analysis were used. To determine the role of serum irisin levels in predicting survival, Kaplan-Meier survival analysis was used. Results: In this study, 161 AHF patients were enrolled and serum irisin level was found to be significantly higher in patients deceased in 1-year follow-up. The univariate logistic regression analysis identified 18 variables associated with all-cause mortality in AHF patients, while the multivariate logistic regression analysis identified 2 variables namely blood urea nitrogen and serum irisin. ROC curve analysis indicated that blood urea nitrogen and the most commonly used biomarker, NT-pro-BNP, displayed poor prognostic value for AHF (AUCs ≤ 0.700) compared to serum irisin (AUC = 0.753). Kaplan-Meier survival analysis demonstrated that AHF patients with higher serum irisin had significantly higher mortality (P

Published

2017

66. miR-29b contributes to multiple types of muscle atrophy

Author

Jin Li, Mun Chun Chan, Yan Yu, Yihua Bei, Ping Chen, Qiulian Zhou, Liming Cheng, Lei Chen, Olivia Ziegler, Glenn C. Rowe, Saumya Das, and Junjie Xiao

Subjects

Science

Abstract

Skeletal muscle atrophy can occur in response to stimuli such as inactivity, fasting, and ageing. Here the authors show that expression of microRNA-29b promotes muscle atrophy by targeting IGF-1 and PI3K, and that its inhibition attenuates atrophy induced by denervation and immobilization in mice.

Published

2017

67. Long Non-Coding RNAs in Cardiac Remodeling

Author

Shutong Shen, Huimin Jiang, Yihua Bei, Junjie Xiao, and Xinli Li

Subjects

Long non-coding RNAs, Cardiac remodeling, Hypertrophy, Apoptosis, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Cardiac remodeling occurs after stress to the heart, manifested as pathological processes, including hypertrophy and apoptosis of cardiomyocytes, dysfunction of vascular endothelial cells and vascular smooth muscle cells as well as differentiation and proliferation of fibroblasts, ultimately resulting in progression of cardiovascular diseases. Emerging evidence has revealed that long non-coding RNAs (lncRNAs) acted as powerful and dynamic modifiers of cardiac remodeling. LncRNAs including Chaer, Chast, Mhrt, CHRF, ROR, H19, and MIAT have been implicated in cardiac hypertrophy while NRF, H19, APF, CARL, UCA, Mhrt and several other lncRNAs (n379599, n379519, n384640, n380433 and n410105) in cardiomyocyte loss and extracellular matrix remodeling. In addition, MALAT1 and TGFB2-OT1 have been reported to contribute to vascular endothelial cells dysfunction while lincRNA-p21 and lnc-Ang362 to vascular smooth muscle cells proliferation. Thus, manipulation of lncRNA expression levels through either the inhibition of disease-up-regulated lncRNAs or increasing disease-down-regulated lncRNAs represents novel therapeutic strategies for cardiac remodeling.

Published

2017

68. Circulating miR-30d Predicts Survival in Patients with Acute Heart Failure

Author

Junjie Xiao, Rongrong Gao, Yihua Bei, Qiulian Zhou, Yanli Zhou, Haifeng Zhang, Mengchao Jin, Siqi Wei, Kai Wang, Xuejuan Xu, Wenming Yao, Dongjie Xu, Fang Zhou, Jingfa Jiang, Xinli Li, and Saumya Das

Subjects

Survival, Circulating microRNAs, miR-30d, Acute heart failure, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Identification of novel biomarkers to identify acute heart failure (AHF) patients at high risk of mortality is an area of unmet clinical need. Recently, we reported that the baseline level of circulating miR-30d was associated with left ventricular remodeling in response to cardiac resynchronization therapy in advanced chronic heart failure patients. However, the role of circulating miR-30d as a prognostic marker of survival in patients with AHF has not been explored. Methods: Patients clinically diagnosed with AHF were enrolled and followed up for 1 year. Quantitative reverse transcription polymerase chain reactions were used to determine serum miR-30d levels. The univariate logistic regression analysis and multivariate logistic regression analysis were used to determine the predictors for all-cause mortality in AHF patients. Kaplan–Meier survival analysis was used to analyze the role of miR-30d in prediction of survival. Results: A total of 96 AHF patients were enrolled and followed up for 1 year. Serum miR-30d was significantly lower in AHF patients who expired in the one year follow-up period compared to those who survived. Univariate logistic regression analysis yielded 18 variables that were associated with all-cause mortality in AHF patients, while the multivariate logistic regression analysis identified 4 variables including heart rate, hemoglobin, serum sodium, and serum miR-30d level associated with mortality. ROC curve analysis showed that hemoglobin, heart rate and serum sodium displayed poor prognostic value for AHF (AUCs not higher than 0.700) compared to miR-30d level (AUC = 0.806). Kaplan–Meier survival analysis confirmed that patients with higher serum miR-30d levels had significantly lower mortality (P=0.001). Conclusion: In conclusion, this study shows evidence for the predictive value of circulating miR-30d as 1-year all-cause mortality in AHF patients. Large multicentre studies are further needed to validate our findings and accelerate the transition to clinical utilization.

Published

2017

69. Cardiovascular medicine in China: what can we do to achieve the Healthy China 2030 plan?

Author

Yihua Bei, Tingting Yang, and Junjie Xiao

Subjects

Cardiovascular diseases, China, Healthy China 2030, Medicine

Abstract

Abstract Cardiovascular diseases (CVDs) represent the leading cause of death in China. The Chinese government approved the Healthy China 2030 plan (jiànkāng zhōngguó 2030), emphasizing the strategic role of health in China’s development. As morbidity and mortality from CVDs are constantly increasing in China, the prevention and treatment of CVDs are vital to achieve this plan. Following the major principles of health priority, science and technology innovation, scientific development, and balanced medical resource allocation outlined in the Healthy China 2030 plan, this Commentary briefly introduces the current status of CVDs in China and marks the important events undertaken to achieve this plan.

Published

2018

70. Cellular and Molecular Mechanism of Cardiac Regeneration: A Comparison of Newts, Zebrafish, and Mammals

Author

Lousanne de Wit, Juntao Fang, Klaus Neef, Junjie Xiao, Pieter A. Doevendans, Raymond M. Schiffelers, Zhiyong Lei, and Joost P.G. Sluijter

Subjects

cardiac regeneration, cardiomyocyte dedifferentiation, proliferation, cardiomyocyte polyploidy, Microbiology, QR1-502

Abstract

Cardiovascular disease is the leading cause of death worldwide. Current palliative treatments can slow the progression of heart failure, but ultimately, the only curative treatment for end-stage heart failure is heart transplantation, which is only available for a minority of patients due to lack of donors’ hearts. Explorative research has shown the replacement of the damaged and lost myocardium by inducing cardiac regeneration from preexisting myocardial cells. Lower vertebrates, such as the newt and zebrafish, can regenerate lost myocardium through cardiomyocyte proliferation. The preexisting adult cardiomyocytes replace the lost cells through subsequent dedifferentiation, proliferation, migration, and re-differentiation. Similarly, neonatal mice show complete cardiac regeneration post-injury; however, this regenerative capacity is remarkably diminished one week after birth. In contrast, the adult mammalian heart presents a fibrotic rather than a regenerative response and only shows signs of partial pathological cardiomyocyte dedifferentiation after injury. In this review, we explore the cellular and molecular responses to myocardial insults in different adult species to give insights for future interventional directions by which one can promote or activate cardiac regeneration in mammals.

Published

2020

71. MMISH: Multicolor microRNA in situ hybridization for paraffin embedded samples

Author

Zhiyong Lei, Alain van Mil, Junjie Xiao, Corina H.G. Metz, Esther C.M. van Eeuwijk, Pieter A. Doevendans, and Joost. P.G. Sluijter

Subjects

Colorimetric staining, Multicolor immunofluorescence staining, MicroRNA, In situ hybridization, Biotechnology, TP248.13-248.65

Abstract

To understand and assess the roles of miRNAs, visualization of the expression patterns of specific miRNAs is needed at the cellular level in a wide variety of different tissue types. Although miRNA in situ hybridization techniques have been greatly improved in recent years, they remain difficult to routinely perform due to the complexity of the procedure. In addition, as it is crucial to define which tissues or cells are expressing a particular miRNA in order to elucidate the biological function of the miRNA, incorporation of additional stainings for different cellular markers is necessary. Here, we describe a robust and flexible multicolor miRNA in situ hybridization (MMISH) technique for paraffin embedded sections. We show that the miRNA in situ protocol is sensitive and highly specific and can successfully be combined with both immunohistochemical and immunofluorescent stainings.

Published

2018

72. Dynamic Regulation of Circulating microRNAs During Acute Exercise and Long-Term Exercise Training in Basketball Athletes

Author

Yongqin Li, Mengchao Yao, Qiulian Zhou, Yan Cheng, Lin Che, Jiahong Xu, Junjie Xiao, Zhongming Shen, and Yihua Bei

Subjects

acute exercise, long-term exercise, basketball athletes, circulating miRNAs, cardiovascular adaptation, Physiology, QP1-981

Abstract

Emerging evidence indicates the beneficial effects of physical exercise on human health, which depends on the intensity, training time, exercise type, environmental factors, and the personal health status. Conventional biomarkers provide limited insight into the exercise-induced adaptive processes. Circulating microRNAs (miRNAs, miRs) are dynamically regulated in response to acute exhaustive exercise and sustained rowing, running and cycling exercises. However, circulating miRNAs in response to long-term basketball exercise remains unknown. Here, we enrolled 10 basketball athletes who will attend a basketball season for 3 months. Specifically, circulating miRNAs which were involved in angiogenesis, inflammation and enriched in muscle and/or cardiac tissues were analyzed at baseline, immediately following acute exhaustive exercise and after 3-month basketball matches in competitive male basketball athletes. Circulating miR-208b was decreased and miR-221 was increased after 3-month basketball exercise, while circulating miR-221, miR-21, miR-146a, and miR-210 were reduced at post-acute exercise. The change of miR-146a (baseline vs. post-acute exercise) showed linear correlations with baseline levels of cardiac marker CKMB and the changes of inflammation marker Hs-CRP (baseline vs. post-acute exercise). Besides, linear correlation was observed between miR-208b changes (baseline vs. after long-term exercise) and AT VO2 (baseline). The changes of miR-221 (baseline vs. after long-term exercise) were significantly correlated with AT VO2, peak work load and CK (after 3-month basketball matches). Although further studies are needed, present findings set the stage for defining circulating miRNAs as biomarkers and suggesting their physiological roles in long-term exercise training induced cardiovascular adaptation.

Published

2018

73. The Metabolic Effects of Traditional Chinese Medication Qiliqiangxin on H9C2 Cardiomyocytes

Author

Shenghui Lin, Xiaoting Wu, Lichan Tao, Yihua Bei, Haifeng Zhang, Yanliz Zhou, Shutong Shen, Junjie Xiao, and Xinli Li

Subjects

Mitochondria, PGC-1α, Qiliqiangxin (QLQX), Cardiomyocytes, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: A traditional Chinese medicine, Qiliqiangxin (QLQX) has been identified to perform protective effects on myocardium energy metabolism in mice with acute myocardial infarction, though the effects of QLQX on myocardial mitochondrial biogenesis under physiological condition is still largely elusive. Methods: H9C2 cells were treated with different concentrations of QLQX (0.25, 0.5, and 1.0 µg/mL) from 6 to 48 hours. Oxidative metabolism and glycolysis were measured by oxygen consumption and extracellular acidification with XF96 analyzer (SeaHorse). Mitochondrial content and ultrastructure were assessed by Mitotracker staining, confocal microscopy, flow cytometry, and transmission electron microscopy. Mitochondrial biogenesis-related genes were measured by qRT-PCR and Western blot. Results: H9C2 cells treated with QLQX exhibited increased glycolysis at earlier time points (6, 12, and 24 hours), while QLQX could enhance oxidative metabolism and mitochondrial uncoupling in H9C2 cells with longer duration of treatment (48 hours). QLQX also increased mitochondrial content and mitochondrial biogenesis-related gene expression levels, including 16sRNA, SSBP1, TWINKLE, TOP1MT and PLOG, with an activation of peroxisome proliferator-activated receptor coactivator 1 alpha (PGC-1α) and its downstream effectors. Silencing PGC-1α could abolish the increased mitochondrial content in H9C2 cells treated with QLQX. Conclusion: Our study is the first to document enhanced metabolism in cardiomyocytes treated with QLQX, which is linked to increased mitochondrial content and mitochondrial biogenesis via activation of PGC-1α.

Published

2015

74. MicroRNAs in Liver Regeneration

Author

Xiaoyu Chen, Yingying Zhao, Fei Wang, Yihua Bei, Junjie Xiao, and Changqing Yang

Subjects

Liver regeneration, MicroRNAs, Hepatocyte proliferation, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Liver maintains a unique tremendous regeneration capacity in response to partial hepatectomy (PH) or injury. Hepatocyte proliferation critically contributes to the process of liver regeneration (LR), which is regulated by various cytokines and growth factors. However, the molecular basis of LR remains unclear. Emerging evidence indicates that microRNAs (miRNAs, miRs) are involved in controlling hepatocyte proliferation during LR. In this review, an overview is provided to cover recent achievements in studies on the roles of miRNAs in LR. Studies on the regulatory effects of miRNAs and associated molecular mechanisms in LR will help enhance the understanding of the regenerative process and open up a new prospect for liver transplantation.

Published

2015

75. Exercise Training Protects Against Acute Myocardial Infarction via Improving Myocardial Energy Metabolism and Mitochondrial Biogenesis

Author

Lichan Tao, Yihua Bei, Shenghui Lin, Haifeng Zhang, Yanli Zhou, Jingfa Jiang, Ping Chen, Shutong Shen, Junjie Xiao, and Xinli Li

Subjects

PGC-1α, Acute myocardial infarction, Exercise training, Metabolism, Mitochondria, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Acute myocardial infarction (AMI) represents a major cause of morbidity and mortality worldwide. Exercise has been proved to reduce myocardial ischemia-reperfusion (I/R) injury However it remains unclear whether, and (if so) how, exercise could protect against AMI. Methods: Mice were trained using a 3-week swimming protocol, and then subjected to left coronary artery (LCA) ligation, and finally sacrificed 24 h after AMI. Myocardial infarct size was examined with triphenyltetrazolium chloride staining. Cardiac apoptosis was determined by TUNEL staining. Mitochondria density was checked by Mito-Tracker immunofluorescent staining. Quantitative reverse transcription polymerase chain reactions and Western blotting were used to determine genes related to apoptosis, autophagy and myocardial energy metabolism. Results: Exercise training reduces myocardial infarct size and abolishes AMI-induced autophagy and apoptosis. AMI leads to a shift from fatty acid to glucose metabolism in the myocardium with a downregulation of PPAR-α and PPAR-γ. Also, AMI induces an adaptive increase of mitochondrial DNA replication and transcription in the acute phase of MI, accompanied by an activation of PGC-1α signaling. Exercise abolishes the derangement of myocardial glucose and lipid metabolism and further enhances the adaptive increase of mitochondrial biogenesis. Conclusion: Exercise training protects against AMI-induced acute cardiac injury through improving myocardial energy metabolism and enhancing the early adaptive change of mitochondrial biogenesis.

Published

2015

76. Qiliqiangxin Protects Against Cardiac Ischemia-Reperfusion Injury via Activation of the mTOR Pathway

Author

Yonglan Zhou, Hongyi Fang, Shenghui Lin, Shutong Shen, Lichan Tao, Junjie Xiao, and Xinli Li

Subjects

Qiliqiangxin, Cardiac ischemia-reperfusion injury, mTOR, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Qiliqiangxin (QL) has been used for the treatment of chronic heart failure in China. Accumulating evidence suggests QL's cardio-protective effects on continuous myocardial ischemia. However, it is unclear whether QL has beneficial effects on cardiac ischemia-reperfusion (I/R) injury. Methods: A mouse model of cardiac I/R was established by ligation of the left anterior descending coronary artery for 45 minutes followed by reperfusion. The mice were treated with QL for three days before surgery and continually after I/R. Triphenyltetrazolium chloride staining, echocardiography and Masson's trichrome staining were used to determine infarct size, cardiac function, and fibrosis, respectively. Expression levels of phospho-mTOR (Ser2448), mTOR, phospho-4EBP (Ser65), 4EBP, phospho-Akt (Ser473) and Akt were detected by Western blotting. Results: At 1 day after I/R, QL treatment significantly reduced the infarct size of mice exposed to I/R. At 7 days after I/R, mortality was reduced in QL treated animals in comparison with the control group. In addition, QL treated mice showed increased left ventricular ejection fraction (LVEF) and left ventricular fractional shortening (LVFS) at 1 and 7 days after I/R. In agreement, Masson's trichrome staining demonstrated that interstitial fibrosis was less pronounced in QL treated mice compared with controls, suggesting that adverse left ventricular remodeling is attenuated in QL treated mice. Moreover, western blotting analysis demonstrated that QL activated the mTOR pathway, while mTOR inhibition via Rapamycin abolished the protective effects of QL against I/R injury. Conclusion: This study suggests that QL attenuates the progression of cardiac remodeling after I/R likely via mTOR activation. This represents a new application for QL in the prevention of I/R injury.

Published

2015

77. Non-Coding RNAs in Cardiac Aging

Author

Hui Wang, Yihua Bei, Jing Shi, Junjie Xiao, and Xiangqing Kong

Subjects

Heart, Non-coding RNAs, MicroRNAs, lncRNAs, Aging, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Aging has a remarkable impact on the function of the heart, and is independently associated with increased risk for cardiovascular diseases. Cardiac aging is an intrinsic physiological process that results in impaired cardiac function, along with lots of cellular and molecular changes. Non-coding RNAs include small transcripts, such as microRNAs and a wide range of long non-coding RNAs (lncRNAs). Emerging evidence has revealed that non-coding RNAs acted as powerful and dynamic modifiers of cardiac aging. This review aims to provide a general overview of non-coding RNAs implicated in cardiac aging, and the underlying mechanisms involved in maintaining homeo-stasis and retarding aging.

Published

2015

78. Telocytes in Pregnancy-Induced Physiological Liver Growth

Author

Fei Wang, Yihua Bei, Yingying Zhao, Yang Song, Junjie Xiao, and Changqing Yang

Subjects

Telocytes, Liver growth, Pregnancy, Hepatocytes, Liver regeneration, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: We previously documented the presence of Telocytes (TCs) in liver and further indicated the potential roles of TCs in liver regeneration after hepatectomy. Pregnancy-induced liver growth, other than liver regeneration after hepatectomy, is a physiological hepatic adaption to meet the enhanced nutritional and metabolic demands. However, the possible roles of TCs in pregnancy-induced liver growth remain unknown. Methods: Pregnant mice were sacrificed at different time points (pregnancy day 0.5, 4.5, 8.5, 10.5, 12.5, 14.5, 16.5, and 18.5). The liver weight was used to evaluate the liver growth during pregnancy. Hepatocytes proliferation was determined by albumin and 5-ethynyl-2'- deoxyuridine (EdU) double immunostaining while TCs were counted by double immunolabeling for CD34/PDGFR-α. Results: Pregnancy-induced liver growth was preceded by increased proliferation of hepatocytes at pregnancy day 4.5, 8.5, 14.5 and 16.5. Furthermore, the number of TCs in liver detected by double immunolabeling for CD34/PDGFR-α was significantly increased at pregnancy day 4.5 and day 14.5, that was coincident with the occurrence of two peaks of hepatic cell proliferation during pregnancy. Conclusion: Our results suggest a possible relationship between TCs and hepatocyte proliferation in pregnancy-induced liver growth.

Published

2015

79. Exercise Prevents Cardiac Injury and Improves Mitochondrial Biogenesis in Advanced Diabetic Cardiomyopathy with PGC-1α and Akt Activation

Author

Hui Wang, Yihua Bei, Yan Lu, Wei Sun, Qi Liu, Yalong Wang, Yujie Cao, Ping Chen, Junjie Xiao, and Xiangqing Kong

Subjects

PGC-1α, Akt, Exercise, Diabetic cardiomyopathy, Mitochondria, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Diabetic cardiomyopathy (DCM) represents the major cause of morbidity and mortality among diabetics. Exercise has been reported to be effective to protect the heart from cardiac injury during the development of DCM. However, the potential cardioprotective effect of exercise in advanced DCM remains unclear. Methods: Seven-week old male C57BL/6 wild-type or db/db mice were either subjected to a running exercise program for 15 weeks or kept sedentary. Cardiac function, myocardial apoptosis and fibrosis, and mitochondrial biogenesis were examined for evaluation of cardiac injury. Results: A reduction in ejection fraction and fractional shortening in db/db mice was significantly reversed by exercise training. DCM induced remarkable cardiomyocyte apoptosis and increased ratio of Bax/Bcl-2 at the protein level. Meanwhile, DCM caused slightly myocardial fibrosis with elevated mRNA levels of collagen I and collagen III. Also, DCM resulted in a reduction of mitochondrial DNA (mtDNA) replication and transcription, together with reduced mtDNA content and impaired mitochondrial ultrastructure. All of these changes could be abolished by exercise training. Furthermore, DCM-associated inhibition of PGC-1α and Akt signaling was significantly activated by exercise, indicating that exercise-induced activation of PGC-1α and Akt signaling might be responsible for mediating cardioprotective effect of exercise in DCM. Conclusion: Exercise preserves cardiac function, prevents myocardial apoptosis and fbrosis, and improves mitochondrial biogenesis in the late stage of DCM. Exercise-induced activation of PGC-1α and Akt signaling might be promising therapeutic targets for advanced DCM.

Published

2015

80. Inhibition of miR-155 Protects Against LPS-induced Cardiac Dysfunction and Apoptosis in Mice

Author

Hui Wang, Yihua Bei, Peipei Huang, Qiulian Zhou, Jing Shi, Qi Sun, Jiuchang Zhong, Xinli Li, Xiangqing Kong, and Junjie Xiao

Subjects

apoptosis, cardiac dysfunction, LPS, miR-155, Pea15a, sepsis, Therapeutics. Pharmacology, RM1-950

Abstract

Sepsis-induced myocardial dysfunction represents a major cause of death in intensive care units. Dysregulated microRNAs (miR)-155 has been implicated in multiple cardiovascular diseases and miR-155 can be induced by lipopolysaccharide (LPS). However, the role of miR-155 in LPS-induced cardiac dysfunction is unclear. Septic cardiac dysfunction in mice was induced by intraperitoneal injection of LPS (5 mg/kg) and miR-155 was found to be significantly increased in heart challenged with LPS. Pharmacological inhibition of miR-155 using antagomiR improved cardiac function and suppressed cardiac apoptosis induced by LPS in mice as determined by echocardiography, terminal deoxynucleotidyl transferase nick-end labeling (TUNEL) assay, and Western blot for Bax and Bcl-2, while overexpression of miR-155 using agomiR had inverse effects. Pea15a was identified as a target gene of miR-155, mediating its effects in controlling apoptosis of cardiomyocytes as evidenced by luciferase reporter assays, quantitative real time-polymerase chain reaction, Western blot, and TUNEL staining. Noteworthy, miR-155 was also found to be upregulated in the plasma of patients with septic cardiac dysfunction compared to sepsis patients without cardiac dysfunction, indicating a potential clinical relevance of miR-155. The receiver-operator characteristic curve indicated that plasma miR-155 might be a biomarker for sepsis patients developing cardiac dysfunction. Therefore, inhibition of miR-155 represents a novel therapy for septic myocardial dysfunction.

Published

2016

81. Cardiac telocytes and fibroblasts in primary culture: different morphologies and immunophenotypes.

Author

Yihua Bei, Qiulian Zhou, Siyi Fu, Dongchao Lv, Ping Chen, Yuanyuan Chen, Fei Wang, and Junjie Xiao

Subjects

Medicine, Science

Abstract

Telocytes (TCs) are a peculiar type of interstitial cells with very long prolongations termed telopodes. TCs have previously been identified in different anatomic structures of the heart, and have also been isolated and cultured from heart tissues in vitro. TCs and fibroblasts, both located in the interstitial spaces of the heart, have different morphologies and functionality. However, other than microscopic observation, a reliable means to make differential diagnosis of cardiac TCs from fibroblasts remains unclear. In the present study, we isolated and cultured cardiac TCs and fibroblasts from heart tissues, and observed their different morphological features and immunophenotypes in primary culture. Morphologically, TCs had extremely long and thin telopodes with moniliform aspect, stretched away from cell bodies, while cell processes of fibroblasts were short, thick and cone shaped. Furthermore, cardiac TCs were positive for CD34/c-kit, CD34/vimentin, and CD34/PDGFR-β, while fibroblasts were only vimentin and PDGFR-β positive. In addition, TCs were also different from pericytes as TCs were CD34 positive and α-SMA weak positive while pericytes were CD34 negative but α-SMA positive. Besides that, we also showed cardiac TCs were homogenously positive for mesenchymal marker CD29 but negative for hematopoietic marker CD45, indicating that TCs could be a source of cardiac mesenchymal cells. The differences in morphological features and immunophenotypes between TCs and fibroblasts will provide more compelling evidence to differentiate cardiac TCs from fibroblasts.

Published

2015

82. Integrated Optical Parametric Amplifier with Record Gain.

Author

Junjie Xiao, Di Xia, Liyang Luo, Zhaohui Li, and Bin Zhang

Published

2024

83. Inhibition of Hmbox1 Promotes Cardiomyocyte Survival and Glucose Metabolism Through Gck Activation in Ischemia/Reperfusion Injury.

Author

Yihua Bei, Yujiao Zhu, Jingwen Zhou, Songwei Ai, Jianhua Yao, Mingming Yin, Meiyu Hu, Weitong Qi, Spanos, Michail, Lin Li, Meng Wei, Zhenzhen Huang, Juan Gao, Chang Liu, van der Kraak, Petra H., Guoping Li, Zhiyong Lei, Sluijter, Joost P. G., and Junjie Xiao

Published

2024

84. Improved droop control based on multi-stage lead-lag compensation.

Author

Yaoqin Jia, Junjie Xiao, Biao Jia, Yujian Pan, Yunpeng Wang, and Zhifan Li

Published

2020

85. Exercise Inhibits Doxorubicin-Induced Cardiotoxicity via Regulating B Cells.

Author

Jing Wang, Shuqin Liu, Xinxiu Meng, Xuan Zhao, Tianhui Wang, Zhiyong Lei, Lehmann, H. Immo, Guoping Li, Alcaide, Pilar, Yihua Bei, and Junjie Xiao

Published

2024

86. Capecitabine, Oxaliplatin, and Irinotecan (XELOXIRI) as Neoadjuvant Chemotherapy in Locally Advanced Rectal Cancer

Author

Junjie Xiao and Hongyu Zhang

Subjects

Automotive Engineering

Abstract

Purpose: This study describes the efficacy and safety of irinotecan and oxaliplatin in combination with capecitabine (XELOXIRI) as a neoadjuvant chemotherapy (NAC) regimen for patients with locally advanced rectal cancer (LARC). Methods: From January 2019 through December 2022, 68 LARC patients treated with XELOXIRI were enrolled in the study. XELOXIRI is administered in a three-week cycle consisting of oxaliplatin 70-110 mg/m2 IV for >120 min on day 1; irinotecan 120-160 mg/m2 IV for 90 min on day 1; and capecitabine 700-1100 mg/m2 orally twice daily for 14 days followed by 7 days off. Sixteen cases were treated with combined radiotherapy, including 8 with long-course radiotherapy and 8 with short-course radiotherapy. The efficacy was evaluated based on pelvic MRI (including TNM stage, CRM, and EMVI status), tumor downstaging rate (to ypT0-2N0M0), pCR rate, R0 resection rate, DFS, and OS, and the safety was assessed according to the incidence of adverse events. Results: Sixty-six people had surgery; the R0 resection rate was 100%, and the rate of anal preservation was 97%. The tumor downstaging rate (to ypT0-2N0M0) in the entire group was 53.0%, and the pCR rate was 12.1%. In the XELOXIRI alone group (N = 47), the tumor downstaging rate was 55.3%, and the pCR rate was 12.8%. In the group receiving radiotherapy (N = 16), the tumor downstaging rate was 56.3%, and the pCR rate was 12.5%. In the whole group, the 3-year DFS was 89.0%, and the 3-year survival rate was 98.5%. The 3-year DFS of the XELOXIRI and XELOXIRI + RT groups was 89.9% and 87.2%, respectively. The most frequent grade 3–4 preoperative toxic reactions were neutropenia (8.8%), diarrhea (4.4%), and anemia (2.9%). All adverse events were tolerable. Conclusions: Neoadjuvant chemotherapy with XELOXIRI appears to be feasible and efficacious for patients with LARC. Although neoadjuvant XELOXIRI alone did not yield our expected pCR rate as NAC for LARC, tumor downstaging, R0 resection, sphincter preservation, local recurrence rate, 3-year DFS, OS, and safety were all satisfactory.

Published

2023

87. Benefits of physical activity on cardiometabolic diseases in obese children and adolescents

Author

Juan Gao, Yi Lu, Priyanka Gokulnath, Gururaja Vulugundam, Guoping Li, Jin Li, and Junjie Xiao

Subjects

Internal Medicine

Abstract

In the past few decades, obesity in the pediatric population has dramatically increased and is common in many countries. Childhood obesity often causes health problems and increases the risk of cardiometabolic diseases such as type 2 diabetes, nonalcohol fatty liver, and cardiovascular diseases. Obesity in young people has been closely associated with environmental, behavioral, and genetic defects, including the availability of high-energy and sugary food and beverages, sedentary behavior, and hereditary factors. Few drugs are currently available to treat obesity in children and adolescents because it is difficult to demonstrate the safety of these drugs on the growth and development of the youth. Lifestyle modifications, such as diet control and physical exercise, are the primary approaches for preventing and treating childhood obesity. Among them, physical activity is a crucial component. This review summarizes the epidemiology, cardiometabolic risk of obesity, therapeutic strategies, and the benefits of exercise on obesity-related chronic diseases in children and adolescents.

Published

2022

88. Antioxidants Supplementation During Exercise: Friends or Enemies for Cardiovascular Homeostasis?

Author

Hongyun Wang, Zijiang Yang, Xiao Zhang, Jinxin Xie, Yuling Xie, Priyanka Gokulnath, Gururaja Vulugundam, and Junjie Xiao

Subjects

Genetics, Pharmaceutical Science, Molecular Medicine, Cardiology and Cardiovascular Medicine, Genetics (clinical)

Abstract

Exercise is a preferred strategy for improving cardiac function, especially for patients with cardiovascular diseases. Increasing evidence indicates that oxidative stress is involved in exercise-induced cardioprotection, while the underlying mechanism remains unclear. Furthermore, the effect of antioxidant supplementation during or post-exercise still exists despite divergences. To explore the effect of oxidative stress and antioxidant supplementation on cardiovascular homeostasis during or post-exercise, we take insights into the progress of exercise-induced oxidative stress, antioxidant supplementation, and cardiovascular homeostasis. In particular, antioxidants such as vitamin C or E, gamma-oryzanol, and other natural antioxidants are discussed concerning regulating exercise-associated oxidative stress. Additionally, our present study reviewed and discussed a meta-analysis of antioxidant supplementation during exercise. Overall, we take an insight into the essential biological adaptations in response to exercise and the effects of antioxidant supplementation on cardiac function, which aid us in giving recommendations on antioxidant supplementation for exercisers and exercised people. A better understanding of these issues will broaden our knowledge of exercise physiology.

Published

2022

89. Keeping the heart healthy: the role of exercise in cardiac repair and regeneration

Author

Jizong Jiang, Lingyan Ni, Xinxin Zhang, Emeli Chatterjee, H. Immo Lehmann, Guoping Li, and Junjie Xiao

Subjects

Physiology, Clinical Biochemistry, General Earth and Planetary Sciences, Cell Biology, Molecular Biology, Biochemistry, General Environmental Science

Published

2023

90. HIPK1 Inhibition Protects against Pathological Cardiac Hypertrophy by Inhibiting the CREB‐C/EBP β Axis

Author

Yihua Bei, Yujiao Zhu, Meng Wei, Mingming Yin, Lin Li, Chen Chen, Zhenzhen Huang, Xuchun Liang, Juan Gao, Jianhua Yao, Petra H. van der Kraak, Aryan Vink, Zhiyong Lei, Yuxiang Dai, Huihua Chen, Yueyang Liang, Joost PG Sluijter, and Junjie Xiao

Subjects

General Chemical Engineering, General Engineering, General Physics and Astronomy, Medicine (miscellaneous), General Materials Science, Biochemistry, Genetics and Molecular Biology (miscellaneous)

Published

2023

91. RNA m6A-Regulated circ-ZNF609 Suppression Ameliorates Doxorubicin-Induced Cardiotoxicity by Upregulating FTO

Author

Pujiao Yu, Jiaqi Wang, Gui-e Xu, Xuan Zhao, Xinxin Cui, Jingyi Feng, Jiangpeng Sun, Tianhui Wang, Michail Spanos, Helge Immo Lehmann, Guoping Li, Jiahong Xu, Lijun Wang, and Junjie Xiao

Subjects

Cardiology and Cardiovascular Medicine

Published

2023

92. The Functions and Mechanisms of Translatable Circular RNAs

Author

Chang, Liu, Xinying, Wu, Priyanka, Gokulnath, Guoping, Li, and Junjie, Xiao

Subjects

Pharmacology, RNA Splicing, Neoplasms, Humans, RNA, Molecular Medicine, RNA, Circular

Abstract

Circular RNAs (circRNAs) are covalently closed RNA produced by back-splicing. CircRNAs have been considered as a type of noncoding RNAs for a long time. However, recent studies have shown that circRNAs can be translated into functional proteins. Proteins specifically encoded by circRNAs have been proved to play important roles in cancer pathology. In this review, we introduce the methods commonly used to identify and validate circRNA translation in detail. We also describe the major mechanisms driving the translation of these circRNAs. In addition, we summarize the main functions of the circRNA-encoded proteins in both physiologic and pathologic conditions. Finally, we discuss the therapeutic potential and challenges in the usage of synthetic translatable circRNAs. This brief review highlights recent discoveries made in this field and the progress of therapy based on translatable circRNAs. SIGNIFICANCE STATEMENT: Understanding the translation of circRNA could facilitate the identification of novel drug targets in various diseases. Moreover, some circRNA encoded proteins were demonstrated to have therapeutic functions in cancer. The application of synthetic circRNAs as carriers to achieve stable protein expression in vitro and in vivo has tremendous therapeutic potential.

Published

2022

93. miR-486 attenuates cardiac ischemia/reperfusion injury and mediates the beneficial effect of exercise for myocardial protection

Author

Yihua Bei, Dongchao Lu, Christian Bär, Shambhabi Chatterjee, Alessia Costa, Isabelle Riedel, Frank C. Mooren, Yujiao Zhu, Zhenzhen Huang, Meng Wei, Meiyu Hu, Sunyi Liu, Pujiao Yu, Kun Wang, Thomas Thum, Junjie Xiao, and Publica

Subjects

Pharmacology, cardiac ischemia/reperfusion injury, exercise, TOR Serine-Threonine Kinases, cardiomyocyte, Apoptosis, Myocardial Reperfusion Injury, miR-486, MicroRNAs, Ischemia, Drug Discovery, Genetics, Humans, Molecular Medicine, Original Article, Myocytes, Cardiac, Proto-Oncogene Proteins c-akt, Molecular Biology, Signal Transduction

Abstract

Exercise and its regulated molecules have myocardial protective effects against cardiac ischemia/reperfusion (I/R) injury. The muscle-enriched miR-486 was previously identified to be upregulated in the exercised heart, which prompted us to investigate the functional roles of miR-486 in cardiac I/R injury and to further explore its potential in contributing to exercise-induced protection against I/R injury. Our data showed that miR-486 was significantly downregulated in the heart upon cardiac I/R injury. Both preventive and therapeutic interventions of adeno-associated virus 9 (AAV9)-mediated miR-486 overexpression could reduce cardiac I/R injury. Using AAV9 expressing miR-486 with a cTnT promoter, we further demonstrated that cardiac muscle cell-targeted miR-486 overexpression was also sufficient to protect against cardiac I/R injury. Consistently, miR-486 was downregulated in oxygen-glucose deprivation/reperfusion (OGDR)-stressed cardiomyocytes, while upregulating miR-486 inhibited cardiomyocyte apoptosis through PTEN and FoxO1 inhibition and AKT/mTOR activation. Finally, we observed that miR-486 was necessary for exercise-induced protection against cardiac I/R injury. In conclusion, miR-486 is protective against cardiac I/R injury and myocardial apoptosis through targeting of PTEN and FoxO1 and activation of the AKT/mTOR pathway, and mediates the beneficial effect of exercise for myocardial protection. Increasing miR-486 might be a promising therapeutic strategy for myocardial protection.

Published

2022

94. Modeling and Simulation for the Stress Relaxation Behavior of Ti-6Al-4V at Medium Temperature

Author

Junjie, Xiao, Dongsheng, Li, and Xiaoqiang, Li

Published

2015

95. Protocol of a Prospective Cohort Study of Physical Activity in Cardiovascular Outcomes (PACVO) in China: Objective, Design, and Baseline Characteristics

Author

Yihua Bei, Wenjing Peng, Juan Zhao, Chen Chen, Xuan Deng, Feifei Hu, Yong Zhou, and Junjie Xiao

Subjects

Cohort Studies, China, Adolescent, Risk Factors, Cardiovascular Diseases, Genetics, Humans, Pharmaceutical Science, Molecular Medicine, Prospective Studies, Cardiology and Cardiovascular Medicine, Exercise, Genetics (clinical)

Abstract

Physical inactivity has been known as an independent risk factor for cardiovascular diseases (CVDs). The "Physical Activity in Cardiovascular Outcomes (PACVO)" study is a long-term community-based cohort study, which will prospectively observe the association of physical activity alone or combined with other contributor factors with CVD outcomes. From 2013 to 2014, a total of 8291 participants ≥ 18 years old were enrolled in the PACVO study from Jidong community (Tangshan, China). According to physical activity assessment, participants were divided into inactive, moderately active, and very active groups. The follow-up has been conducted once every year including physical examinations, blood biochemistry, cardiovascular imaging, and life quality questionnaires until 2034 or until the occurrence of cardiovascular events. The PACVO study will provide substantial information about the association of physical activity with CVD outcomes, therefore promote utilizing physical activity in the prevention and prediction of CVDs.

Published

2022

96. Moderate‐Intensity Exercise Maintains Redox Homeostasis for Cardiovascular Health

Author

Jizong Jiang, Lingyan Ni, Xinxin Zhang, Priyanka Gokulnath, Gururaja Vulugundam, Guoping Li, Hongyun Wang, and Junjie Xiao

Subjects

Biomaterials, Biomedical Engineering, General Biochemistry, Genetics and Molecular Biology

Published

2023

97. Adding Interpretability to Neural Knowledge DNA

Author

Junjie Xiao, Tao Liu, Haoxi Zhang, and Edward Szczerbicki

Subjects

Artificial Intelligence, Software, Information Systems

Published

2021

98. Health and economic impacts of ambient air pollution on hospital admissions for overall and specific cardiovascular diseases in Panzhihua, Southwestern China

Author

Xianzhi Li, Yajie Li, Bin Yu, Hongwei Zhu, Zonglei Zhou, Yan Yang, Shunjin Liu, Yunyun Tian, Junjie Xiao, Xiangyi Xing, and Li Yin

Subjects

Health Policy, Public Health, Environmental and Occupational Health

Abstract

The associations of ambient air pollution with hospital admissions (HAs) for overall and specific causes of cardiovascular diseases (CVDs), as well as related morbidity and economic burdens remain understudied, especially in low-pollution areas of low- and middle-income countries (LMICs). We evaluated the short-term effects of exposure to PMWe used a generalized additive model (GAM) while controlling for time trends, meteorological conditions, holidays, and days of the week to estimate the associations. The cost of illness (COI) method was adopted to further assess corresponding hospitalization costs and productivity losses.A total of 27 660 HAs for CVDs were included in this study. PMOur results suggest that PM

Published

2022

99. High-Q-factor Spoof Localized Surface Plasmon Sensor for MIM Detection

Author

Jiangpeng Wang, Haotian Shi, Junjie Xiao, and Di Bao

Published

2022

100. Chitinase 3-like 1: a Specifical Regulator of Myocardial Infarction

Author

Jianhua Yao, Jinxin Xie, Huanxin Wang, Gururaja Vulugundam, Hongyun Wang, and Junjie Xiao

Subjects

Genetics, Pharmaceutical Science, Molecular Medicine, Cardiology and Cardiovascular Medicine, Genetics (clinical)

Published

2022