Jiao Lu scite author profile

Jiao Lu

5Publications

98Citation Statements Received

226Citation Statements Given

How they've been cited

100

How they cite others

282

213

Affiliations

Nanjing Sport Institute, University of Ottawa, Shanghai University of Sport

Publications

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Changes in Autophagy Levels in Rat Myocardium During Exercise Preconditioning-Initiated Cardioprotective Effects

Wang

et al. 2019

Int. Heart J.

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The role of autophagy in the cardioprotection conferred by ischemic preconditioning (IPC) has been well described. This study aimed to investigate the changes in autophagy levels during the cardioprotective effects initiated by exercise preconditioning (EP).Rats were randomly divided into 4 groups: group C (control), group EP, group EE (exhaustive exercise), and group EP + EE (EP pretreatment at 0.5 hours before EE). The EP protocol included 4 periods of 10 minutes of treadmill running each at 30 m/minute with intervening 10 minute periods of rest. Hematoxylin-basic fuchsin-picric acid (HBFP) staining and plasma levels of cardiac troponin I (cTnI) were used to evaluate the ischemia-hypoxia injury in rat myocardium. Alteration levels in several autophagy proteins in the left ventricular myocardium were analyzed by Western blot. The phasic alterations of autophagy levels during EP-initiated cardioprotective phase were also examined.Compared with group C, the ischemia-hypoxia positive areas and IOD value in HBFP-staining and cTnI plasma levels increased significantly in group EE. Compared with group EE, the ischemia-hypoxia injury was markedly attenuated in group EP + EE. Compared with group C, the LC3-II/LC3-I ratio, a marker of autophagosome formation, was reduced in group EE, but the LC3-II/LC3-I ratio remained unaltered in group EP + EE. Furthermore, the LC3-II/LC3-I ratio increased significantly at 2 hours during the cardioprotective phase after EP.These results suggest that the activated autophagy level during the EP-initiated cardioprotective phase may be partly involved in the cardioprotective effects by maintaining a normal autophagy basal level during the subsequent exhaustive exercise in rat myocardium. (Int Heart J 2019; 60: 419-428)

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H₂O₂ Signaling‐Triggered PI3K Mediates Mitochondrial Protection to Participate in Early Cardioprotection by Exercise Preconditioning

Yang

Wan

et al. 2018

Oxidative Medicine and Cellular Longevity

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Previous studies have shown that early exercise preconditioning (EEP) imparts a protective effect on acute cardiovascular stress. However, how mitophagy participates in exercise preconditioning- (EP-) induced cardioprotection remains unclear. EEP may involve mitochondrial protection, which presumably crosstalks with predominant H2O2 oxidative stress. Our EEP protocol involves four periods of 10 min running with 10 min recovery intervals. We added a period of exhaustive running and a pretreatment using phosphoinositide 3-kinase (PI3K)/autophagy inhibitor wortmannin to test this protective effect. By using transmission electron microscopy (TEM), laser scanning confocal microscopy, and other molecular biotechnology methods, we detected related markers and specifically analyzed the relationship between mitophagic proteins and mitochondrial translocation. We determined that exhaustive exercise associated with various elevated injuries targeted the myocardium, oxidative stress, hypoxia-ischemia, and mitochondrial ultrastructure. However, exhaustion induced limited mitochondrial protection through a H2O2-independent manner to inhibit voltage-dependent anion channel isoform 1 (VDAC1) instead of mitophagy. EEP was apparently safe to the heart. In EEP-induced cardioprotection, EEP provided suppression to exhaustive exercise (EE) injuries by translocating Bnip3 to the mitochondria by recruiting the autophagosome protein LC3 to induce mitophagy, which is potentially triggered by H2O2 and influenced by Beclin1-dependent autophagy. Pretreatment with the wortmannin further attenuated these effects induced by EEP and resulted in the expression of proapoptotic phenotypes such as oxidative injury, elevated Beclin1/Bcl-2 ratio, cytochrome c leakage, mitochondrial dynamin-1-like protein (Drp-1) expression, and VDAC1 dephosphorylation. These observations suggest that H2O2 generation regulates mitochondrial protection in EEP-induced cardioprotection.

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Alterations of Cardiac K<sub>ATP</sub> Channels and Autophagy Contribute in the Late Cardioprotective Phase of Exercise Preconditioning

Wang

et al. 2018

Int. Heart J.

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The cardiac effects of exercise preconditioning (EP) are well established; however, the mechanisms involving cardiac ATP-sensitive potassium channel (K channel) subunits and autophagy are yet to be fully established. The present work aims to investigate the alterations of cardiac K channel subunits Kir6.2, SUR2A, and autophagy-related LC3 during the late cardioprotective phase of EP against exhaustive exercise-induced myocardial injury. Rats run on treadmill for four running time intervals, each with 10 minutes running and rest. Exhaustive exercise was performed 24 h after EP. Cardiac biomarkers, cTnI and NT-proBNP, along with the histological stain, were served as indicators of myocardial injury. Cardiac K channel subunits Kir6.2 and SUR2A were analyzed in this study, and autophagy was evaluated by LC3. The results revealed that EP reduced the exhaustive exercise-induced high level of serum cTnI and myocardial ischemia/hypoxia; however, it did not reveal any changes in the serum NT-proBNP level or cardiac BNP. Cardiac SUR2A mRNA significantly upregulated during the exhaustive exercise. The high levels of Kir6.2, SUR2A, LC3IIpuncta and LC3II turnover observed after exhaustive exercise were signiﬁcantly mitigated by EP in the late phase. These results suggest that EP alleviates myocardial injury induced by exhaustive exercise through the downregulation of cardiac K channels and autophagy.

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Elevated C-type natriuretic peptide elicits exercise preconditioning-induced cardioprotection against myocardial injury probably via the up-regulation of NPR-B

2016

J Physiol Sci

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To evaluate exercise preconditioning (EP)-induced cardioprotective effects against exercise-induced acute myocardial injury and investigate the alterations of C-type natriuretic peptide (CNP) and its specific receptor, natriuretic peptide receptor B (NPR-B), during EP-induced cardioprotection. Rats were subjected to treadmill exercise as an EP model (4 periods of 10 min each at 30 m/min with intervening periods of rest lasting 10 min). High-intensity exercise was performed 0.5 and 24 h after the EP. EP attenuated high-intensity exercise-induced myocardial injury in both the early and late phases. After EP and high-intensity exercise, CNP and NPR-B levels increased robustly, but no alterations in the plasma CNP were observed. The enhanced NPR-B, plasma and tissue CNP, and its mRNA levels after high-intensity exercise were significantly elevated by EP. These results suggest that cardiac CNP and NPR-B play an important role in EP-mediated cardioprotection against high-intensity exercise-induced myocardial injury in rats.

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Central and peripheral slow-pressor mechanisms contributing to Angiotensin II-salt hypertension in rats

Wang

Ahmad

et al. 2017

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Jiao Lu

Changes in Autophagy Levels in Rat Myocardium During Exercise Preconditioning-Initiated Cardioprotective Effects

H₂O₂ Signaling‐Triggered PI3K Mediates Mitochondrial Protection to Participate in Early Cardioprotection by Exercise Preconditioning

Alterations of Cardiac K<sub>ATP</sub> Channels and Autophagy Contribute in the Late Cardioprotective Phase of Exercise Preconditioning

Elevated C-type natriuretic peptide elicits exercise preconditioning-induced cardioprotection against myocardial injury probably via the up-regulation of NPR-B

Central and peripheral slow-pressor mechanisms contributing to Angiotensin II-salt hypertension in rats

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Jiao Lu

Changes in Autophagy Levels in Rat Myocardium During Exercise Preconditioning-Initiated Cardioprotective Effects

H2O2 Signaling‐Triggered PI3K Mediates Mitochondrial Protection to Participate in Early Cardioprotection by Exercise Preconditioning

Alterations of Cardiac K<sub>ATP</sub> Channels and Autophagy Contribute in the Late Cardioprotective Phase of Exercise Preconditioning

Elevated C-type natriuretic peptide elicits exercise preconditioning-induced cardioprotection against myocardial injury probably via the up-regulation of NPR-B

Central and peripheral slow-pressor mechanisms contributing to Angiotensin II-salt hypertension in rats

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H₂O₂ Signaling‐Triggered PI3K Mediates Mitochondrial Protection to Participate in Early Cardioprotection by Exercise Preconditioning