Zebing Hu
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Explore the profile of Zebing Hu including associated specialties, affiliations and a list of published articles.
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27
Citations
404
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Recent Articles
11.
Xu L, Zhang L, Zhang X, Li G, Wang Y, Dong J, et al.
Int J Mol Sci
. 2021 Oct;
22(19).
PMID: 34638868
Mechanical unloading contributes to significant cardiovascular deconditioning. Endothelial dysfunction in the sites of microcirculation may be one of the causes of the cardiovascular degeneration induced by unloading, but the detailed...
12.
Wang H, Dong J, Li G, Tan Y, Zhao H, Zhang L, et al.
Biochem Biophys Res Commun
. 2021 Apr;
555:175-181.
PMID: 33819748
Microgravity and radiation exposure-induced bone damage is one of the most significant alterations in astronauts after long-term spaceflight. However, the underlying mechanism is still largely unknown. Recent ground-based simulation studies...
13.
Dong J, Wang H, Li G, Wang K, Tan Y, Zhang L, et al.
NPJ Microgravity
. 2021 Feb;
7(1):3.
PMID: 33589605
Microgravity is well-known to induce Osteopenia. However, the combined effects of microgravity and radiation that commonly exist in space have not been broadly elucidated. This research investigates the combined effects...
14.
Sun Z, Wang H, Wang Y, Yuan G, Yu X, Jiang H, et al.
Aging Cell
. 2021 Jan;
20(2):e13298.
PMID: 33440070
Impaired osteoblast function is involved in osteoporosis, and microRNA (miRNA) dysregulation may cause abnormal osteoblast osteogenic activity. However, the influence of miRNA on osteoblast activity and the underlying mechanisms remain...
15.
Wang K, Wang Y, Hu Z, Zhang L, Li G, Dang L, et al.
Cell Death Dis
. 2020 May;
11(5):382.
PMID: 32427900
Unloading-induced bone loss is a threat to human health and can eventually result in osteoporotic fractures. Although the underlying molecular mechanism of unloading-induced bone loss has been broadly elucidated, the...
16.
Wang Y, Wang K, Zhang L, Tan Y, Hu Z, Dang L, et al.
Cell Death Dis
. 2020 Feb;
11(2):133.
PMID: 32071307
Ameliorating bone loss caused by mechanical unloading is a substantial clinical challenge, and the role of noncoding RNAs in this process has attracted increasing attention. In this study, we found...
17.
Hu Z, Zhang L, Wang H, Wang Y, Tan Y, Dang L, et al.
Stem Cell Res Ther
. 2020 Feb;
11(1):58.
PMID: 32054528
Background: Skeletal unloading can induce severe disuse osteopenia that often occurs in spaceflight astronauts or in patients subjected to prolonged bed-rest or immobility. Previously, we revealed a mechano-sensitive factor, miRNA-132-3p,...
18.
Zhang L, Li G, Wang K, Wang Y, Dong J, Wang H, et al.
Biochem Biophys Res Commun
. 2019 Nov;
522(1):164-170.
PMID: 31757419
Disuse osteoporosis is common in prolonged therapeutic bed rest, space flight and immobilization due to limb fracture, which is related to reduction of mechanical stress on bone. Mechanical unloading can...
19.
Sun Z, Li Y, Wang H, Cai M, Gao S, Liu J, et al.
J Cell Mol Med
. 2019 Feb;
23(5):3302-3316.
PMID: 30761733
Impaired osteoblast proliferation plays fundamental roles in microgravity-induced bone loss, and cell cycle imbalance may result in abnormal osteoblast proliferation. However, whether microgravity exerts an influence on the cell cycle...
20.
Wang Y, Wang K, Hu Z, Zhou H, Zhang L, Wang H, et al.
Cell Death Dis
. 2018 Nov;
9(11):1107.
PMID: 30382082
Recent studies have confirmed that microRNAs and lncRNAs can affect bone cell differentiation and bone formation. In this study, miR-139-3p was upregulated in the femurs of hindlimb unloading mice and...