Chengbin Pei scite author profile

Chengbin Pei

4Publications

36Citation Statements Received

147Citation Statements Given

How they've been cited

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112

130

Affiliations

Ningxia Medical University, Ningxia Medical University General Hospital

Publications

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Protective Effects of Nucleosides‐Rich Extract from Cordyceps cicadae against Cisplatin Induced Testicular Damage.

Pei

et al. 2020

Chemistry & Biodiversity

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Cisplatin (CISP) is an efficacious anticancer agent used in chemotherapy, however, the constraint to its clinical utility is the stray organ toxicity including testicular damage linked to oxidative and inflammatory cascades. This study aimed to explore the protective effect of nucleosides-rich extract from Cordyceps cicadae (NRCE) against CISP-induced testicular damage in rats. Rats were subjected to prophylactic oral administration of NRCE (50, 100 and 400 mg/kg body weight/day) for 7 days prior to testicular toxicity induced by CISP (10 mg/kg, ip) and were sacrificed after 72 h post-CISP injection. Cisplatin caused significant deficits in sperm count, viability and motility, testosterone and follicle stimulating hormone (FSH) compared to normal control. It depressed testicular activities of glutathione peroxidase (GSH-Px), superoxide dismutase (SOD), catalase (CAT), total antioxidant content (TAC), whereas malondialdehyde (MDA) increased remarkably. CISP considerably increased tumor necrosis factor-alpha (TNF-α) and interleukin-one beta (IL-1β) with alterations in testis histology compared to normal control. Interestingly, NRCE pretreatment inhibited the CISP-induced alterations in reproductive indices, restored the antioxidant activities in testes as well as inflammatory mediators and histology comparable to control. Our findings demonstrate that NRCE could prevent CISP testicular damage via inhibition of oxidative stress and proinflammation in rats.

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Oxalate-induced apoptosis through ERS-ROS–NF-κB signalling pathway in renal tubular epithelial cell

Ming

Tian

et al. 2022

Mol Med

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Background Kidney stones are composed of approximately 70–80% calcium oxalate. However, the exact mechanism of formation of calcium oxalate kidney stones remains unclear. In this study, we investigated the roles of endoplasmic reticulum stress (ERS), reactive oxygen species (ROS), and the NF-κB signalling pathway in the pathogenesis of oxalate-induced renal tubular epithelial cell injury and its possible molecular mechanisms. Methods We established a model to evaluate the formation of kidney stones by intraperitoneal injection of glyoxylic acid solution into mice and assessed cell morphology, apoptosis, and the expression levels of ERS, ROS, and NF-κB signalling pathway-related proteins in mouse renal tissues. Next, we treated HK-2 cells with potassium oxalate to construct a renal tubular epithelial cell injury model. We detected the changes in autophagy, apoptosis, and mitochondrial membrane potential and investigated the ultrastructure of the cells by transmission electron microscopy. Western blotting revealed the expression levels of apoptosis and autophagy proteins; mitochondrial structural and functional proteins; and ERS, ROS, and NF-κB (p65) proteins. Lastly, we studied the downregulation of NF-κB activity in HK-2 cells by lentivirus interference and confirmed the interaction between the NF-κB signalling and ERS/ROS pathways. Results We observed swelling of renal tissues, increased apoptosis of renal tubular epithelial cells, and activation of the ERS, ROS, and NF-κB signalling pathways in the oxalate group. We found that oxalate induced autophagy, apoptosis, and mitochondrial damage in HK-2 cells and activated the ERS/ROS/NF-κB pathways. Interestingly, when the NF-κB signalling pathway was inhibited, the ERS/ROS pathway was also inhibited. Conclusion Oxalate induces HK-2 cell injury through the interaction between the NF-κB signalling and ERS/ROS pathways.

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The role of miR-199a-3p in inhibiting the proliferation of spermatogonial stem cells under heat stress

et al. 2023

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A fluorescent enzyme-assited biosensor for analyzing the sperm DNA breakpoints in the freezing process

Zhou

Zhuo

Wang

et al. 2022

Preprint

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Background: The freezing and thawing process can cause irreversible structural and functional changes in human sperm, especially sperm DNA damage. Choosing a more accurate and sensitive detection method to evaluate sperm DNA integrity will be especially important. Methods: In this study, an innovative terminal deoxynucleotidyltransferase (TDT) and Endonuclease IV assisted fluorescent fluorescent biosensor (TdT/Endo IV Fluo-biosensor) was developed to detect DNA breakpoints in the freezing process. The performance of our biosensor was assessed by comparison with the conventional DNA fragmentation index (DFI) measured by chromatin structure analysis (SCSA). Results: It was found that the sperm DFI was significantly higher in the frozen group than in the fresh group, and there was no significant difference between the antioxidant group and the frozen group. However, using our method, the number of DNA breakpoints in the antioxidant group was significantly lower than that in the frozen group.Conclusion: Our established biosensor is more accurate and effective than conventional SCSA in assessing sperm DNA integrity during freezing. We anticipate that our biosensors can be widely used in reproductive medicine.

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Chengbin Pei

Protective Effects of Nucleosides‐Rich Extract from Cordyceps cicadae against Cisplatin Induced Testicular Damage.

Oxalate-induced apoptosis through ERS-ROS–NF-κB signalling pathway in renal tubular epithelial cell

The role of miR-199a-3p in inhibiting the proliferation of spermatogonial stem cells under heat stress

A fluorescent enzyme-assited biosensor for analyzing the sperm DNA breakpoints in the freezing process

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