Regulation of TRIP13 on Proliferation and Apoptosis of B-Cell Lymphoma Cells and Its Mechanism / 中国实验血液学杂志

OBJECTIVE@#To explore the regulatory effect of TRIP13 on the proliferation and apoptosis of B-cell lymphoma cells and its possible molecular mechanism by knocking down/overexpressing TRIP13 on the cell lines Granta-519 and JVM-2.@*METHODS@#Lentiviral transfection technology was used to construct Granta-519 and JVM-2 cells with knocked down or overexpressed TRIP13 and their control cells. The efficiency of transfection was determined by fluorescence microscopy. The efficiency of knockdown and overexpression was evaluated by real-time quantitative PCR and Western blot. The proliferation was detected by CCK-8 assay. The apoptosis was detected by the Annexin V-APC single staining. The cell cycle was detected by the PI staining. The expression levels of P53, MDM4, and BCL-2 were evaluated by Western blot.@*RESULTS@#After TRIP13 was knocked down, the proliferation ability of Granta-519 and JVM-2 cells was significantly reduced, and the apoptosis rate significantly increased. After TRIP13 was overexpressed, the proliferation ability of Granta-519 and JVM-2 cells was significantly enhanced, and the apoptosis was significantly reduced. After TRIP13 was knocked down, Granta-519 cells had obvious G@*CONCLUSION@#TRIP13 promotes the proliferation of B-cell lymphoma cells, inhibits their apoptosis, and affects their proliferation and apoptosis by participating in the regulation of the cell cycle. TRIP13 promotes the expression of BCL-2 proteins and inhibits the expression of MDM4 protein in B-cell lymphoma cells.

Genetic genes associated with oligospermia, asthenospermia and teratospermia: Advances in studies / 中华男科学杂志

Approximately 2,300 genes are found to be associated with spermiogenesis and their expressions play important roles in the regulation of spermiogenesis. In recent years, more and more attention has been focused on the studies of the genes associated with oligospermia, asthenospermia and teratospermia and their molecular mechanisms. Some genes, such as GSTM1, DNMT3L, and CYP1A1, have been shown to be potentially associated with oligospermia; some, such as CATSPER1, CRISP2, SEPT4, TCTE3, TEKT4, and DNAH1, with asthenospermia; and still others, such as DPY19L2 and AURKC, with teratospermia. These findings have provided a molecular basis for the studies of the pathogenesis of oligospermia, asthenospermia and teratospermia, as well as a new approach to the exploration of new diagnostic and therapeutic techniques.