MicroRNA-449a Suppresses Mouse Spermatogonia Proliferation via Inhibition of CEP55.

At present, infertile patients with maturation arrest (MA) are difficult to obtain mature sperm. Spermatogenesis and its molecular mechanism are still not clear. Patients with MA and normal spermatogenesis (NS) were collected. iTRAQ-based proteomic approach was performed to reveal the different proteins between them. To validate the confidence of proteome data, the individual samples were analyzed by Western blotting (WB), quantitative polymerase chain reaction (qPCR), and immunofluorescence. The miR-449a and CEP55 were determined by Luciferase assay. Mouse GC-1 cells were transfected with CEP55 siRNAs, miR-449a mimic, or inhibitor, and cell proliferation was determined. Compared with NS, 27 proteins were differentially expressed in MA, and CEP55 protein was the most significant difference. WB and qPCR showed that CEP55 levels were significantly elevated in NS than MA. In transfected cells, overexpression of miR-449a and knockdown of CEP55 both downregulated CEP55 expression and decreased cell proliferation. miR-449a suppresses mouse spermatogonia proliferation via inhibition of CEP55.

[S100A4, a potential therapeutic target on bladder cancer stem cells].

OBJECTIVE: To observe the effect of S100A4 gene silencing mediated by small interfering RNA (siRNA) on the proliferation of bladder cancer stem cells (CSCs) and their capacity of xenograft tumor formation. METHODS: MB49 bladder cancer stem cells (MCSCs) were isolated and identified. The differentially expressed protein S100A4 was identified in MCSCs using isobaric tags for relative and absolute quantitation technology (iTRAQ). A siRNA targeting S100A4 was constructed and transfected into MCSCs, and its inhibitory effects on S100A4 expression in MCSCs were assessed with Western blotting and qPCR. The effects of siRNA-mediated S100A4 silencing on the proliferation and xenograft tumor formation ability of MCSCs were observed. RESULTS: Among the 65 differentially expressed proteins identified by iTRAQ combined with LC/MS/MS, S100A4 protein showed the most distinct differential expression in MCSCs. Transfection of MCSCs with S100A siRNA significantly inhibited the expressions of S100A4 at both mRNA and protein levels, caused obvious suppression of the cell proliferation, and attenuated the xenograft tumor formation ability of the cells in nude mice. CONCLUSION: S100A4 in MCSCs is associated with the recurrence and metastasis of bladder cancer. S100A4 may serve as a potential therapeutic target for eliminating bladder CSCs.