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Death-inducer obliterator 1 (DIDO1) silencing suppresses growth of bladder cancer cells through decreasing SAPK/JNK signaling cascades

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Jian Li, An Wang, Sheng Wang, Cheng Wang, Sheng Xue, Wen Li, Tan Ma,  Yu Shan

Abstract:

Death inducer obliterator (DIDO) is involved in apoptosis and embryonic stem cell self-renewal. Here, we investigate the effect of DIDO1 on bladder cancer cells and clarify the underlying molecular mechanism. Bladder cancer tissues and cell lines (T24, ScaBER, 5637), as well as normal bladder epithelial cells (SV-HUC-1), were used to measure the levels of DIDO1 mRNA and protein by qRT-PCR and western blot, respectively. The results indicated that DIDO1 was highly expressed in bladder cancer tissues and cell lines. And the expression of DIDO1 in T24 and 5637 cells was higher than that in ScaBER and SV-HUC-1 cells. The expression of DIDO1 was knocked down in T24 and 5637 cells by infection with shDIDO1-1 and shDIDO1-2 lentivirus. The growth of T24 and 5637 cells was monitored using Celigo, MTT assays, and colony formation assay. Apoptosis was examined by flow cytometric analysis. The effect of DIDO1 knockdown on tumorigenesis of T24 xenograft tumors was determined in nude mice. Reduction of DIDO1 mRNA resulted in reduced proliferation, decreased cell colony formation, increased apoptosis in vitro, and inhibited tumorigenesis in vivo. Furthermore, we identified signaling molecules involved in stress and apoptosis using the PathScan Antibody Array Kit and western blot. The depletion of DIDO1 significantly decreased the levels of phosphorylated SAPK/JNK, and Chk1/2, as well as the upregulating cleaved Caspase-7 expression. These results indicated that the potential mechanism of DIDO1 action might involve SAPK/JNK signaling cascades.

Received date: 11/15/2019

Accepted date: 01/07/2020

Ahead of print publish date: 06/02/2020

Issue: 5/2020

Volume: 67

Pages: 1074 — 1084

Keywords: bladder cancer, death inducer obliterator DIDO1, cell proliferation, SAPK/JNK signaling cascades

DOI: 10.4149/neo_2020_191115N01171

Pubmed

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