The transcription factor GATA3 is a key regulator of mammary gland development and a definitive marker of luminal breast cancer. However, the molecular mechanisms underlying the role of GATA3 in breast carcinogenesis is still not fully understood. We report here that GATA3 promotes cell proliferation and tumorigenesis by facilitating the G1/S transition through its transcription regulation of the CCND1 gene in breast cancer cells. We found that GATA3 is physically associated with poly-ADP ribose polymerase-1 (PARP1), an enzyme modifying nuclear proteins by poly(ADP-ribosyl)ation. We showed that PARP1 acts as a transcription coactivator for GATA3 in breast cancer cells and demonstrated that GATA3 cooperates with PARP1 in transactivation of the CCND1 gene. We demonstrated that PARP1 competes with linker histone H1 to maintain a transcriptional competent chromatin environment for CCND1 gene. Our results unveiled a molecular basis for the coordinated regulation between GATA3 and PARP1 in transcription activation, providing a mechanism for GATA3 in breast carcinogenesis.
The present work provides evidence that mouse miR-20a promotes adipocyte progenitor cells to differentiate and this function may depend upon its inhibitory effects on Kdm6b and TGF-β signaling.
The present work provides evidences that Embelin is effective in inhibiting adipogenesis and lipogenesis in vitro and the mechanisms may involve canonical Wnt signaling. Embelin has the potential to prevent body weight gain and fat accumulation, and to improve obesity-related glucose tolerance impairment and insulin resistance in the HFD-fed mice.
The epithelial-to-mesenchymal transition (EMT) program is crucial for the epithelial cancer progression and fibrotic diseases. Our previous work has demonstrated that p66Shc, a focal adhesion-associated adaptor protein, is frequently downregulated in lung cancers and its depletion promotes metastasis behavior through anoikis resistance. However, mechanism underlying loss of p66Shc and EMT response is not fully understood. Here, we showed that p66Shc deficiency enhanced the expression of ZEB1, the known mesenchymal transcription factor and consequently increased Vimentin, and decreased epithelial markers of E-cadherin and β-catenin. p66Shc depletion also increased cell invasion and migration. In addition, ChIP and luciferase assays showed that these effects were directly mediated by ZEB1 repression of p66Shc promoter. Thus, our findings define a critical role of p66Shc in the suppression of fibrotic EMT response with a negative feedback loop between p66Shc and ZEB1 in lung epithelial cancer cells.
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