Min Wu scite author profile

Summary Although autophagy controls cell death and survival, underlying mechanisms are poorly understood and it is unknown if autophagy just affects whether or not cells die or also controls other aspects of programmed cell death. MAP3K7 is a tumor suppressor gene associated with poor disease-free survival in prostate cancer. Here we report that Map3k7 deletion in mouse prostate cells sensitizes to cell death by TNF-related apoptosis inducing ligand (TRAIL). Surprisingly, this death occurs primarily through necroptosis, not apoptosis, due to assembly of the necrosome in association with the autophagy machinery, mediated by p62/SQSTM1 recruitment of RIPK1. The mechanism of cell death switches to apoptosis if p62-dependent recruitment of the necrosome to the autophagy machinery is blocked. These data show that the autophagy machinery can control the mechanism of programmed cell death by serving as a scaffold rather than by degrading cargo.

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Mechanisms of Overcoming Intrinsic Resistance to Gemcitabine in Pancreatic Ductal Adenocarcinoma through the Redox Modulation

Gocho

Aguilar

et al. 2015

118

111

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Pancreatic ductal adenocarcinoma (PDAC) frequently develops therapeutic resistances, which can be divided into extrinsic and intrinsic resistance. The extrinsic resistance that arises from the surrounding dense tumor stroma is much better understood. However, the mechanisms of intrinsic resistance are not well understood. Here, we report that reactive oxygen species (ROS) induced by gemcitabine treatment, a newly discovered cytotoxic activity, served as a probe in our study to reveal the mechanisms of the intrinsic therapeutic resistance. Our results showed that gemcitabine-induced ROS is generated by NOX and through the increase of p22 -phox expression via NF-kB activation. As a feedback mechanism, nuclear translocation of Nrf2 stimulated the transcription of cytoprotective antioxidant genes, especially genes encoding enzymes that catalyze glutathione (GSH) production to reduce elevated ROS as an intrinsic resistance countermeasure. RNAi-mediated depletion of Nrf2 or addition of b-phenylethyl isothiocyanate inhibited the ROS detoxification process by reducing GSH levels, which, in turn, increased the efficacy of gemcitabine in vitro and in vivo. Thus, our study suggests that a redoxmediated pathway contributes to the intrinsic resistance of PDAC to gemcitabine and provides a basis for developing strategies to preferentially kill PDAC cells through ROS-mediated mechanism. The combination of gemcitabine and PEITC has a selective cytotoxic effect against pancreatic cancer cells in vivo and could thus prove valuable as a cancer treatment. Mol Cancer Ther; 14(3); 788-98.Ó2014 AACR.

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Coordinate Loss of MAP3K7 and CHD1 Promotes Aggressive Prostate Cancer

et al. 2015

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Prostate cancer (CaP) subtypes are poorly defined and functional validation of drivers of ETS rearrangement-negative CaP has not been conducted. Here, we identified an ETS− subtype of aggressive CaP (ERG−MAP3K7delCHD1del) and used a novel developmental model and a cell line xenograft model to show that co-suppression of MAP3K7 and CHD1 expression promotes aggressive disease. Analyses of publicly available CaP datasets revealed that MAP3K7 and CHD1 were significantly co-deleted in 10–20% of localized tumors and combined loss correlated with poor disease-free survival. To evaluate the functional impact of dual MAP3K7-CHD1 loss, we suppressed Map3k7 and/or Chd1 expression in mouse prostate epithelial progenitor/stem cells (PrP/SCs) and performed tissue recombination experiments in vivo. Dual shMap3k7-shChd1 PrP/SC recombinants displayed massive glandular atypia with regions of prostatic intraepithelial neoplasia (PIN) and carcinoma apparent. Combined Map3k7-Chd1 suppression greatly disrupted normal prostatic lineage differentiation; dual recombinants displayed significant AR loss, increased neuroendocrine differentiation, and increased neural differentiation. Clinical samples with dual MAP3K7-CHD1 loss also displayed neuroendocrine and neural characteristics. Additionally, dual Map3k7-Chd1 suppression promoted E-cadherin loss and mucin production in recombinants. MAP3K7 and CHD1 protein loss also correlated with Gleason grade and E-cadherin loss in clinical samples. To further validate the phenotype observed in the PrP/SC model, we suppressed MAP3K7 and/or CHD1 expression in LNCaP prostate cancer cells. Dual shMAP3K7-shCHD1 LNCaP xenografts displayed increased tumor growth and decreased survival compared to shControl, shMAP3K7, and shCHD1 xenografts. Collectively, these data identify coordinate loss of MAP3K7 and CHD1 as a unique driver of aggressive CaP development.

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Cancer-associated adipocytes: emerging supporters in breast cancer

Zhao

Zeng

et al. 2020

J Exp Clin Cancer Res

120

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Breast cancer (BC) is a malignant breast tumor confronted with high invasion, metastasis and recurrence rate, and adipocytes are the largest components in breast tissue. The aberrant adipocytes, especially the BC-neighbored cancer-associated adipocytes (CAAs), are found in the invasive front of BC. CAAs present a vicious phenotype compared with mature mammary adipocytes and mediate the crosstalk network between adipocytes and BC cells. By releasing multiple adipokines such as leptin, adiponectin, interleukin (IL)-6, chemokine ligand 2 (CCL2) and chemokine ligand 5 (CCL5), CAAs play essential roles in favor of proliferation, angiogenesis, dissemination, invasion and metastasis of BC. This article reviews the recent existing CAAs studies on the functions and mechanisms of adipocytes in the development of BC, including adipokine regulating, metabolic reprogramming, extracellular matrix (ECM) remodeling, microRNAs (miRNAs) and immune cell adjusting. Besides, adipocyte secretome and cellular interactions are implicated in the intervention to BC therapy and autologous fat grafting of breast reconstruction. Therefore, the potential functions and mechanisms of CAAs are very important for unveiling BC oncogenesis and progress. Deciphering the complex network between CAAs and BC is critical for designing therapeutic strategies and achieving the maximum therapeutic effects of BC.

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Min Wu

The Autophagy Machinery Controls Cell Death Switching between Apoptosis and Necroptosis

Mechanisms of Overcoming Intrinsic Resistance to Gemcitabine in Pancreatic Ductal Adenocarcinoma through the Redox Modulation

Coordinate Loss of MAP3K7 and CHD1 Promotes Aggressive Prostate Cancer

Cancer-associated adipocytes: emerging supporters in breast cancer

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