Literature DB >> 31312022

Regulation of the unfolded protein response through ATF4 and FAM129A in prostate cancer.

Nora Pällmann1, Marte Livgård1,2, Martina Tesikova1, Hatice Zeynep Nenseth1, Erman Akkus1, Jørgen Sikkeland1,2, Yixin Jin1,3, Dogukan Koc1,4, Omer Faruk Kuzu1, Manohar Pradhan2, Håvard E Danielsen2,5,6, Nermin Kahraman7, Hamada M Mokhlis7, Bulent Ozpolat7, Partha P Banerjee8, Aykut Uren8, Ladan Fazli9, Paul S Rennie9, Yang Jin1,2, Fahri Saatcioglu10,11.   

Abstract

Cancer cells exploit many of the cellular adaptive responses to support their survival needs. One such critical pathway in eukaryotic cells is the unfolded protein response (UPR) that is important in normal physiology as well as disease states, including cancer. Since UPR can serve as a lever between survival and death, regulated control of its activity is critical for tumor formation and growth although the underlying mechanisms are poorly understood. Here we show that one of the main transcriptional effectors of UPR, activating transcription factor 4 (ATF4), is essential for prostate cancer (PCa) growth and survival. Using systemic unbiased gene expression and proteomic analyses, we identified a novel direct ATF4 target gene, family with sequence similarity 129 member A (FAM129A), which is critical in mediating ATF4 effects on prostate tumorigenesis. Interestingly, FAM129A regulated both PERK and eIF2α in a feedback loop that differentially channeled the UPR output. ATF4 and FAM129A protein expression is increased in patient PCa samples compared with benign prostate. Importantly, in vivo therapeutic silencing of ATF4-FAM129A axis profoundly inhibited tumor growth in a preclinical PCa model. These data support that one of the canonical UPR branches, through ATF4 and its target gene FAM129A, is required for PCa growth and thus may serve as a novel therapeutic target.

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Year:  2019        PMID: 31312022     DOI: 10.1038/s41388-019-0879-2

Source DB:  PubMed          Journal:  Oncogene        ISSN: 0950-9232            Impact factor:   9.867


  37 in total

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Authors:  Ron Edgar; Michael Domrachev; Alex E Lash
Journal:  Nucleic Acids Res       Date:  2002-01-01       Impact factor: 16.971

2.  Loss of c/EBP-beta activity promotes the adaptive to apoptotic switch in hypoxic cortical neurons.

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Journal:  Mol Cell Neurosci       Date:  2008-02-13       Impact factor: 4.314

3.  Overexpression of zinc-finger protein 777 (ZNF777) inhibits proliferation at low cell density through down-regulation of FAM129A.

Authors:  Ryuzaburo Yuki; Kazumasa Aoyama; Sho Kubota; Noritaka Yamaguchi; Shoichi Kubota; Hitomi Hasegawa; Mariko Morii; Xiayu Huang; Kang Liu; Roy Williams; Michiko N Fukuda; Naoto Yamaguchi
Journal:  J Cell Biochem       Date:  2015-06       Impact factor: 4.429

Review 4.  Endoplasmic reticulum stress-activated cell reprogramming in oncogenesis.

Authors:  Eric Chevet; Claudio Hetz; Afshin Samali
Journal:  Cancer Discov       Date:  2015-05-14       Impact factor: 39.397

Review 5.  The impact of the endoplasmic reticulum protein-folding environment on cancer development.

Authors:  Miao Wang; Randal J Kaufman
Journal:  Nat Rev Cancer       Date:  2014-09       Impact factor: 60.716

6.  Activating transcription factor 4 regulates adipocyte differentiation via altering the coordinate expression of CCATT/enhancer binding protein β and peroxisome proliferator-activated receptor γ.

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Journal:  FEBS J       Date:  2014-04-22       Impact factor: 5.542

Review 7.  Surviving Stress: Modulation of ATF4-Mediated Stress Responses in Normal and Malignant Cells.

Authors:  Inge M N Wortel; Laurens T van der Meer; Michael S Kilberg; Frank N van Leeuwen
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Review 8.  Activating transcription factor 4.

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Journal:  Int J Biochem Cell Biol       Date:  2007-01-28       Impact factor: 5.085

9.  Whole blood mRNA in prostate cancer reveals a four-gene androgen regulated panel.

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Journal:  Endocr Relat Cancer       Date:  2016-08-30       Impact factor: 5.678

10.  The PRoteomics IDEntifications (PRIDE) database and associated tools: status in 2013.

Authors:  Juan Antonio Vizcaíno; Richard G Côté; Attila Csordas; José A Dianes; Antonio Fabregat; Joseph M Foster; Johannes Griss; Emanuele Alpi; Melih Birim; Javier Contell; Gavin O'Kelly; Andreas Schoenegger; David Ovelleiro; Yasset Pérez-Riverol; Florian Reisinger; Daniel Ríos; Rui Wang; Henning Hermjakob
Journal:  Nucleic Acids Res       Date:  2012-11-29       Impact factor: 16.971
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  20 in total

1.  THEM6-mediated reprogramming of lipid metabolism supports treatment resistance in prostate cancer.

Authors:  Arnaud Blomme; Coralie Peter; Ernest Mui; Giovanny Rodriguez Blanco; Ning An; Louise M Mason; Lauren E Jamieson; Grace H McGregor; Sergio Lilla; Chara Ntala; Rachana Patel; Marc Thiry; Sonia H Y Kung; Marine Leclercq; Catriona A Ford; Linda K Rushworth; David J McGarry; Susan Mason; Peter Repiscak; Colin Nixon; Mark J Salji; Elke Markert; Gillian M MacKay; Jurre J Kamphorst; Duncan Graham; Karen Faulds; Ladan Fazli; Martin E Gleave; Edward Avezov; Joanne Edwards; Huabing Yin; David Sumpton; Karen Blyth; Pierre Close; Daniel J Murphy; Sara Zanivan; Hing Y Leung
Journal:  EMBO Mol Med       Date:  2022-01-11       Impact factor: 12.137

2.  STAMP2 suppresses autophagy in prostate cancer cells by modulating the integrated stress response pathway.

Authors:  Jørgen Sikkeland; Matthew Yoke Wui Ng; Hatice Zeynep Nenseth; Bilal Unal; Su Qu; Yang Jin; Anne Simonsen; Fahri Saatcioglu
Journal:  Am J Cancer Res       Date:  2022-01-15       Impact factor: 6.166

Review 3.  CK2 and the Hallmarks of Cancer.

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Journal:  Biomedicines       Date:  2022-08-16

4.  GCN2 eIF2 kinase promotes prostate cancer by maintaining amino acid homeostasis.

Authors:  Ricardo A Cordova; Jagannath Misra; Parth H Amin; Anglea J Klunk; Nur P Damayanti; Kenneth R Carlson; Andrew J Elmendorf; Hyeong-Geug Kim; Emily T Mirek; Bennet D Elzey; Marcus J Miller; X Charlie Dong; Liang Cheng; Tracy G Anthony; Robero Pili; Ronald C Wek; Kirk A Staschke
Journal:  Elife       Date:  2022-09-15       Impact factor: 8.713

Review 5.  The endoplasmic reticulum stress response in prostate cancer.

Authors:  Claire M de la Calle; Kevin Shee; Heiko Yang; Peter E Lonergan; Hao G Nguyen
Journal:  Nat Rev Urol       Date:  2022-09-27       Impact factor: 16.430

6.  Induction of Genes Implicated in Stress Response and Autophagy by a Novel Quinolin-8-yl-nicotinamide QN523 in Pancreatic Cancer.

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Journal:  J Med Chem       Date:  2022-04-19       Impact factor: 8.039

7.  The Hydroxyquinoline Analogue YUM70 Inhibits GRP78 to Induce ER Stress-Mediated Apoptosis in Pancreatic Cancer.

Authors:  Soma Samanta; Suhui Yang; Bikash Debnath; Ding Xue; Yuting Kuang; Kavya Ramkumar; Amy S Lee; Mats Ljungman; Nouri Neamati
Journal:  Cancer Res       Date:  2021-02-02       Impact factor: 13.312

8.  Differential microRNA Expression in Newcastle Disease Virus-Infected HeLa Cells and Its Role in Regulating Virus Replication.

Authors:  Yu Chen; Shanshan Zhu; Yuru Pei; Jiao Hu; Zenglei Hu; Xiaowen Liu; Xiaoquan Wang; Min Gu; Shunlin Hu; Xiufan Liu
Journal:  Front Oncol       Date:  2021-06-04       Impact factor: 6.244

9.  Dynamic alteration in miRNA and mRNA expression profiles at different stages of chronic arsenic exposure-induced carcinogenesis in a human cell culture model of skin cancer.

Authors:  Mayukh Banerjee; Ana Ferragut Cardoso; Laila Al-Eryani; Jianmin Pan; Theodore S Kalbfleisch; Sudhir Srivastava; Shesh N Rai; J Christopher States
Journal:  Arch Toxicol       Date:  2021-05-25       Impact factor: 5.153

10.  Adipocyte-driven unfolded protein response is a shared transcriptomic signature of metastatic prostate carcinoma cells.

Authors:  Mackenzie K Herroon; Shane Mecca; Alex Haimbaugh; Laimar C Garmo; Erandi Rajagurubandara; Sokol V Todi; Tracie R Baker; Izabela Podgorski
Journal:  Biochim Biophys Acta Mol Cell Res       Date:  2021-07-16       Impact factor: 5.011
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