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Literature DB >> 28899863

A Unified Approach to Targeting the Lysosome's Degradative and Growth Signaling Roles.

Vito W Rebecca¹, Michael C Nicastri², Noel McLaughlin², Colin Fennelly¹, Quentin McAfee¹, Amruta Ronghe³, Michel Nofal⁴, Chun-Yan Lim⁵, Eric Witze⁶, Cynthia I Chude¹, Gao Zhang³, Gretchen M Alicea³, Shengfu Piao¹, Sengottuvelan Murugan¹, Rani Ojha¹, Samuel M Levi², Zhi Wei⁷, Julie S Barber-Rotenberg⁸, Maureen E Murphy³, Gordon B Mills⁹, Yiling Lu⁹, Joshua Rabinowitz⁴, Ronen Marmorstein⁸, Qin Liu³, Shujing Liu¹⁰, Xiaowei Xu¹⁰, Meenhard Herlyn³, Roberto Zoncu⁵, Donita C Brady⁶, David W Speicher³, Jeffrey D Winkler^11,12, Ravi K Amaravadi^13,12.

Abstract

Lysosomes serve dual roles in cancer metabolism, executing catabolic programs (i.e., autophagy and macropinocytosis) while promoting mTORC1-dependent anabolism. Antimalarial compounds such as chloroquine or quinacrine have been used as lysosomal inhibitors, but fail to inhibit mTOR signaling. Further, the molecular target of these agents has not been identified. We report a screen of novel dimeric antimalarials that identifies dimeric quinacrines (DQ) as potent anticancer compounds, which concurrently inhibit mTOR and autophagy. Central nitrogen methylation of the DQ linker enhances lysosomal localization and potency. An in situ photoaffinity pulldown identified palmitoyl-protein thioesterase 1 (PPT1) as the molecular target of DQ661. PPT1 inhibition concurrently impairs mTOR and lysosomal catabolism through the rapid accumulation of palmitoylated proteins. DQ661 inhibits the in vivo tumor growth of melanoma, pancreatic cancer, and colorectal cancer mouse models and can be safely combined with chemotherapy. Thus, lysosome-directed PPT1 inhibitors represent a new approach to concurrently targeting mTORC1 and lysosomal catabolism in cancer.Significance: This study identifies chemical features of dimeric compounds that increase their lysosomal specificity, and a new molecular target for these compounds, reclassifying these compounds as targeted therapies. Targeting PPT1 blocks mTOR signaling in a manner distinct from catalytic inhibitors, while concurrently inhibiting autophagy, thereby providing a new strategy for cancer therapy. Cancer Discov; 7(11); 1266-83. ©2017 AACR.See related commentary by Towers and Thorburn, p. 1218This article is highlighted in the In This Issue feature, p. 1201. ©2017 American Association for Cancer Research.

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Year: 2017 PMID： 28899863 PMCID： PMC5833978 DOI： 10.1158/2159-8290.CD-17-0741

Source DB: PubMed Journal: Cancer Discov ISSN： 2159-8274 Impact factor: 39.397

55 in total

1. Safety and Biologic Response of Pre-operative Autophagy Inhibition in Combination with Gemcitabine in Patients with Pancreatic Adenocarcinoma.

Authors: Brian A Boone; Nathan Bahary; Amer H Zureikat; A James Moser; Daniel P Normolle; Wen-Chi Wu; Aatur D Singhi; Phillip Bao; David L Bartlett; Lance A Liotta; Virginia Espina; Patricia Loughran; Michael T Lotze; Herbert J Zeh
Journal: Ann Surg Oncol Date: 2015-04-24 Impact factor: 5.344

2. Human pancreatic cancer tumors are nutrient poor and tumor cells actively scavenge extracellular protein.

Authors: Jurre J Kamphorst; Michel Nofal; Cosimo Commisso; Sean R Hackett; Wenyun Lu; Elda Grabocka; Matthew G Vander Heiden; George Miller; Jeffrey A Drebin; Dafna Bar-Sagi; Craig B Thompson; Joshua D Rabinowitz
Journal: Cancer Res Date: 2015-02-01 Impact factor: 12.701

3. Nucleolar Enrichment of Brain Proteins with Critical Roles in Human Neurodevelopment.

Authors: Lukasz P Slomnicki; Agata Malinowska; Michal Kistowski; Antoni Palusinski; Jing-Juan Zheng; Mari Sepp; Tonis Timmusk; Michal Dadlez; Michal Hetman
Journal: Mol Cell Proteomics Date: 2016-04-06 Impact factor: 5.911

Review 4. Targeting mitochondrial metabolism by inhibiting autophagy in BRAF-driven cancers.

Authors: Anne M Strohecker; Eileen White
Journal: Cancer Discov Date: 2014-05-23 Impact factor: 39.397

5. A rapid fluorogenic palmitoyl-protein thioesterase assay: pre- and postnatal diagnosis of INCL.

Authors: O P van Diggelen; J L Keulemans; B Winchester; I L Hofman; S L Vanhanen; P Santavuori; Y V Voznyi
Journal: Mol Genet Metab Date: 1999-04 Impact factor: 4.797

6. Dissecting the dynamic turnover of GFP-LC3 in the autolysosome.

Authors: Hong-Min Ni; Abigail Bockus; Ann L Wozniak; Kellyann Jones; Steven Weinman; Xiao-Ming Yin; Wen-Xing Ding
Journal: Autophagy Date: 2011-02-01 Impact factor: 16.016

Review 7. What a tangled web we weave: emerging resistance mechanisms to inhibition of the phosphoinositide 3-kinase pathway.

Authors: Samuel J Klempner; Andrea P Myers; Lewis C Cantley
Journal: Cancer Discov Date: 2013-11-21 Impact factor: 39.397

8. Where chloroquine still works: the genetic make-up and susceptibility of Plasmodium vivax to chloroquine plus primaquine in Bhutan.

Authors: Sonam Wangchuk; Tobgyel Drukpa; Kinley Penjor; Tashi Peldon; Yeshey Dorjey; Kunzang Dorji; Vishal Chhetri; Hidayat Trimarsanto; Sheren To; Amanda Murphy; Lorenz von Seidlein; Ric N Price; Kamala Thriemer; Sarah Auburn
Journal: Malar J Date: 2016-05-12 Impact factor: 2.979

9. Misrouting of v-ATPase subunit V0a1 dysregulates lysosomal acidification in a neurodegenerative lysosomal storage disease model.

Authors: Maria B Bagh; Shiyong Peng; Goutam Chandra; Zhongjian Zhang; Satya P Singh; Nagarajan Pattabiraman; Aiyi Liu; Anil B Mukherjee
Journal: Nat Commun Date: 2017-03-07 Impact factor: 14.919

10. Randomized Open-Label Phase II Trial of Apitolisib (GDC-0980), a Novel Inhibitor of the PI3K/Mammalian Target of Rapamycin Pathway, Versus Everolimus in Patients With Metastatic Renal Cell Carcinoma.

Authors: Thomas Powles; Mark R Lackner; Stéphane Oudard; Bernard Escudier; Christy Ralph; Janet E Brown; Robert E Hawkins; Daniel Castellano; Brian I Rini; Michael D Staehler; Alain Ravaud; Wei Lin; Bridget O'Keeffe; Yulei Wang; Shan Lu; Jill M Spoerke; Ling-Yuh Huw; Michelle Byrtek; Rui Zhu; Joseph A Ware; Robert J Motzer
Journal: J Clin Oncol Date: 2016-03-07 Impact factor: 44.544

69 in total

1. A family of PIKFYVE inhibitors with therapeutic potential against autophagy-dependent cancer cells disrupt multiple events in lysosome homeostasis.

Authors: Gaurav Sharma; Carlos M Guardia; Ajit Roy; Alex Vassilev; Amra Saric; Lori N Griner; Juan Marugan; Marc Ferrer; Juan S Bonifacino; Melvin L DePamphilis
Journal: Autophagy Date: 2019-03-08 Impact factor: 16.016

Review 2. Autophagy, cancer stem cells and drug resistance.

Authors: Alexandra G Smith; Kay F Macleod
Journal: J Pathol Date: 2019-02-04 Impact factor: 7.996

3. Lysosome Membrane Permeabilization and Disruption of the Molecular Target of Rapamycin (mTOR)-Lysosome Interaction Are Associated with the Inhibition of Lung Cancer Cell Proliferation by a Chloroquinoline Analog.

Authors: Juan Sironi; Evelyn Aranda; Lars Ulrik Nordstrøm; Edward L Schwartz
Journal: Mol Pharmacol Date: 2018-11-08 Impact factor: 4.436

Review 4. The lysosome as a cellular centre for signalling, metabolism and quality control.

Authors: Rosalie E Lawrence; Roberto Zoncu
Journal: Nat Cell Biol Date: 2019-01-02 Impact factor: 28.824

Review 5. Protein palmitoylation and cancer.

Authors: Pin-Joe Ko; Scott J Dixon
Journal: EMBO Rep Date: 2018-09-19 Impact factor: 8.807

6. PPT1 Promotes Tumor Growth and Is the Molecular Target of Chloroquine Derivatives in Cancer.

Authors: Vito W Rebecca; Michael C Nicastri; Colin Fennelly; Cynthia I Chude; Julie S Barber-Rotenberg; Amruta Ronghe; Quentin McAfee; Noel P McLaughlin; Gao Zhang; Aaron R Goldman; Rani Ojha; Shengfu Piao; Estela Noguera-Ortega; Alessandra Martorella; Gretchen M Alicea; Jennifer J Lee; Lynn M Schuchter; Xiaowei Xu; Meenhard Herlyn; Ronen Marmorstein; Phyllis A Gimotty; David W Speicher; Jeffrey D Winkler; Ravi K Amaravadi
Journal: Cancer Discov Date: 2018-11-15 Impact factor: 39.397