Literature DB >> 31227505

Dual Farnesyl and Geranylgeranyl Transferase Inhibitor Thwarts Mutant KRAS-Driven Patient-Derived Pancreatic Tumors.

Aslamuzzaman Kazi1,2, Shengyan Xiang1, Hua Yang1, Liwei Chen1, Perry Kennedy1, Muhammad Ayaz1,3, Steven Fletcher4, Christopher Cummings5, Harshani R Lawrence1,2,3, Francisca Beato6, Ya'an Kang7, Michael P Kim7, Andrea Delitto8, Patrick W Underwood8, Jason B Fleming6, Jose G Trevino8, Andrew D Hamilton5, Said M Sebti9,2,3.   

Abstract

PURPOSE: Mutant KRAS is a major driver of pancreatic oncogenesis and therapy resistance, yet KRAS inhibitors are lacking in the clinic. KRAS requires farnesylation for membrane localization and cancer-causing activity prompting the development of farnesyltransferase inhibitors (FTIs) as anticancer agents. However, KRAS becomes geranylgeranylated and active when cancer cells are treated with FTIs. To overcome this geranylgeranylation-dependent resistance to FTIs, we designed FGTI-2734, a RAS C-terminal mimetic dual FT and geranylgeranyltransferase-1 inhibitor (GGTI). EXPERIMENTAL
DESIGN: Immunofluorescence, cellular fractionation, and gel shift assays were used to assess RAS membrane association, Western blotting to evaluate FGTI-2734 effects on signaling, and mouse models to demonstrate its antitumor activity.
RESULTS: FGTI-2734, but not the selective FTI-2148 and GGTI-2418, inhibited membrane localization of KRAS in pancreatic, lung, and colon human cancer cells. FGTI-2734 induced apoptosis and inhibited the growth in mice of mutant KRAS-dependent but not mutant KRAS-independent human tumors. Importantly, FGTI-2734 inhibited the growth of xenografts derived from four patients with pancreatic cancer with mutant KRAS (2 G12D and 2 G12V) tumors. FGTI-2734 was also highly effective at inhibiting, in three-dimensional cocultures with resistance promoting pancreatic stellate cells, the viability of primary and metastatic mutant KRAS tumor cells derived from eight patients with pancreatic cancer. Finally, FGTI-2734 suppressed oncogenic pathways mediated by AKT, mTOR, and cMYC while upregulating p53 and inducing apoptosis in patient-derived xenografts in vivo.
CONCLUSIONS: The development of this novel dual FGTI overcomes a major hurdle in KRAS resistance, thwarting growth of patient-derived mutant KRAS-driven xenografts from patients with pancreatic cancer, and as such it warrants further preclinical and clinical studies. ©2019 American Association for Cancer Research.

Entities:  

Year:  2019        PMID: 31227505      PMCID: PMC6774803          DOI: 10.1158/1078-0432.CCR-18-3399

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  35 in total

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Journal:  Oncogene       Date:  2007-05-14       Impact factor: 9.867

2.  A gene expression signature associated with "K-Ras addiction" reveals regulators of EMT and tumor cell survival.

Authors:  Anurag Singh; Patricia Greninger; Daniel Rhodes; Louise Koopman; Sheila Violette; Nabeel Bardeesy; Jeff Settleman
Journal:  Cancer Cell       Date:  2009-06-02       Impact factor: 31.743

3.  Generation of orthotopic and heterotopic human pancreatic cancer xenografts in immunodeficient mice.

Authors:  Michael P Kim; Douglas B Evans; Huamin Wang; James L Abbruzzese; Jason B Fleming; Gary E Gallick
Journal:  Nat Protoc       Date:  2009-10-29       Impact factor: 13.491

4.  Preclinical and clinical pharmacodynamic assessment of L-778,123, a dual inhibitor of farnesyl:protein transferase and geranylgeranyl:protein transferase type-I.

Authors:  Robert B Lobell; Dongming Liu; Carolyn A Buser; Joseph P Davide; Elizabeth DePuy; Kelly Hamilton; Kenneth S Koblan; Yih Lee; Scott Mosser; Sherri L Motzel; James L Abbruzzese; Charles S Fuchs; Eric K Rowinsky; Eric H Rubin; Sunil Sharma; Paul J Deutsch; Kathryn E Mazina; Briggs W Morrison; Lynne Wildonger; Siu-Long Yao; Nancy E Kohl
Journal:  Mol Cancer Ther       Date:  2002-07       Impact factor: 6.261

Review 5.  Direct small-molecule inhibitors of KRAS: from structural insights to mechanism-based design.

Authors:  Jonathan M L Ostrem; Kevan M Shokat
Journal:  Nat Rev Drug Discov       Date:  2016-07-29       Impact factor: 84.694

6.  Targeting protein prenylation for cancer therapy.

Authors:  Norbert Berndt; Andrew D Hamilton; Saïd M Sebti
Journal:  Nat Rev Cancer       Date:  2011-10-24       Impact factor: 60.716

Review 7.  RAS oncogenes: weaving a tumorigenic web.

Authors:  Yuliya Pylayeva-Gupta; Elda Grabocka; Dafna Bar-Sagi
Journal:  Nat Rev Cancer       Date:  2011-10-13       Impact factor: 60.716

Review 8.  Hallmarks of cancer: the next generation.

Authors:  Douglas Hanahan; Robert A Weinberg
Journal:  Cell       Date:  2011-03-04       Impact factor: 41.582

9.  Landscape of Phosphatidylinositol-3-Kinase Pathway Alterations Across 19 784 Diverse Solid Tumors.

Authors:  Sherri Z Millis; Sadakatsu Ikeda; Sandeep Reddy; Zoran Gatalica; Razelle Kurzrock
Journal:  JAMA Oncol       Date:  2016-12-01       Impact factor: 31.777

Review 10.  MYC Deregulation in Primary Human Cancers.

Authors:  Manpreet Kalkat; Jason De Melo; Katherine Ashley Hickman; Corey Lourenco; Cornelia Redel; Diana Resetca; Aaliya Tamachi; William B Tu; Linda Z Penn
Journal:  Genes (Basel)       Date:  2017-05-25       Impact factor: 4.096
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Journal:  Cell Mol Life Sci       Date:  2020-10-17       Impact factor: 9.261

Review 2.  KRAS G12C Game of Thrones, which direct KRAS inhibitor will claim the iron throne?

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Journal:  Cancer Treat Rev       Date:  2020-01-23       Impact factor: 12.111

Review 3.  Developing effective combination therapy for pancreatic cancer: An overview.

Authors:  Aubrey L Miller; Patrick L Garcia; Karina J Yoon
Journal:  Pharmacol Res       Date:  2020-03-02       Impact factor: 7.658

4.  Geranylgeranylation signaling promotes breast cancer cell mitosis via the YAP-activated transcription of kinetochore/centromere genes.

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Journal:  Am J Cancer Res       Date:  2022-03-15       Impact factor: 6.166

Review 5.  Targeting KRAS in pancreatic cancer: new drugs on the horizon.

Authors:  Sahar F Bannoura; Md Hafiz Uddin; Misako Nagasaka; Farzeen Fazili; Mohammed Najeeb Al-Hallak; Philip A Philip; Bassel El-Rayes; Asfar S Azmi
Journal:  Cancer Metastasis Rev       Date:  2021-09-09       Impact factor: 9.237

Review 6.  RAS: Striking at the Core of the Oncogenic Circuitry.

Authors:  Ryan C Gimple; Xiuxing Wang
Journal:  Front Oncol       Date:  2019-09-24       Impact factor: 6.244

7.  A Novel KRAS Antibody Highlights a Regulation Mechanism of Post-Translational Modifications of KRAS during Tumorigenesis.

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Journal:  Int J Mol Sci       Date:  2020-09-02       Impact factor: 5.923

Review 8.  Emerging strategies to target RAS signaling in human cancer therapy.

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Journal:  J Hematol Oncol       Date:  2021-07-23       Impact factor: 17.388

Review 9.  Post-translational modification of KRAS: potential targets for cancer therapy.

Authors:  Wei-Hua Wang; Tao Yuan; Mei-Jia Qian; Fang-Jie Yan; Liu Yang; Qiao-Jun He; Bo Yang; Jin-Jian Lu; Hong Zhu
Journal:  Acta Pharmacol Sin       Date:  2020-10-21       Impact factor: 7.169

Review 10.  Current therapy of KRAS-mutant lung cancer.

Authors:  Aron Ghimessy; Peter Radeczky; Viktoria Laszlo; Balazs Hegedus; Ferenc Renyi-Vamos; Janos Fillinger; Walter Klepetko; Christian Lang; Balazs Dome; Zsolt Megyesfalvi
Journal:  Cancer Metastasis Rev       Date:  2020-12       Impact factor: 9.264
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