Author: Boyd Ballance, William ; Le, Quang T ; Kotha, Aditya ; Schwartz, Lawrence B ; Kee, Sydney A ; Dailey, Jordan M ; Kazi, Aslamuzzaman ; Straus, David B ; Martin, Rebecca K ; Burchett, Jason R ; Sebti, Said M ; Tharakan, Anuj ; Kolawole, Elizabeth Motunrayo ; Ryan, John J

IgE-mediated mast cell activation is a driving force in allergic disease in need of novel interventions. Statins, long used to lower serum cholesterol, have been shown in multiple large-cohort studies to reduce asthma severity. We previously found that statins inhibit IgE-induced mast cell function, but these effects varied widely among mouse strains and human donors, likely due to the upregulation of the statin target, 3-hydroxy-3-methylgutaryl-CoA reductase. Statin inhibition of mast cell function appeared to be mediated not by cholesterol reduction but by suppressing protein isoprenylation events that use cholesterol pathway intermediates. Therefore, we sought to circumvent statin resistance by targeting isoprenylation. Using genetic depletion of the isoprenylation enzymes farnesyltransferase and geranylgeranyl transferase 1 or their substrate K-Ras, we show a significant reduction in FcεRI-mediated degranulation and cytokine production. Furthermore, similar effects were observed with pharmacological inhibition with the dual farnesyltransferase and geranylgeranyl transferase 1 inhibitor FGTI-2734. Our data indicate that both transferases must be inhibited to reduce mast cell function and that K-Ras is a critical isoprenylation target. Importantly, FGTI-2734 was effective in vivo, suppressing mast cell-dependent anaphylaxis, allergic pulmonary inflammation, and airway hyperresponsiveness. Collectively, these findings suggest that K-Ras is among the isoprenylation substrates critical for FcεRI-induced mast cell function and reveal isoprenylation as a new means of targeting allergic disease.

01 Oct 2019·Clinical Cancer ResearchQ1 · MEDICINE

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

Q1 · MEDICINE

Article

Author: Delitto, Andrea ; Ayaz, Muhammad ; Trevino, Jose G. ; Hamilton, Andrew D. ; Kazi, Aslamuzzaman ; Yang, Hua ; Xiang, Shengyan ; Kennedy, Perry ; Kim, Michael P. ; Underwood, Patrick W. ; Cummings, Christopher ; Lawrence, Harshani R. ; Beato, Francisca ; Fleming, Jason B. ; Kang, Ya'an ; Sebti, Said M. ; Chen, Liwei ; Fletcher, Steven

AbstractPurpose: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.

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Indication	Highest Phase	Country/Location	Organization	Date
Pancreatic Cancer	Preclinical	US	H. Lee Moffitt Cancer Center & Research Institute, Inc.	-

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