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15 Developmental Therapeutics

$18,676P30FY2020CANIH

University Of Tx Md Anderson Can Ctr, Houston TX

Investigators

Linked publications, trials & patents

Trial NCT07407920Trial NCT07349641Trial NCT06651580Trial NCT05681026Trial NCT05223036Trial NCT05078866Trial NCT05057312Trial NCT05054296Trial NCT05044546Trial NCT05023967Trial NCT05011045Trial NCT04875728Trial NCT04870645Trial NCT04810091Trial NCT04751422Trial NCT04740164Trial NCT04668300Trial NCT04615013Trial NCT04505267Trial NCT04484909Trial NCT04483349Trial NCT04481204Trial NCT04474301Trial NCT04458610Trial NCT04447222Trial NCT04435691Trial NCT04430725Trial NCT04407247Trial NCT04373720Trial NCT04317781Trial NCT04311723Trial NCT04310826Trial NCT04310397Trial NCT04265430Trial NCT04257045Trial NCT04256941Trial NCT04239989Trial NCT04239976Trial NCT04239157Trial NCT04236882Trial NCT04228042Trial NCT04220827Trial NCT04220775Trial NCT04220008Trial NCT04219969Trial NCT04219904Trial NCT04216732Trial NCT04216563Trial NCT04216524Trial NCT04216472Trial NCT04215029Trial NCT04200534Trial NCT04199026Trial NCT04196972Trial NCT04189783Trial NCT04189770Trial NCT04189757Trial NCT04188418Trial NCT04188405Trial NCT04186884Trial NCT04186832Trial NCT04185337Trial NCT04181463Trial NCT04171622Trial NCT04171219Trial NCT04171037Trial NCT04169763Trial NCT04169737Trial NCT04169542Trial NCT04160052Trial NCT04151082Trial NCT04150939Trial NCT04140487Trial NCT04135326Trial NCT04134208Trial NCT04132843Trial NCT04132505Trial NCT04132440Trial NCT04129138Trial NCT04128748Trial NCT04128501Trial NCT04127721Trial NCT04125914Trial NCT04119037Trial NCT04106843Trial NCT04106245Trial NCT04090619Trial NCT04090567Trial NCT04087057Trial NCT04083378Trial NCT04082572Trial NCT04074746Trial NCT04066894Trial NCT04062305Trial NCT04062266Trial NCT04058964Trial NCT04054245Trial NCT04054167Trial NCT04054154Trial NCT04053517

Abstract

PROJECT SUMMARY/ABSTRACT The central theme of the Developmental Therapeutics Program (DTP) is to practice the principles of precision therapy, identifying new targets within the pathophysiology of a malignancy to develop novel agents that block their functions and apply these agents to clinical trials in patients whose malignancies exhibit the biomarkers signifying the presence or activity of the target protein or pathway. The program has 47 members (33 primary and 14 associate) from 13 departments and is led by William Plunkett, who has developed multiple anti- leukemic agents in the laboratory; Funda Meric-Bernstam, a physician-scientist who leads the phase 1 department; Giulio Draetta, a physician-scientist who has extensive experience in drug development; and James Yao, a clinical trialist who has developed multiple targeted therapies. The program is organized around 4 major themes: 1) Discovery and Validation of Novel Targets, 2) Development of Novel Therapies, 3) Conduct of Proof-of-Principle Clinical Trials, and 4) Development of Therapies for Rare Cancers. Each theme is addressed by a specific aim. Aim 1: To identify and validate novel targets relevant to the molecular biology of tumors; Aim 2: To develop agents against new targets individually and in combination therapies; Aim 3: To conduct biomarker-driven trials with first-in-human agents or novel combinations; and Aim 4: To identify novel therapies for rare tumors. Annual direct peer-reviewed funding totals $10,284,482, of which $2,839,686 (28%) is from NCI grants, which is an increase of 109% in program annual direct peer-reviewed cancer-related funding since the last competitive renewal. Since the last submission, DTP members have authored 1048 publications: 454 (43%) represent intra-programmatic collaborations, 681 (65%) represent inter-programmatic collaborations, and 645 (62%) were inter-institutional collaborations. Fifty-nine percent of publications appeared in journals with IF >5, and 23% appeared in journals with IF >10, including Blood, Cancer Cell, Cancer Discov, Cell, JAMA, J Clin Invest, J Natl Cancer Inst, J Clin Oncol, Lancet, Lancet Oncol, Mol Cell, and Nature. During the last grant period, several novel targets were identified, including miR-155 in lung cancer, S-phase kinase-associated protein 2 ubiquitin ligase, and the susceptibility of tumors that depend on oxidative phosphorylation for survival. Importantly, novel agents to inhibit each of these targets have been discovered by DTP members and are currently in development. New agents include those that target miR-155, deficiency, the platinum exporter in ovarian cancer, BLy3 in lymphoma, c-Kit, JAK2, and STAT3. DTP members have identified tumors that require oxidative phosphorylation for their growth and have created a candidate inhibitor that is presently in clinical trials. Drugs matched with activating mutations in the PI3K pathway increased phase 1 response rates from 6% to 27% and increased the time before treatment failure. The 15-year analysis of the first chemoimmunotherapy trial in previously untreated CLL revealed prognostic factors associated with the first cures of this disease (37%), guiding the design of single-institution investigator-initiated trials that incorporate new targeted agents.

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