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Experimental Therapeutics Program

$98,369P30FY2022CANIH

Mayo Clinic Rochester, Rochester MN

Investigators

Linked publications, trials & patents

Trial NCT06508463Trial NCT06387979Trial NCT06381154Trial NCT06353191Trial NCT06315595Trial NCT06271291Trial NCT06238648Trial NCT06207188Trial NCT06160206Trial NCT06115772Trial NCT06078709Trial NCT06075524Trial NCT06073951Trial NCT06058663Trial NCT05917145Trial NCT05910801Trial NCT05720624Trial NCT05717153Trial NCT05704283Trial NCT05703399Trial NCT05674123Trial NCT05653661Trial NCT05640765Trial NCT05612100Trial NCT05591092Trial NCT05584449Trial NCT05575440Trial NCT05560009Trial NCT05557877Trial NCT05556525Trial NCT05549661Trial NCT05547386Trial NCT05547347Trial NCT05541016Trial NCT05530759Trial NCT05526417Trial NCT05523154Trial NCT05518903Trial NCT05512767Trial NCT05507879Trial NCT05507541Trial NCT05497804Trial NCT05465954Trial NCT05465941Trial NCT05447923Trial NCT05447910Trial NCT05443971Trial NCT05438563Trial NCT05417867Trial NCT05416983Trial NCT05412953Trial NCT05411523Trial NCT05411497Trial NCT05410977Trial NCT05407038Trial NCT05407025Trial NCT05403580Trial NCT05399004Trial NCT05393713Trial NCT05392946Trial NCT05388877Trial NCT05388851Trial NCT05388058Trial NCT05388006Trial NCT05356897Trial NCT05294367Trial NCT05288062Trial NCT05269381Trial NCT05246670Trial NCT05232851Trial NCT05224271Trial NCT05222620Trial NCT05212428Trial NCT05199285Trial NCT05194293Trial NCT05176223Trial NCT05168163Trial NCT05130060Trial NCT05112627Trial NCT05112614Trial NCT05111314Trial NCT05077735Trial NCT05075980Trial NCT05053100Trial NCT05045066Trial NCT05033288Trial NCT05030298Trial NCT05018208Trial NCT05005182Trial NCT04999826Trial NCT04975516Trial NCT04967196Trial NCT04926948Trial NCT04925817Trial NCT04917744Trial NCT04906369Trial NCT04897009Trial NCT04895735Trial NCT04892277Trial NCT04892264

Abstract

EXPERIMENTAL THERAPEUTICS PROGRAM PROJECT SUMMARY The Experimental Therapeutics (ET) Program contributes to more effective treatment of neoplastic diseases through a spectrum of basic and translational research. The Aims are to 1) define cellular pathways involved in survival and proliferation in order to improve understanding of response to established treatments and identify new therapeutic targets; 2) elucidate biological, biochemical, and pharmacological aspects of the action of novel anti-cancer agents and identify biochemical properties that contribute to tumor cell resistance; 3) evaluate potential genetic and genomic contributions to efficacy and toxicity of anticancer treatments; and 4) conduct early phase clinical trials, based on research in this Program and others, with hand off to disease- specific clinical Programs for phase II testing after initial assessment of safety, pharmacokinetics, pharmacogenetics, and biological effects in the clinical setting. The Program is jointly led by Zhenkun Lou, PhD, Scott Kaufmann, MD, PhD, and Alex Adjei, MD, PhD, who have expertise in DNA repair, cellular signaling, cellular pharmacology, and the conduct of early phase clinical trials. The ET Program has 46 members from 13 departments and divisions, with total direct funding of $12.6M ($8M peer-reviewed, with 88% from NCI). Since the last competitive renewal, the Program has generated 777 publications (129 published in journals with impact factor ≥10, 42 with impact factor ≥20) with 21% and 50% of these publications reflecting intra- and interprogrammatic collaborations, respectively. Notable accomplishments include 1) the demonstration that protein kinase Cι transforms lung adenocarcinoma through the hedgehog pathway and ovarian cancer through the Hippo/YAP pathway; 2) preclinical work showing that CDK4/6 inhibitors alter the epithelial-to-mesenchymal transition and metastasis of breast cancer cells, leading to a CDK4/6 inhibitor/aromatase inhibitor phase II trial in the Women's Cancer Program; 3) demonstration that ZNF423 regulates BRCA1 expression, and allelic variation in this pathway affects the chemopreventive efficacy of tamoxifen; and 4) completion of phase I trials of endoxifen and PARP inhibitors as well as initiation of early phase trials of ATR inhibitors. The Program makes extensive use of Shared Resources, especially the Microscopy and Cell Analysis, Proteomics, Pathology Research, Genome Analysis, Pharmacology, and Pharmacy facilities as well as the Clinical Research Office. The Program adds value to the Mayo Clinic Cancer Center (MCCC) by i) bringing together investigators with a shared emphasis on the preclinical and early clinical study of small molecule therapeutics, alone or in conjunction with immuno-oncology agents, and ii) serving as a resource for early phase clinical trials for MCCC Programs. Future goals of the program include 1) further preclinical work on deubiquitinases and their inhibitors as modulators of DNA repair pathways, 2) expansion of our emphasis on metabolic targets in cancer, and 3) translation of ongoing work on DNA repair, metabolic targets, and chemotherapy/immunotherapy combinations into novel clinical trials.

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