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Cancer Metabolism and Growth

$1,029,093P30FY2022CANIH

Rbhs -Cancer Institute Of New Jersey, New Brunswick NJ

Investigators

Linked publications, trials & patents

Trial NCT05639972Trial NCT05483491Trial NCT05296421Trial NCT04929015Trial NCT04920344Trial NCT04871516Trial NCT04751747Trial NCT04445844Trial NCT04294264Trial NCT04285268Trial NCT04253483Trial NCT04211259Trial NCT04179227Trial NCT04163952Trial NCT04146038Trial NCT04081688Trial NCT03902379Trial NCT03725449Trial NCT03677739Trial NCT03456843Trial NCT03448224Trial NCT03441321Trial NCT03428802Trial NCT03272633Trial NCT03257163Trial NCT03233555Trial NCT03229278Trial NCT03228147Trial NCT03112668Trial NCT03108911Trial NCT03102060Trial NCT03061175Trial NCT03028948Trial NCT02949284Trial NCT02885649Trial NCT02748564Trial NCT02699996Trial NCT02688517Trial NCT02688192Trial NCT02621398Trial NCT02526511Trial NCT02526498Trial NCT02458716Trial NCT02421575Trial NCT02420652Trial NCT02324621Trial NCT02324608Trial NCT02315196Trial NCT02295540Trial NCT02294617Trial NCT02250781Trial NCT02203604Trial NCT02203578Trial NCT02177838Trial NCT02144701Trial NCT02144675Trial NCT02105116Trial NCT01828476Trial NCT01694589Trial NCT01652014Trial NCT01649947Trial NCT01480154Trial NCT01417286Trial NCT01407562Trial NCT01303341Trial NCT01251172Trial NCT01032590Trial NCT01018836Trial NCT01009931Trial NCT01006369Trial NCT00996359Trial NCT00991315Trial NCT00966667Trial NCT00962845Trial NCT00946283Trial NCT00943709Trial NCT00939380Trial NCT00934895Trial NCT00909909Trial NCT00905918Trial NCT00900120Trial NCT00899808Trial NCT00899639Trial NCT00895115Trial NCT00891969Trial NCT00878657Trial NCT00866840Trial NCT00853125Trial NCT00813423Trial NCT00786682Trial NCT00770419Trial NCT00770055Trial NCT00769652Trial NCT00765765Trial NCT00749437Trial NCT00740805Trial NCT00728845Trial NCT00726596Trial NCT00669734Trial NCT00667901

Abstract

CANCER METABOLISM AND GROWTH PROGRAM PROJECT SUMMARY/ABSTRACT The Cancer Metabolism and Growth (CMG) Program has the overall goal to determine how oncogenic alterations regulate tumor cell metabolism, growth, proliferation, survival, and tumor-host interaction to facilitate disease progression. The ultimate aim is to identify new approaches to improve cancer treatment through innovative biochemical, molecular and biological research. In vivo approaches to address metabolic, physical and immunologic functions in cancer and state-of-the-art measurement of cancer metabolism are signature Program features that span the Rutgers/Princeton consortium. CMG provides the platform for productive, collaborative, and impactful science, and interfaces with the Cancer Center for the translation of that science, both bench to bedside and bedside to bench. CMG has 59 members from 26 Departments, 10 Schools, and 3 Universities. CMG research is well funded with $14.3M annual direct peer-reviewed grant support, $9.2M of which is cancer-focused (9 multi-PI), with $3M from the NCI (21 R01-equivalent/14 PIs). In the last funding period CMG members published more than 835 papers, 31% of which are collaborative (15% intra- and 22% inter-collaborative) with 21% top-tier journals and 50% collaborative with other institutions. In comparison to the last funding period, this represents an increase in both total and collaborative publications, and seven additional multi-PI grants. Impactful CMG cancer science includes the discovery that circulating lactate is a major supplier of carbon to the tricarboxylic acid (TCA) cycle in tumors, and that the folate pathway significantly contributes to NADPH production. How glutamine metabolism is critical for MYC-driven cancers, how mTOR signaling is controlled by nutrient availability, and how protein and lipid scavenging contribute to cancer growth, proliferation and survival were also discovered by CMG research. Examination of metabolic interactions between tumor and host revealed new mechanisms of metastasis, and how tumors physically interact with their local environment and the immune system. Program members discovered that metastasis represents corruption of normal developmental processes, that cell polarity and tissue/cytoskeletal tension in the tumor microenvironment alter oncogenic signaling via the Hippo and other pathways, and that nutrient scavenging, interferons and the removal of dead cells by efferocytosis alter the immune response to tumors. Translation of CMG research has led to clinical trials targeting metabolism, promoting apoptosis and activating anti-tumor immune responses. In turn, clinical observations have informed CMG research to model treatment, resistance and exceptional responders to identify underlying mechanisms and to improve therapy.

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