JJ Gruber scite author profile

JJ Gruber

3Publications

1Citation Statement Received

43Citation Statements Given

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Affiliations

Stanford University, Palo Alto University

Publications

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An acetyl-click screening platform identifies a small molecule inhibitor of Histone Acetyltransferase 1 (HAT1) with anti-tumor activity

Gruber

Rangarajan

Chou

et al. 2021

Preprint

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HAT1 is a central regulator of chromatin synthesis that acetylates nascent histone H3:H4 tetramers in the cytoplasm. It may have a role in cancer metabolism by linking cytoplasmic production of acetyl-CoA to nuclear acetyl flux. This is because the HAT1 di-acetylation mark is not propagated in chromatin and instead is de-acetylated after nascent histone insertion into chromatin. Thus, HAT1 likely provides a nuclear source of free acetate that may be recycled to acetyl-CoA for nuclear acetylation reactions. Correspondingly, suppression of HAT1 protein expression impairs tumor growth. To ascertain whether targeting HAT1 is a viable anti-cancer treatment strategy we sought to identify small molecule inhibitors of HAT1. We developed a high-throughput HAT1 acetyl-click assay to facilitate drug discovery and enzymology. Screening of small molecules computationally predicted to bind the active site led to the discovery of multiple riboflavin analogs that inhibited HAT1 enzymatic activity by competing with acetyl-CoA binding. These hits were refined by synthesis and testing over 70 analogs, which yielded structure-activity relationships. The isoalloxazine core was required for enzymatic inhibition, whereas modifications of the ribityl sidechain improved enzymatic potency and cellular growth suppression. These efforts resulted in a lead compound (JG-2016) that suppressed growth of human cancer cells lines in vitro and impaired tumor growth in vivo. This is the first report of a small molecule inhibitor of the HAT1 enzyme complex and represents a step towards targeting this pathway for cancer therapy.

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Abstract P6-05-01: Low BRCA2 levels cause epigenetic activation of growth adaptive pathways without inducing recurrent genomic mutations

Gruber

Snyder

2017

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The development of therapeutics to prevent cancer onset is hindered by a lack of robust cell systems to study the earliest steps of malignant transformation. Significant barriers to studying cancer-initiating events include intrinsic cellular pathways to prevent cell proliferation in the setting of activating oncogenes or genomic instability. To circumvent this limitation, we studied in vitro transient depletion of breast cancer tumor suppressor genes followed by selective growth conditions to enrich for de novo mutations or stable epigenetic alterations that can confer a growth advantage to non-transformed breast epithelial cells. We report that transient BRCA2 depletion, but not depletion of other breast cancer genes, leads to a selective growth advantage in EGF-free media. This is due to a failure of BRCA2 inactivated cells to enact a mesenchymal-to-epithelial transition upon withdrawal of EGF. Genomic profiling and biochemical approaches indicate that transient loss of BRCA2 induces chromatin remodeling in concert with NF-κB signaling and histone H2B deacetylation to repress genes associated with the epithelial state. Notably, this process did not appear to require recurrent driver mutations, nor DNA methylation changes, but was dependent on ATR signaling. Overall, our work suggests that transiently low BRCA2 levels are sufficient to induce aberrant cell proliferation under certain conditions and that targeting epigenetic modifiers may be an approach to prevent BRCA2-induced malignancy. Citation Format: Gruber JJ, Snyder M. Low BRCA2 levels cause epigenetic activation of growth adaptive pathways without inducing recurrent genomic mutations [abstract]. In: Proceedings of the 2016 San Antonio Breast Cancer Symposium; 2016 Dec 6-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2017;77(4 Suppl):Abstract nr P6-05-01.

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Abstract P3-05-02: Not presented

Gruber

Chen

Geller

et al. 2019

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JJ Gruber

An acetyl-click screening platform identifies a small molecule inhibitor of Histone Acetyltransferase 1 (HAT1) with anti-tumor activity

Abstract P6-05-01: Low BRCA2 levels cause epigenetic activation of growth adaptive pathways without inducing recurrent genomic mutations

Abstract P3-05-02: Not presented

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