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Merck

TET2-mediated epigenetic reprogramming of breast cancer cells impairs lysosome biogenesis.

Life science alliance (2022-03-31)
Audrey Laurent, Thierry Madigou, Maud Bizot, Marion Turpin, Gaëlle Palierne, Elise Mahé, Sarah Guimard, Raphaël Métivier, Stéphane Avner, Christine Le Péron, Gilles Salbert
RESUMEN

Methylation and demethylation of cytosines in DNA are believed to act as keystones of cell-specific gene expression by controlling the chromatin structure and accessibility to transcription factors. Cancer cells have their own transcriptional programs, and we sought to alter such a cancer-specific program by enforcing expression of the catalytic domain (CD) of the methylcytosine dioxygenase TET2 in breast cancer cells. The TET2 CD decreased the tumorigenic potential of cancer cells through both activation and repression of a repertoire of genes that, interestingly, differed in part from the one observed upon treatment with the hypomethylating agent decitabine. In addition to promoting the establishment of an antiviral state, TET2 activated 5mC turnover at thousands of MYC-binding motifs and down-regulated a panel of known MYC-repressed genes involved in lysosome biogenesis and function. Thus, an extensive cross-talk between TET2 and the oncogenic transcription factor MYC establishes a lysosomal storage disease-like state that contributes to an exacerbated sensitivity to autophagy inducers.

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Sigma-Aldrich
5-Aza-2′-deoxycytidine, ≥97%
Sigma-Aldrich
Anticuerpo anti-trimetil-histona H3 (Lys27), Upstate®, from rabbit
Sigma-Aldrich
Anticuerpo anti-trimetil-histona H3 (Lys4), clon MC315, monoclonal de conejo, culture supernatant, clone MC315, Upstate®
Sigma-Aldrich
SRT1720, SRT1720, CAS 925434-55-5, is a cell-permeable inhibitor of the mitochondrial SIRT3. Inhibition is AceCS2-competitive (Ki = 0.56 µM; Km = 2.44 µM), but NAD+-uncompetitive (Ki = 0.34 µM; Km = 280 µM).