Lei Zhong scite author profile

Summary SIRT6 is a member of a highly conserved family of NAD+-dependent deacetylases with various roles in metabolism, stress resistance and lifespan. SIRT6 deficient mice develop normally but succumb to a lethal hypoglycemia early in life; however, the mechanism underlying this hypoglycemia remained unclear. Here, we demonstrate that SIRT6 functions as a histone H3K9 deacetylase to control the expression of multiple glycolytic genes. Specifically, SIRT6 appears to function as a co-repressor of the transcription factor Hif1α, a critical regulator of nutrient stress responses. Consistent with this notion, SIRT6 deficient cells exhibit increased Hif1α activity and show increased glucose uptake with up-regulation of glycolysis and diminished mitochondrial respiration. Our studies uncover a novel role for the chromatin factor SIRT6 as a master regulator of glucose homeostasis, and may provide the basis for novel therapeutic approaches against metabolic diseases, such as diabetes and obesity.

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The Histone Deacetylase SIRT6 Is a Tumor Suppressor that Controls Cancer Metabolism

Sebastián

Zwaans

Silberman

et al. 2012

Cell

578

613

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Reprogramming of cellular metabolism is a key event during tumorigenesis. Despite being known for decades (Warburg effect), the molecular mechanisms regulating this switch remained unexplored. Here, we identify SIRT6 as a novel tumor suppressor that regulates aerobic glycolysis in cancer cells. Importantly, loss of SIRT6 leads to tumor formation without activation of known oncogenes, while transformed SIRT6-deficient cells display increased glycolysis and tumor growth, suggesting that SIRT6 plays a role in both establishment and maintenance of cancer. Using a conditional SIRT6 allele, we show that SIRT6 deletion in vivo increases the number, size and aggressiveness of tumors. SIRT6 also functions as a novel regulator of ribosome metabolism by co-repressing MYC transcriptional activity. Lastly, SIRT6 is selectively downregulated in several human cancers, and expression levels of SIRT6 predict prognosis and tumor-free survival rates, highlighting SIRT6 as a critical modulator of cancer metabolism. Our studies reveal SIRT6 to be a potent tumor suppressor acting to suppress cancer metabolism.

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Small molecules in targeted cancer therapy: advances, challenges, and future perspectives

Zhong

Xiong

et al. 2021

Sig Transduct Target Ther

932

490

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Due to the advantages in efficacy and safety compared with traditional chemotherapy drugs, targeted therapeutic drugs have become mainstream cancer treatments. Since the first tyrosine kinase inhibitor imatinib was approved to enter the market by the US Food and Drug Administration (FDA) in 2001, an increasing number of small-molecule targeted drugs have been developed for the treatment of malignancies. By December 2020, 89 small-molecule targeted antitumor drugs have been approved by the US FDA and the National Medical Products Administration (NMPA) of China. Despite great progress, small-molecule targeted anti-cancer drugs still face many challenges, such as a low response rate and drug resistance. To better promote the development of targeted anti-cancer drugs, we conducted a comprehensive review of small-molecule targeted anti-cancer drugs according to the target classification. We present all the approved drugs as well as important drug candidates in clinical trials for each target, discuss the current challenges, and provide insights and perspectives for the research and development of anti-cancer drugs.

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Lei Zhong

The Histone Deacetylase Sirt6 Regulates Glucose Homeostasis via Hif1α

The Histone Deacetylase SIRT6 Is a Tumor Suppressor that Controls Cancer Metabolism

Small molecules in targeted cancer therapy: advances, challenges, and future perspectives

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