Malia B. Potts scite author profile

SUMMARY AMP-activated protein kinase (AMPK) is a master sensor and regulator of cellular energy status. Upon metabolic stress, AMPK suppresses anabolic and promotes catabolic processes to regain energy homeostasis. Cancer cells can occasionally suppress the growth restrictive AMPK pathway by mutation of an upstream regulatory kinase. Here, we describe a widespread mechanism to suppress AMPK through its ubiquitination and degradation by the cancer-specific MAGE-A3/6-TRIM28 ubiquitin ligase. MAGE-A3 and MAGE-A6 are highly similar proteins normally expressed only in the male germline, but frequently re-activated in human cancers. MAGE-A3/6 are necessary for cancer cell viability and sufficient to drive tumorigenic properties of non-cancerous cells. Screening for targets of MAGE-A3/6-TRIM28 revealed that it ubiquitinates and degrades AMPKα1. This leads to inhibition of autophagy, activation of mTOR signaling, and hypersensitization to AMPK agonists, such as metformin. These findings elucidate a germline mechanism commonly hijacked in cancer to suppress AMPK.

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Discoipyrroles A–D: Isolation, Structure Determination, and Synthesis of Potent Migration Inhibitors from Bacillus hunanensis

Potts

Colosimo

et al. 2013

J. Am. Chem. Soc.

112

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Discoidin domain receptor 2 (DDR2) is a receptor tyrosine kinase involved in a variety of cellular response pathways, including regulation of cell growth, proliferation and motility. Using a newly developed platform to identify the signaling pathway/molecular target of natural products, we identified a family of alkaloid natural products, discoipyrroles A–D (1–4), from Bacillus hunanensis that inhibit the DDR2 signaling pathway. The structure of 1–4, determined by detailed 2D NMR methods and confirmed by X-ray crystallographic analysis has an unusual 3H-benzo[ d]pyrrolo][1,3]oxazine-3,5-dione core. Discoipyrroles A–D potently inhibit DDR2 dependent migration of BR5 fibroblasts and show selective cytotoxicity to DDR2 mutant cell lung cancer cell lines (IC50 120–400 nM). Examination of the biosynthesis has led to the conclusion that the discoipyrroles are formed through a non-enzymatic process, leading to a one-pot total synthesis of 1.

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Using Functional Signature Ontology (FUSION) to Identify Mechanisms of Action for Natural Products

et al. 2013

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A challenge for biomedical research is the development of pharmaceuticals that appropriately target disease mechanisms. Natural products can be a rich source of bioactive chemicals for medicinal applications but can act through unknown mechanisms and can be difficult to produce or obtain. To address these challenges, we developed a new marine-derived, renewable natural products resource and a method for linking bioactive derivatives of this library to the proteins and biological processes that they target in cells. We used cell-based screening and computational analysis to match gene expression signatures produced by natural products to those produced by siRNA and synthetic microRNA libraries. With this strategy, we matched proteins and microRNAs with diverse biological processes and also identified putative protein targets and mechanisms of action for several previously undescribed marine-derived natural products. We confirmed mechanistic relationships for selected short-interfering RNAs, microRNAs, and compounds with functional roles in autophagy, chemotaxis mediated by discoidin domain receptor 2, or activation of the kinase AKT. Thus, this approach may be an effective method for screening new drugs while simultaneously identifying their targets.

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Reduced Apaf-1 levels in cardiomyocytes engage strict regulation of apoptosis by endogenous XIAP

et al. 2005

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Overexpression studies have identified X-linked inhibitor of apoptosis protein (XIAP) as a potent inhibitor of caspases. However, the exact function of endogenous XIAP in regulating mammalian apoptosis is less clear. Endogenous XIAP strictly regulates cytochrome c–dependent caspase activation in sympathetic neurons but not in many mitotic cells. We report that postmitotic cardiomyocytes, unlike fibroblasts, are remarkably resistant to cytosolic microinjection of cytochrome c. The cardiomyocyte resistance to cytochrome c is mediated by endogenous XIAP, as XIAP-deficient cardiomyocytes die rapidly with cytosolic cytochrome c alone. Importantly, we found that cardiomyocytes, like neurons, have markedly reduced Apaf-1 levels and that this decrease in Apaf-1 is directly linked to the tight regulation of caspase activation by XIAP. These data identify an important function of XIAP in cardiomyocytes and point to a striking similarity in the regulation of apoptosis in postmitotic cells.

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Malia B. Potts

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Degradation of AMPK by a Cancer-Specific Ubiquitin Ligase

Discoipyrroles A–D: Isolation, Structure Determination, and Synthesis of Potent Migration Inhibitors from Bacillus hunanensis

Using Functional Signature Ontology (FUSION) to Identify Mechanisms of Action for Natural Products

Reduced Apaf-1 levels in cardiomyocytes engage strict regulation of apoptosis by endogenous XIAP

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Resources

About

Malia B. Potts

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Degradation of AMPK by a Cancer-Specific Ubiquitin Ligase

Discoipyrroles A–D: Isolation, Structure Determination, and Synthesis of Potent Migration Inhibitors from Bacillus hunanensis

Using Functional Signature Ontology (FUSION) to Identify Mechanisms of Action for Natural Products

Reduced Apaf-1 levels in cardiomyocytes engage strict regulation of apoptosis by endogenous XIAP

Contact Info

Product

Resources

About

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹