Jeremy A. Meier scite author profile

Background: A pool of the nuclear transcription factor Stat3 in the mitochondria (mitoStat3) controls respiration and Ras transformation. Results: Serine phosphorylation of mitoStat3 controls accumulation of reactive oxygen species and growth of breast cancer in mice. Conclusion:These results provide the first evidence for a mechanism by which mitoStat3 contributes to tumorigenesis. Significance: The data suggest new therapeutic approaches to treatment of breast cancer.

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Toward a new STATe: The role of STATs in mitochondrial function

Meier¹,

Larner²

2014

Seminars in Immunology

146

139

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Signal Transducers and Activators of Transcription (STATs) have been studied extensively and have been associated with virtually every biochemical pathway. Until recently, however, they were thought to exert these effects solely as a nuclear transcription factor. The finding that STAT3 localizes to the mitochondria and modulates respiration has opened up a new avenue through which STATs may regulate the cell. Recently, other members of the STAT family (STAT1, STAT2, STAT5, and STAT6) have also been shown to be present in the mitochondria. Coordinate regulation at the nucleus and mitochondria by these proteins places them in a unique position to drive cellular processes to achieve a specific response. This review summarizes recent findings that have led to our current understanding of how STATs influence mitochondrial function in health and disease.

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Discovery and characterization of small molecules that target the GTPase Ral

Yan

Liu

et al. 2014

Nature

131

112

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The Ras-like GTPases RalA and B are important drivers of tumor growth and metastasis1. Chemicals that block Ral function would be valuable as research tools and for cancer therapeutics. Here, we used protein structure analysis and virtual screening to identify drug-like molecules that bind a site on the GDP-form of Ral. Compounds RBC6, RBC8 and RBC10 inhibited Ral binding to its effector RalBP1, Ral-mediated cell spreading in murine fibroblasts and anchorage-independent growth of human cancer cell lines. Binding of RBC8 derivative BQU57 to RalB was confirmed by isothermal titration calorimetry, surface plasma resonance and 15N-HSQC NMR. RBC8 and BQU57 show selectivity for Ral relative to Ras or Rho and inhibit xenograft tumor growth similar to depletion of Ral by siRNA. Our results show the utility of structure-based discovery for development of therapeutics for Ral-dependent cancers.

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Stress-induced dynamic regulation of mitochondrial STAT3 and its association with cyclophilin D reduce mitochondrial ROS production

et al. 2017

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Signal transducer and activator of transcription 3 (STAT3) is associated with various physiological and pathological functions, mainly as a transcription factor that translocates to the nucleus upon tyrosine phosphorylation induced by cytokine stimulation. In addition, a small pool of STAT3 resides in the mitochondria, where it serves as a sensor for various metabolic stressors including reactive oxygen species (ROS). Mitochondrially localized STAT3 largely exerts its effects through direct or indirect regulation of the activity of the electron transport chain (ETC). It has been assumed that the amounts of STAT3 in the mitochondria are static. We showed that various stimuli, including oxidative stress and cytokines, triggered a signaling cascade that resulted in a rapid loss of mitochondrially localized STAT3. Recovery of the mitochondrial pool of STAT3 over time depended on phosphorylation of Ser727 in STAT3 and new protein synthesis. Under these conditions, mitochondrially localized STAT3 also became competent to bind to cyclophilin D (CypD). Binding of STAT3 to CypD was mediated by the amino terminus of STAT3, which was also important for reducing mitochondrial ROS production after oxidative stress. These results outline a role for mitochondrially localized STAT3 in sensing and responding to external stimuli.

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RalA-Exocyst Complex Regulates Integrin-Dependent Membrane Raft Exocytosis and Growth Signaling

et al. 2010

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Summary Anchorage-dependence of cell growth is a key metastasis-suppression mechanism that is mediated by effects of integrins on growth signaling pathways [1]. The small GTPase RalA is activated in metastatic cancers through multiple mechanisms and specifically induces anchorage independence [2–4]. Loss of integrin-mediated adhesion triggers caveolin-dependent internalization of cholesterol- and sphingolipid- rich lipid raft microdomains to the recycling endosomes; these domains serve as platforms for many signaling pathways and their clearance from the plasma membrane (PM) after cell detachment suppresses growth signaling [5, 6]. Conversely, re-adhesion triggers their return to the PM and restores growth signaling. Activation of Arf6 by integrins mediates exit of raft markers from the RE but is not sufficient for return to the PM. We now show that RalA but not RalB mediates integrin-dependent membrane raft exocytosis through the exocyst complex. Constitutively active RalA restores membrane raft targeting to promote anchorage independent growth signaling. Ras-transformed pancreatic cancer cells also show RalA-dependent constitutive PM raft targeting. These results identify RalA as a key determinant of integrin-dependent membrane raft trafficking and regulation of growth signaling. They therefore define a mechanism by which RalA regulates anchorage dependence and provide a new link between integrin signaling and cancer.

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Jeremy A. Meier

Mitochondrial Localized Stat3 Promotes Breast Cancer Growth via Phosphorylation of Serine 727

Toward a new STATe: The role of STATs in mitochondrial function

Discovery and characterization of small molecules that target the GTPase Ral

Stress-induced dynamic regulation of mitochondrial STAT3 and its association with cyclophilin D reduce mitochondrial ROS production

RalA-Exocyst Complex Regulates Integrin-Dependent Membrane Raft Exocytosis and Growth Signaling

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