Search results for: AEROBIC GLYCOLYSIS - Bridge of Knowledge

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Search results for: AEROBIC GLYCOLYSIS

Search results for: AEROBIC GLYCOLYSIS

  • T cell Activation Is Driven by an ADP-Dependent Glukosinase Linking Enhanced Glycolysis with Mitochondrial Reactive Oxygen Species Generation

    Publication
    • M. M. Kamiński
    • S. W. Sauer
    • M. A. Kamiński
    • S. Opp
    • T. Ruppert
    • P. Grigaravicius
    • P. Grudnik
    • H. Grone
    • P. H. Krammer
    • K. Gulow

    - Cell Reports - Year 2012

    Mitochondria-originating reactive oxygen species control T cell receptor (TCR)-induced gene expression. Here, we show that TCR-triggered activation of ADP-dependent glucokinase (ADPGK), an alternative, glycolytic enzyme typical for Archaea, mediates generation of the oxidative signal. We also show that ADPGK is localized in the endoplasmic reticulum and suggest that its active site protrudes toward the cytosol. The ADPGK-driven...

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  • Human UDP-Glucuronosyltransferases: Effects of altered expression in breast and pancreatic cancer cell lines.

    Publication
    • C. Dates
    • T. Fahmi
    • S. Pyrek
    • A. Yao-Borengasser
    • B. Borowa-Mazgaj
    • S. M. Bratton
    • S. Kadlubar
    • P. Mackenzie
    • R. Haun
    • A. Radominska-Pandya

    - CANCER BIOLOGY & THERAPY - Year 2015

    Increased aerobic glycolysis and de novo lipid biosynthesis are common characteristics of invasive cancers. UDP-glucuronosyltransferases (UGTs) are phase II drug metabolizing enzymes that in normal cells possess the ability to glucuronidate these lipids and speed their excretion; however, de-regulation of these enzymes in cancer cells can lead to an accumulation of bioactive lipids, which further fuels cancer progression. We hypothesize...

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  • Retained features of embryonic metabolism in the adult MRL mouse

    Publication
    • R. K. Naviaux
    • T. H. Le
    • K. Bedelbaeva
    • J. Leferovich
    • D. Gourevitch
    • P. Sachadyn
    • X. Zhang
    • C. Lise
    • H. Ellen

    - MOLECULAR GENETICS AND METABOLISM - Year 2009

    The MRL mouse is an inbred laboratory strain that was derived by selective breeding in 1960 from the rapidly growing LG/J (Large) strain. MRL mice grow to nearly twice the size of other commonly used mouse strains, display uncommonly robust healing and regeneration properties, and express later onset autoimmune traits similar to Systemic Lupus Erythematosis. The regeneration trait (heal) in the MRL mouse maps to 14-20 quantitative...

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