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Into Thin Air: How We Sense and Respond to Hypoxia

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Presentation on theme: "Into Thin Air: How We Sense and Respond to Hypoxia"— Presentation transcript:

1 Into Thin Air: How We Sense and Respond to Hypoxia
Craig B. Thompson  Cell  Volume 167, Issue 1, Pages 9-11 (September 2016) DOI: /j.cell Copyright © 2016 Elsevier Inc. Terms and Conditions

2 Figure 1 Oxygen-Dependent Regulation of the HIF-1 Transcription Factor by Prolyl Hydroxylases Under normoxic conditions, the HIF-1α component of the heterodimeric transcription factor, HIF-1, undergoes hydroxylation through the enzymatic activity of prolyl hydroxylases. The resulting prolyl hydroxylation of HIF-1α is recognized by the tumor suppressor V(H)L, leading to V(H)L-dependent recruitment of a ubiquitin ligase complex and HIF-1α ubiquitination and proteosomal degradation. In the reaction carried out by prolyl hydroxylases, the concentration of oxygen is rate limiting. This allows the hydroxylation reaction to regulate the accumulation of HIF-1α in direct relation to oxygen availability. Under hypoxic conditions, the accumulating HIF-1α dimerizes with HIF-1β, leading to nuclear translocation and binding to hypoxia-response elements (HRE) in genes required for hypoxic adaptation. Sequence-specific DNA binding of HIF-1 leads to the recruitment of transcriptional co-activators such as p300 and the transcription of target genes that stimulate increased vascularization (VEGF), enhance the oxygen carrying capacity of blood (erythropoietin), stimulate oxygen-independent production of ATP through glycolysis (LDH-A), and suppress TCA cycle activity and oxidative phosphorylation (PDHK). Cell  , 9-11DOI: ( /j.cell ) Copyright © 2016 Elsevier Inc. Terms and Conditions

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