Factor Inhibiting HIF (FIH)

is a 2OG oxygenase that catal

Factor Inhibiting HIF (FIH)

is a 2OG oxygenase that catalyzes the hydroxylation of an asparagine residue within the C-terminal transactivation domain of HIF-α, thereby inhibiting the binding of co-activators CREB-binding protein (CBP) and p300 to the HIF transcriptional complex. Conversely, FIH inactivation facilitates CBP/p300 recruitment and results in increased HIF target gene expression under hypoxia.86 In the kidney, FIH has been detected in REPC, podocytes and in the distal tubule.[90] and [93] While the role of PHDs and FIH in the regulation of HIF activity is well established, alternative hydroxylation targets have been identified buy Ibrutinib and are likely to impact hypoxia and EPO responses in the kidney.[85], [94] and [95] Furthermore, learn more it is likely that renal EPO synthesis is modulated by epigenetic changes

that are carried out by non-HIF 2OG oxygenases. Although nothing is known about their role in renal physiology, 2OG oxygenases, which contain a jumonji domain, catalyze the demethylation of methylated histones,85 and are likely to provide additional functional links between alterations in renal pO2 levels and gene expression.96 Although in vitro approaches identified HIF-1 as the transcription factor responsible for the hypoxic induction of EPO, 97 HIF-2 has now emerged as the main regulator of EPO production in vivo ( Fig. 2). Several lines of evidence exist that support this notion: a) the location of HIF-2α-expressing renal interstitial

cells coincides with the location of REPC [12] and [98]; b) genetic studies in mice have demonstrated that renal and liver EPO synthesis is HIF-2- and not HIF-1-dependent, as did siRNA and chromatin immunoprecipitation (ChIP)-based studies in certain EPO-producing cell lines [72], [99] and [100]; c) genetic analysis of patients with inherited forms of erythrocytosis have revealed mutations in HIF2Α but not in HIF1Α (see section on for HIF pathway mutations in patients with secondary erythrocytosis); and d) genetic variants of HIF2A have been associated with high altitude dwellers who are protected from chronic mountain sickness (see section on molecular adaptation to life at high altitude). While HIF-1α is ubiquitously expressed, HIF-2α expression is more restricted. HIF-2α was initially identified in endothelial cells, subsequent studies however demonstrated expression in hepatocytes, cardiomyocytes, glial cells, type-II pneumocytes, and in renal peritubular interstitial cells.[98] and [101] The analysis of HIF-1α and HIF-2α knockout mice provided the first major insights into the functional differences between these two HIF homologs.

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