Divergent expression patterns for hypoxia-inducible factor-1beta and aryl hydrocarbon receptor nuclear transporter-2 in developing kidney.

The hypoxia-inducible factors (HIF) are alpha/beta heterodimeric transcription factors of the basic helix-loop-helix-Per-Arnt-Sim (bHLH-PAS) superfamily and are chiefly responsible for cellular adaptation to oxygen deprivation. HIF function relies on the stabilization of the alpha subunit. When oxygen tension falls, HIF-alpha subunits translocate to the nucleus and, upon dimerization with HIF-beta, activate transcription of target genes, including vascular endothelial growth factor, vascular endothelial growth factor receptor-1 and -2, and WT-1, which are vital for kidney development. HIF-beta subunits are stable regardless of oxygen concentration and constitutively translocate to the nucleus. It was shown previously that HIF-1beta protein expression is nearly ubiquitous in newborn kidney and that HIF-1beta dimerizes with either HIF-1alpha or -2alpha. Here it is shown that aryl hydrocarbon receptor nuclear transporter-2 (ARNT2/HIF-2beta) also heterodimerized with HIF-1alpha and -2alpha. ARNT2/HIF-2beta protein was highly expressed in newborn kidney but decreased significantly with age, whereas HIF-1beta levels remained relatively constant. By immunohistochemical analysis, widespread expression of HIF-1beta was observed in developing and mature kidneys. ARNT2/HIF-2beta protein distribution was restricted to distal segments of developing nephrons and in mature kidney was confined specifically to thick ascending limb of Henle's loop. The data presented here suggest that ARNT2/HIF-2beta is required at high levels during nephrogenesis in distal tubules and later exclusively in thick ascending limb. Furthermore, Hypoxyprobe-1 and lotus lectin co-localization studies showed that developing proximal convoluted tubules were the most severely hypoxic nephron segment in immature kidney. Because HIF-2beta protein was not abundantly expressed in this segment, it may not be engaged in mediating responses to severe hypoxia. The differential distribution patterns for HIF-1beta and -2beta suggest divergent roles during kidney development for these highly related bHLH-PAS proteins.

Freeburg PB ，Abrahamson DR 《JOURNAL OF THE AMERICAN SOCIETY OF NEPHROLOGY》

Subcellular localization and regulation of hypoxia-inducible factor-2alpha in vascular endothelial cells.

The hypoxia-inducible factors 1alpha (HIF-1alpha) and 2alpha (HIF-2alpha) have extensive structural homology and have been identified as transcription factors that mediate hypoxia-inducible gene expression through hypoxia-responsive element (HRE). They play critical roles not only in normal development, but also in tumor progression. Endothelial cells (EC) express both HIF-1alpha and -2alpha. In this study, we examined the subcellular localization of HIF-1alpha and -2alpha in bovine arterial EC (BAEC) by immunoblotting and immunocytostaining analysis and found that even under normoxic conditions, as with its heterodimeric partner ARNT, HIF-2alpha was stable, and was localized in the nucleus of BAEC differently than HIF-1alpha. HIF-2alpha might be regulated by a different mechanism than HIF-1alpha and might mediate the expression of some EC-specific genes under normoxic conditions. We further found that cardiovascular helix-loop-helix factor (CHF) 2, which had been identified as an ARNT-interacting protein, was expressed in BAEC and suppressed HRE-dependent gene expression both under normoxia and hypoxia. CHF2 might be one of the key regulators of HIF-2alpha-mediated gene expression in normoxic EC.

Takahashi R ，Kobayashi C ，Kondo Y ，Nakatani Y ，Kudo I ，Kunimoto M ，Imura N ，Hara S ... -  《BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS》

Absolute requirement of aryl hydrocarbon receptor nuclear translocator protein for gene activation by hypoxia.

Hypoxia-inducible factor 1 (HIF-1) is a DNA-binding heterodimeric protein complex originally described in the transcriptional activation of the erythropoietin gene by hypoxia. This protein complex is composed of two subunits, HIF-1alpha and -1beta (aryl hydrocarbon receptor nuclear translocator, ARNT). In this study, we used ARNT-deficient cells, derived from the mouse hepatoma cell line Hepa1c1c7, to further characterize HIF-1 complex formation and its relationship with gene activation by hypoxia and desferrioxamine (Df). Gel shift assays revealed that ARNT is absolutely required for the formation of the HIF-1 DNA-binding complex. Results from RNase protection assays and Northern blots showed that the lack of functional HIF-1 complex completely abrogated the response to hypoxia of vascular endothelial growth factor (VEGF) and the glycolytic enzymes aldolase A (ALDA) and phosphoglycerate kinase 1 (PGK-1), genes known to be upregulated by low oxygen tension. Desferrioxamine induction of VEGF and PGK-1 genes was reduced in the ARNT-deficient cells, but at difference with hypoxia, it was not completely suppressed. These results suggest that Df is able to activate gene transcription through HIF-1-independent mechanisms. Exposure to hypoxia or Df did not induce any changes in HIF-1alpha and -1beta mRNA levels, suggesting that posttranscriptional mechanisms are involved in HIF-1 complex activation.

Salceda S ，Beck I ，Caro J 《ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS》

Abnormal angiogenesis and responses to glucose and oxygen deprivation in mice lacking the protein ARNT.

The arylhydrocarbon-receptor nuclear translocator (ARNT) is a member of the basic-helix-loop-helix-PAS family of heterodimeric transcription factors which includes the arylhydrocarbon receptor (AHR), hypoxia-inducible factor-1alpha (HIF-1alpha) and the Drosophila single-minded protein (Sim). ARNT forms heterodimeric complexes with the arylhydrocarbon receptor, HIF-1alpha, Sim and the PAS protein Per. In response to environmental pollutants, AHR-ARNT heterodimers regulate genes involved in the metabolism of xenobiotics, whereas ARNT-HIF-1alpha heterodimers probably regulate those involved in the response to oxygen deprivation. By generating a targeted disruption of the Arnt locus in the mouse, we show here that Arnt-/- embryonic stem cells fail to activate genes that normally respond to low oxygen tension. Arnt-/- ES cells also failed to respond to a decrease in glucose concentration, indicating that ARNT is crucial in the response to hypoxia and to hypoglycaemia. Arnt-/- embryos were not viable past embryonic day 10.5 and showed defective angiogenesis of the yolk sac and branchial arches, stunted development and embryo wasting. The defect in blood vessel formation in Arnt-/- yolk sacs is similar to the angiogenic abnormalities reported for mice deficient in vascular endothelial growth factor or tissue factor. On the basis of these findings, we propose a model in which increasing tissue mass during organogenesis leads to the formation of hypoxic/nutrient-deprived cells, the subsequent activation of ARNT, and a concomitant increase in the expression of genes (including that encoding vascular endothelial growth factor) that promote vascularization of the developing yolk sac and solid tissues.

Maltepe E ，Schmidt JV ，Baunoch D ，Bradfield CA ，Simon MC ... -  《NATURE》

Oxygen-regulated expression of the RNA-binding proteins RBM3 and CIRP by a HIF-1-independent mechanism.

The transcriptional regulation of several dozen genes in response to low oxygen tension is mediated by hypoxia-inducible factor 1 (HIF-1), a heterodimeric protein composed of two subunits, HIF-1alpha and HIF-1beta. In the HIF-1alpha-deficient human leukemic cell line, Z-33, exposed to mild (8% O(2)) or severe (1% O(2)) hypoxia, we found significant upregulation of two related heterogenous nuclear ribonucleoproteins, RNA-binding motif protein 3 (RBM3) and cold inducible RNA-binding protein (CIRP), which are highly conserved cold stress proteins with RNA-binding properties. Hypoxia also induced upregulation of RBM3 and CIRP in the murine HIF-1beta-deficient cell line, Hepa-1 c4. In various HIF-1 competent cells, RBM3 and CIRP were induced by moderate hypothermia (32 degrees C) but hypothermia was ineffective in increasing HIF-1alpha or vascular endothelial growth factor (VEGF), a known HIF-1 target. In contrast, iron chelators induced VEGF but not RBM3 or CIRP. The RBM3 and CIRP mRNA increase after hypoxia was inhibited by actinomycin-D, and in vitro nuclear run-on assays demonstrated specific increases in RBM3 and CIRP mRNA after hypoxia, which suggests that regulation takes place at the level of gene transcription. Hypoxia-induced RBM3 or CIRP transcription was inhibited by the respiratory chain inhibitors NaN(3) and cyanide in a dose-dependent fashion. However, cells depleted of mitochondria were still able to upregulate RBM3 and CIRP in response to hypoxia. Thus, RBM3 and CIRP are adaptatively expressed in response to hypoxia by a mechanism that involves neither HIF-1 nor mitochondria.

Wellmann S ，Bührer C ，Moderegger E ，Zelmer A ，Kirschner R ，Koehne P ，Fujita J ，Seeger K ... -  《JOURNAL OF CELL SCIENCE》