The hypoxia-inducible factor 1 transcriptional activator complex (HIF-1) is involved in the activation of the erythropoietin and several other hypoxia-responsive genes. The HIF-1 complex is composed of two protein subunits: HIF-1/ARNT (aryl hydrocarbon receptor nuclear translocator), which is constitutively expressed, and HIF-1␣, which is not present in normal cells but induced under hypoxic conditions. The HIF-1␣ subunit is continuously synthesized and degraded under normoxic conditions, while it accumulates rapidly following exposure to low oxygen tensions. The involvement of the ubiquitin-proteasome system in the proteolytic destruction of HIF-1 in normoxia was studied by the use of specific inhibitors of the proteasome system. Lactacystin and MG-132 were found to protect the degradation of the HIF-1 complex in cells transferred from hypoxia to normoxia. The same inhibitors were able to induce HIF-1 complex formation when added to normoxic cells.
We analyzed 21 paragroup Q* Y chromosomes from South American aboriginal and urban populations. Our aims were to evaluate the phylogenetic status, geographic distribution, and genetic diversity in these groups of chromosomes and compare the degree of genetic variation in relation to Q1a3a haplotypes. All Q* chromosomes from our series and five samples from North American Q* presented the derivate state for M346, that is present upstream to M3, and determined Q1a3* paragroup. We found a restrictive geographic distribution and low frequency of Q1a3* in South America. We assumed that this low frequency could be reflecting extreme drift effects. However, several estimates of gene diversity do not support the existence of a severe bottleneck. The mean haplotype diversity expected was similar to that for South American Q1a3* and Q1a3a (0.478 and 0.501, respectively). The analysis of previous reports from other research groups and this study shows the highest frequencies of Q* for the West Corner and the Grand Chaco regions of South America. At present, there is no information on whether the phylogenetic status of Q* paragoup described in previous reports is similar to that of Q1a3* paragroup though our results support this possibility.
The cellular origins of erythropoietin were investigated in the rat using a probe derived from a cloned rat erythropoietin cDNA. In anaemic-hypoxic rat liver, in situ hybridization detected erythropoietin mRNA primarily in hepatocytes and less frequently in nonparenchymal sinusoidal or perisinusoidal liver cells. An RNase protection assay was used to compare the erythropoietin mRNA contents of separated rat liver cell fractions and also suggested that hepatocytes are the major source of extrarenal erythropoietin with nonparenchymal liver cells contributing less than 1% to total hepatic erythropoietin production. In kidney, in situ hybridization localized erythropoietin mRNA in nonepithelial cells, as yet of undefined lineage, in the cortical and outer medullary interstitium. These results indicate that, in the rat, the primary sources of erythropoietin in liver and kidney are different types of cells.
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