Analysis of the murine phosphoinositide 3-kinase gamma gene.

Phosphoinositide 3-kinase gamma is preferentially expressed in leukocytes. PI3Kgamma is activated by betagamma subunits of heterotrimeric G-proteins, which thus link seven transmembrane helix receptor activation to phosphatidylinositol (3,4,5)-trisphosphate production. Here we describe the molecular cloning of the murine PI3Kgamma cDNA, the PI3Kgamma gene structure, its chromosomal assignment and the analysis of promoter activity. The mouse cDNA shares 86% identity to its pig and human orthologues at the nucleotide level. The MmPI3Kgamma gene spans approximately 30kb and comprises 11 exons. RACE-PCR indicated the presence of multiple start sites generating 5' UTRs with different lengths, the longest being 874bp. The putative promoter region contains no TATA box but several putative binding sites for hematopoietic specific transcription factors. A 1200bp long sequence upstream the first transcription start site was found to possess tissue specific promoter activity. Deletion constructs revealed two contiguous regions, with activator function, ranging from positions -139 to -557, and with inhibitory function, ranging from positions -557 to -892. FISH analysis revealed that the MmPI3Kgamma is located on chromosome 12 band B and that the human orthologue is positioned on chromosome 7q22.2-22.3. In spite of some differences in the ATP-binding site, recombinant murine PI3Kgamma protein is equally sensitive to wortmannin as its human counterpart. This suggests that mouse models will provide reliable results in the assessments of novel PI3Kgamma inhibitors.

Defective recovery and severe renal damage after acute hemolysis in hemopexin-deficient mice.

Hemopexin (Hx) is a plasma glycoprotein mainly expressed in liver and, less abundantly, in the central and peripheral nervous systems. Hx has a high binding affinity with heme and is considered to be a major transport vehicle of heme into the liver, thus preventing both heme-catalyzed oxidative damage and heme-bound iron loss. To determine the physiologic relevance of heme-Hx complex formation, Hx-deficient mice were generated by homologous recombination in embryonic stem (ES) cells. The Hx-deficient mice were viable and fertile. Their plasma iron level and blood parameters were comparable to those of control mice and they showed no evidence of tissue lesions caused by oxidative damage or abnormal iron deposits. Moreover, they were sensitive to acute hemolysis, as are wild-type mice. Nevertheless, Hx-null mice recovered more slowly after hemolysis and were seen to have more severe renal damage than controls. After hemolytic stimulus, Hx-deficient mice presented prolonged hemoglobinuria with a higher kidney iron load and higher lipid peroxidation than control mice. Moreover, Hx-null mice showed altered posthemolysis haptoglobin (Hp) turnover in as much as Hp persisted in the circulation after hemolytic stimulus. These data indicate that, although Hx is not crucial either for iron metabolism or as a protection against oxidative stress under physiologic conditions, it does play an important protective role after hemolytic processes.

Multiple transcription start sites of the carrot dihydrofolate reductase-thymidylate synthase gene, and sub-cellular localization of the bifunctional protein.

The analysis of clones obtained by rapid amplification of the 5' end and by primer extension of the mRNA for carrot bifunctional dihydrofolate reductase-thymidylate synthase showed transcripts of differing lengths that belonged to two sub-populations. The longer transcripts were found to contain a translation start site 147 nt upstream of, and in frame with, the one which is present in the shorter transcripts. The ORF that begins at this ATG codes for a protein of 64714 Da, which is much larger than mature DHFR-TS subunit. The N-terminus region of this polypeptide shows features typical of plant transit peptides. Immunogold labelling studies and immunorecognition of the plastid-containing sub-cellular fraction suggested a plastidial localisation of the bifunctional protein. Although plant cells were shown to contain folate pools in plastids, in mitochondria and in the cytosol, few enzymes of the folate pathway have been associated with any sub-cellular compartment. Thus, this is the first indication for the presence of an enzyme of the folate biosynthetic pathway in plastids. The longer transcripts revealed the presence of a TC microsatellite at the 5'-untranslated end.