Purines are critical for energy metabolism, cell signalling and cell reproduction. Nevertheless, little is known about the regulation of this essential biochemical pathway during mammalian development. In humans, the second, third and fifth steps of de novo purine biosynthesis are catalyzed by a trifunctional protein with glycinamide ribonucleotide synthetase (GARS), aminoimidazole ribonucleotide synthetase (AIRS) and glycinamide ribonucleotide formyltransferase (GART) enzymatic activities. The gene encoding this trifunctional protein is located on chromosome 21. The enzyme catalyzing the intervening fourth step of de novo purine biosynthesis, phosphoribosylformylglycineamide amidotransferase (FGARAT), is encoded by a separate gene on chromosome 17. To investigate the regulation of these proteins, we have generated monoclonal and/or polyclonal antibodies specific to each of these enzymatic domains. Using these antibodies on western blots of Chinese hamster ovary (CHO) cells transfected with the human GARS-AIRS-GART gene, we show that this gene encodes not only the trifunctional protein of 110 kDa, but also a monofunctional GARS protein of 50 kDa. This carboxy-truncated human GARS protein is produced by alternative splicing resulting in the use of a polyadenylation site in the intron between the terminal GARS and the first AIRS exons. The expression of both the GARS and GARS-AIRS-GART proteins are regulated during development of the human cerebellum, while the expression of FGARAT appears to be constitutive. All three proteins are expressed at high levels during normal prenatal cerebellum development while the GARS and GARS-AIRS-GART proteins become undetectable in this tissue shortly after birth. In contrast, the GARS and GARS-AIRS-GART proteins continue to be expressed during the postnatal development of the cerebellum in individuals with Down syndrome.
Human monocyte-derived plasminogen activator inhibitor (mPAI-2) was purified to homogeneity from the U937 cell line and partially sequenced. Oligonucleotide probes derived from this sequence were used to screen a cDNA library prepared from U937 cells. One positive clone was sequenced and contained most of the coding sequence as well as a long incomplete 3' untranslated region (1112 base pairs). This cDNA sequence was shown to encode mPAI-2 by hybrid-select translation. A cDNA clone encoding the remainder of the mPAI-2 mRNA was obtained by primer extension of U937 poly(A)+ RNA using a probe complementary to the mPAI-2 coding region. The coding sequence for mPAI-2 was placed under the control of the A PL promoter, and the protein expressed in Escherichia coli formed a complex with urokinase that could be detected immunologically. By nucleotide sequence analysis, mPAI-2 cDNA encodes a protein containing 415 amino acids with a predicted unglycosylated Mr of 46,543. The predicted amino acid sequence of mPAI-2 is very similar to placental PAI-2 (3 amino acid differences) and shows extensive homology with members of the serine protease inhibitor (serpin) superfamily. mPAI-2 was found to be more homologous to ovalbumin (37%) than the endothelial plasminogen activator inhibitor, PAI-1 (26%). Like ovalbumin, mPAI-2 appears to have no typical amino-terminal signal sequence. The 3' untranslated region of the mPAI-2 cDNA contains a putative regulatory sequence that has been associated with the inflammatory mediators.
Two Yeast Artificial Chromosomes (YACs) were isolated each with a full‐length copy of the human gene that encodes the trifunctional protein containing phosphoribosylglycinamide synthetase (GARS), phosphoribosylglycinamide formyltransferase (GART) and phosphoribosylaminoimidazole synthetase (AIRS). The YACs were characterized by restriction mapping and by in situ hybridization of cosmid subclones containing the YAC ends to human metaphase chromosomes. One of the YACs contains co‐cloned non‐contiguous DNA whereas the other appears to have a single 600 kbp insert from 21q22.1, the location of the GART gene. A restriction map of the gene was obtained from two cosmid subclones which together span the 40 kb gene. The gene is functional when YAC DNA is transferred into GARS‐ or GARS‐and‐AIRS‐deficient Chinese Hamster Ovary cells. The gene transfer was carried out both by lipofection using purified yeast DNA and by fusion between yeast spheroplasts and the hamster cells. Restriction analysis of DNA from cell lines whose purine auxotrophy was complemented by the YAC showed that with either method a complete and unrearranged copy of the gene can be transferred. The majority of the fusion cell lines appear to contain at least 80% of the YAC.
A monoclonal antibody has been produced that recognizes the cytochrome P450 form, cytochrome P450IA1, but not cytochrome P450IA2 in rats and recognizes a single protein band of similar mol. wt on immunoblots of human liver microsomes. Immunohistochemical studies have been carried out with this antibody to investigate the localization and distribution of cytochrome(s) P450 of the P450IA family in human liver. Cytochrome P450IA was identified in both adult and fetal liver and in each case it was localized predominantly to hepatocytes. In adult liver there was a heterogeneous distribution of cytochrome P450IA immunoreactivity with cytochrome P450IA mainly present in zone 3 hepatocytes of the liver acinus. Within fetal liver there was a uniform distribution of cytochrome P450IA immunoreactivity with no apparent zonal distribution. Bile duct epithelium did not show definite immunostaining for cytochrome P450IA in either adult or fetal liver.
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