UNIPROT:P00492 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00492 (hypoxanthine-guanine phosphoribosyltransferase)
2,385 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A gene for tryptophanyl-tRNA synthetase (EC 6.1.1.2), the enzyme which attaches tryptophan to its tRNA, has previously been assigned to human chromosome 14 by analysis of man-mouse somatic cell hybrids. We report here a method for the electrophoretic separation of Chinese hamster and human tryptophanyl-tRNA synthetases and its application to a series of independently derived Chinese hamster-human hybrids in which part of the human chromosome 14 has been translocated to the human X chromosome. When this derivative der (X),t(X;14) (Xqter leads to Xp22::14q21 leads to 14qter) chromosome carrying the human gene for hypoxanthine-guanine phosphoribosyltransferase was selected for and against in cell hybrid lines by the appropriate selective conditions, the human tryptophanyl-tRNA synthetase activity was found to segregate concordantly. These results provide additional confirmation for the assignment of the tryptophanyl-tRNA synthetase gene to human chromosome 14 and define its intrachromosomal location in the region 14q21 leads to 14qter. Our findings indicate that the genes for tryptophanyl-tRNA synthetase and for ribosomal RNA are not closely linked on chromosome 14.
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PMID:Intrachromosomal gene mapping in man: the gene for tryptophyl-tRNA synthetase maps in region q21 leads to qter of chromosome 14. 56 85

This is a report on recent developments in pediatric psychopharmacology: new drugs and new applications for established drugs. The drugs reviewed include imipramine, amitryptiline, lithium, piracetam, propranolol, tryptophan, clonidine, pyridoxine and fenfluramine. Putative indications include prepubertal depression, school phobia, anorexia nervosa, explosive-aggressive behavior, learning disabilities, attention deficit disorder (hyperactivity), Tourette's syndrome, autism, and the Lesch-Nyhan syndrome. Some of the information presented in this report must be regarded as "preliminary," and caution is advised in its interpretation and application.
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PMID:New developments in pediatric psychopharmacology. 635 89

Treatment of cultures of spontaneously immortalized human epidermal cells with 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) sensitized them to carcinogen toxicity. While the tryptophan pyrolysis product 3-amino-1,4-dimethyl-5H-pyrido[4,3-b]indole (Trp-P-1) and the mycotoxin sterigmatocystin were highly toxic to the cultures at moderate concentration (1 microgram/ml), the potency of each agent was increased > or = 10-fold in the presence of TCDD. A toxicity increase was also evident in the several-fold stimulation by TCDD of protein and DNA adducts formed by Trp-P-1. In contrast, the cells were insensitive to toxicity from 3-amino-1-methyl-5H-pyrido[4,3-b]indole. DNA damage mediated by Trp-P-1 was capable of producing inheritable effects, as judged by the induction of hprt mutants in a TCDD-stimulated fashion. Northern blotting showed that TCDD strongly stimulated expression of P4501A1 and 1B1 in the cells, enzymes important for xenobiotic metabolism. These findings demonstrate the potential usefulness of SIK cultures as a model for studying keratinocyte responses to carcinogens activated by TCDD-induced cytochromes P450.
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PMID:2,3,7,8-Tetrachlorodibenzo-p-dioxin sensitization of cultured human epidermal cells to carcinogenic heterocyclic amine toxicity. 755 73

Mutations in mammalian genomes are the result of several mutagenic processes that are intrinsic to cell metabolism. Analysis of the mutation spectrum of a chromosomal gene is a valuable tool for assessing the contribution of these mechanisms to mutagenesis in the cell. We have studied the specificity of mutations induced by various mutagens in a cDNA hprt gene integrated in a chromosome of a mouse cell line. To understand the mechanisms underlying mammalian cell mutagenesis, we compiled a list of more than 250 sequenced hprt mutations that arose spontaneously or were induced by mutagens, and compared it with the published mutation data. There are at least two distinct processes of mutagenesis in eukaryotic cells: one is mispairing, while another is errors in translesion synthesis. The alkylating agent methylnitrosourea causes G:T mispairing; consequently, most mutations it induces are G to A transitions. The second process can occur spontaneously or be caused by exposure to X-rays, Trp-P2, a tryptophan pyrolysate, or acetylaminofluorene. A variety of premutagenic lesions are produced in DNA by these mutagens, but spectra of the mutations resemble each other, especially in the high frequency of deletions at the sites of short direct repeats. The slippage--misalignment mechanism accounted well for the greater part of the observed deletions. A similar spectrum of mutations was observed in the tumor suppressor gene APC from colorectal tumors; about 40% are deletions at the sites of short repeats. These findings led us to propose that slippage--misalignment is an ubiquitous mechanism of mutagenesis and is responsible for a significant proportion of spontaneous mutations in mammalian cells.
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PMID:Slippage--misalignment: to what extent does it contribute to mammalian cell mutagenesis? 783 71

The brains of two patients with Lesch-Nyhan syndrome (LNS) were studied. The concentration of dopamine was decreased in the caudate nucleus of LNS patients. Immunohistochemical methods revealed that the dopamine (DA) D1 and D2 receptor and methionine-enkephalin immunoreactivities (IRs) were increased in the putamen, and less significantly in the caudate nucleus. The D1 and D2 receptor IRs of the cingulate cortex, the tryptophan-hydroxylase IR in the dorsal nucleus of the midbrain, as well as the substance P and methionine-enkephalin IRs of the nociception-conducting structures, including the periaqueductal gray and spinal trigeminal nucleus, were not changed. Tyrosine-hydroxylase IR was not decreased in the substantia nigra of the LNS patients. Therefore, the cause of the decreased dopaminergic activity in LNS may not be involved in the production of tyrosine hydroxylase in the substantia nigra. Developmental abnormalities due to the DA defect at an early age might exist in the postsynaptic structure in the striatum.
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PMID:Dopamine receptor upregulation in Lesch-Nyhan syndrome: a postmortem study. 1040 87

CPSase (carbamoyl-phosphate synthetase II), a component of CAD protein (multienzymic protein with CPSase, aspartate transcarbamylase and dihydro-orotase activities), catalyses the regulated steps in the de novo synthesis of pyrimidines. Unlike the orthologous Escherichia coli enzyme that is regulated by UMP, inosine monophosphate and ornithine, the mammalian CPSase is allosterically inhibited by UTP, and activated by PRPP (5-phosphoribosyl-a-pyrophosphate) and phosphorylation. Four residues (Thr974, Lys993, Lys954 and Thr977) are critical to the E. coli inosine monophosphate/UMP-binding pocket. In the present study, three of the corresponding residues in the hamster CPSase were altered to determine if they affect either PRPP activation or UTP inhibition. Substitution of the hamster residue, positionally equivalent to Thr974 in the E. coli enzyme, with alanine residue led to an enzyme with 5-fold lower activity and a near loss of PRPP activation. Whereas replacement of the tryptophan residue at position 993 had no effect, an Asp992-->Asn substitution yielded a much-activated enzyme that behaved as if PRPP was present. The substitution Lys954-->Glu had no effect on PRPP stimulation. Only modest decreases in UTP inhibitions were observed with each of the altered CPSases. The results also show that while PRPP and UTP can act simultaneously, PRPP activation is dominant. Apparently, UTP and PRPP have distinctly different associations within the mammalian enzyme. The findings of the present study may prove relevant to the neuropathology of Lesch-Nyhan syndrome
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PMID:Substitutions in hamster CAD carbamoyl-phosphate synthetase alter allosteric response to 5-phosphoribosyl-alpha-pyrophosphate (PRPP) and UTP. 1465 76

A metabolomic analysis of plasma amino acids and acylcarnitines was applied to four disorders of nucleotide metabolism. Multivariate analysis gave score plots that show segregation of hypoxanthine phosphoribosyltransferase and adenine phosphoribosyltransferase deficient plasma from controls with equivocal results for adenosine deaminase and dihydropyrimidine dehydrogenase deficiencies. Loadings plots revealed the principal metabolites responsible for the discrimination between these classes. There were increases for HPRT in C4-, C6-, and C3-DC (malonyl)-carnitines, and decreased serine. For APRT there were increases in C4- to C10- and C3-DC to C6-DC-carnitines, urea, 1-methylhistidine, 3-methylhistidine, and decreased tryptophan. For ADA deficiency there were increases in C4- and C6-carnitines, taurine, and isoleucine.
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PMID:Application of metabolomic principles to disorders of nucleotide metabolism reveals new metabolic perturbations. 1860 May 20

Although xanthinuria is nonfatal in human, xanthine oxidoreductase knockout (Xor-KO) mice have only a short lifespan. Hypoxanthine phosphoribosyltransferase activity (HPRT) in human and wild mice is higher than in laboratory mice. The aim of this study was to investigate the underlying mechanisms that give rise to the longer lifespan of high-HPRT/Xor-KO mice. Before Xor-KO mice die, urinary excretion of hypoxanthine increased with a corresponding decrease in excretion of xanthine. The switch of excretion from xanthine to hypoxanthine might be a cause of death for Xor-KO mice, suggesting inhibition of NAD⁺-dependent IMP dehydrogenase. Because hypoxanthine inhibits the synthesis of nicotinamide mononucleotide (NMN), a precursor of NAD⁺, the accumulation of hypoxanthine in Xor-KO mice may cause a depletion in the levels of NAD⁺. Moreover, urinary excretion of urate in high-HPRT/Uox-KO/Xor-KO mice means urate derived from gut microbiota is absorbed by the intestine. Likewise, over excretion of oxypurine in mice may be caused by intestinal absorption of oxypurine. For NAD⁺ replenishment, oral supplementation with 1% L-tryptophan, an alternative precursor of NAD⁺, resulted in a recovery of body weight gain in high-HPRT/Uox-KO/Xor-KO mice. In conclusion, the death of Xor-KO mice by renal failure seems to be caused by a depletion in NAD⁺ levels due to the intracellular accumulation of hypoxanthine. NAD⁺ replenishment by oral supplementation of NMN or tryptophan was complicated by the effect of gut microbiota and failed to rescue high-HPRT/Xor-KO mice. The attenuation of intestinal absorption of oxypurines seems to be necessary to avoid hypoxanthine accumulation and over excretion of oxypurine.
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PMID:Xanthine oxidoreductase knockout mice with high HPRT activity were not rescued by NAD⁺ replenishment. 3212 84