Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.6.1.44 (AGT)
770 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have synthesized and sequenced alanine:glyoxylate aminotransferase (AGT; HGMW-approved symbol for the gene--AGXT) cDNA from the liver of a primary hyperoxaluria type 1 (PH1) patient who had normal levels of hepatic peroxisomal immunoreactive AGT protein, but no AGT catalytic activity. This revealed the presence of a single point mutation (G----A at cDNA nucleotide 367), which is predicted to cause a glycine-to-glutamate substitution at residue 82 of the AGT protein. This mutation is located in exon 2 of the AGT gene and leads to the loss of an AvaI restriction site. Exon 2-specific PCR followed by AvaI digestion showed that this patient was homozygous for this mutation. In addition, three other PH1 patients, one related to and two unrelated to, but with enzymological phenotype similar to that of the first patient, were also shown to be homozygous for the mutation. However, one other phenotypically similar PH1 patient was shown to lack this mutation. The mechanism by which the glycine-to-glutamate substitution at residue 82 causes loss of catalytic activity remains to be resolved. However, the protein sequence in this region is highly conserved between different mammals, and the substitution at residue 82 is predicted to cause significant local structural alterations.
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PMID:A glycine-to-glutamate substitution abolishes alanine:glyoxylate aminotransferase catalytic activity in a subset of patients with primary hyperoxaluria type 1. 134 75

We examine the suitability of a rapid and sensitive liquid chromatographic technique to determine L-alanine:glyoxylate aminotransferase (AGT) activity in human liver. Homogenised tissue was incubated for 30 min in the presence of substrates and the generated pyruvate was converted into the corresponding phenylhydrazone which was determined using reversed-phase high-performance liquid chromatography (HPLC). The procedure allowed the detection of the enzyme activity expressed by 10 micrograms of liver protein and was rapid enough resulting more sensitive and less time-consuming than the previous colorimetric one. We found that AGT activity in two hyperoxaluria type 1 patients was reduced as compared with controls. Also, cirrhotic patients had very low enzyme activities, even in the absence of detectable disorders of oxalate metabolism and this was ascribed to abnormal liver morphology. This may represent a misleading drawback if diagnosis of type 1 primary hyperoxaluria (PH1) uniquely relies on AGT assay.
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PMID:High-performance liquid chromatographic microassay for L-alanine:glyoxylate aminotransferase activity in human liver. 149 37

In approximately one-third of primary hyperoxaluria type 1 patients, disease is associated with a unique protein sorting defect in which hepatic L-alanine:glyoxylate aminotransferase (AGT; EC 2.6.1.44), which is normally peroxisomal, is mistargeted to mitochondria. In all such patients analyzed to date, the gene encoding the aberrantly targeted AGT carries three point mutations, each of which specifies an amino acid substitution. In this paper we show that one of these substitutions, a proline-to-leucine at residue 11, is necessary and sufficient for the generation of a mitochondrial targeting sequence in the AGT protein. AGT with this substitution appears to interact specifically with the mitochondrial protein import machinery, via a discrete N-terminal domain of the AGT protein. The N-terminal 19 amino acids of AGT with this substitution are sufficient to direct mouse cytosolic dihydrofolate reductase to mitochondria, and a synthetic peptide corresponding to this same 19-amino acid region reversibly inhibits mitochondrial protein import, not only of AGT but also of ornithine transcarbamoylase, a genuine cytoplasmically synthesized mitochondrial protein. We have extended these studies to analyze a region of normal human AGT cDNA directly upstream of the coding region. This sequence appears to correspond to an ancestral mitochondrial targeting sequence deleted from the human coding region by point mutation at the initiation codon. We show that reestablishment of this initiation codon produces an active mitochondrial targeting sequence that is different to that found in the hyperoxaluria patients. These results are discussed with reference to the AGT targeting defect in primary hyperoxaluria and also in relation to the highly unusual species specificity of subcellular distribution of AGT among mammals.
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PMID:Mistargeting of peroxisomal L-alanine:glyoxylate aminotransferase to mitochondria in primary hyperoxaluria patients depends upon activation of a cryptic mitochondrial targeting sequence by a point mutation. 196 59

We have previously reported the isolation of a genomic clone encoding human liver-specific peroxisomal alanine:glyoxylate aminotransferase (AGT, EC 2.6.1.44), the deficient enzyme in primary hyperoxaluria type 1 (PH1) (P. E. Purdue, Y. Takada, and C. J. Danpure, J. Cell Biol. 111: 2341-2351, 1990). This clone has now been characterized, revealing that the coding sequence is distributed among 11 exons covering 10 kb. The nucleotide sequences of each exon have been determined, confirming that this clone corresponds to previously characterized AGT cDNA (Y. Takada, N. Kaneko, H. Esumi, P. E. Purdue, and C. J. Danpure, Biochem. J. 268: 517-520, 1990). In addition, to provide sequence data for the design of exon-specific PCR primers, the intron sequences immediately flanking each exon have been determined. Furthermore, in an attempt to identify putative transcriptional control sequences we have determined the sequence of 1.25 kb directly upstream of the cDNA 5' end. The results of genomic Southern blotting indicate that human AGT is probably encoded by a single copy gene, and a combination of in situ hybridization and PCR analysis of rodent/human somatic cell hybrids suggests that this gene is located on chromosome 2q36-q37. The gene symbol AGXT has been assigned for this locus.
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PMID:Characterization and chromosomal mapping of a genomic clone encoding human alanine:glyoxylate aminotransferase. 204 8

Primary hyperoxaluria type 1 (PH1) is caused by a deficiency of the hepatic peroxisomal enzyme alanine: glyoxylate aminotransferase (AGT, EC 2.6.1.44) (Danpure and Jennings, FEBS Lett., 201, 20-24, 1986). The activity of AGT has been measured in fetal livers of gestational age 14-21 weeks. Activity increases up to 17 weeks and then levels off between 17 and 21 weeks. At this time, the mean AGT activity is about 30 per cent of the mean normal postnatal level. As in adult liver, the AGT enzyme activity and the AGT immunoreactive protein are peroxisomal. Prenatal diagnosis has been performed by measuring AGT enzyme activity and immunoreactive AGT protein on liver biopsies from two fetuses at risk for primary hyperoxaluria type 1. One was unaffected and one was affected.
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PMID:Fetal liver alanine: glyoxylate aminotransferase and the prenatal diagnosis of primary hyperoxaluria type 1. 271 33

A deficiency of activity of the peroxisomal enzyme alanine:glyoxylate aminotransferase (AGT,EC 2.6.1.44)has been found in the livers of six patients with primary hyperoxaluria type 1 (PH), including three in whom the tissue was obtained by percutaneous needle biopsy. AGT activity, assayed in unfractionated liver tissue, ranged from 11 to 47% of the mean control value, and appeared to be related to the clinical severity of PH and to several biochemical variables which indicate the degree of pathophysiological derangement. There was no difference between patients and controls in the activities of glutamate: glyoxylate aminotransferase (GGT, EC 2.6.1.4) or catalase (EC 1.11.1.6). In the five most severe cases residual AGT activity could be largely accounted for by the crossover from another enzyme, presumably GGT. PH can be diagnosed using percutaneous hepatic needle biopsy and assay of AGT, whose activity may be useful in determining the prognosis and likely severity of the disease.
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PMID:Enzymological diagnosis of primary hyperoxaluria type 1 by measurement of hepatic alanine: glyoxylate aminotransferase activity. 288 Jan 11

A patient with primary hyperoxaluria type 1 (hepatic peroxisomal alanine:glyoxylate aminotransferase [EC 2.6.1.44] deficiency) was successfully treated by combined hepatic and renal transplantation. The metabolic lesion was corrected by replacement of the deficient hepatic enzyme activity.
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PMID:Successful treatment of primary hyperoxaluria type I by combined hepatic and renal transplantation. 288 76

1. The activity of alanine:glyoxylate aminotransferase (AGT; EC 2.6.1.44) has been measured in the unfractionated livers of 20 patients with primary hyperoxaluria type 1 (PH1), three patients with other forms of primary hyperoxaluria and one PH1 heterozygote. The subcellular distribution of AGT activity was examined in four of the PH1 livers and in the liver of the PH1 heterozygote. 2. The mean AGT activity in the unfractionated PH1 livers was 12.6% of the mean control value. The activities of other aminotransferases and the peroxisomal marker enzymes were normal. When corrected for cross-over from glutamate:glyoxylate aminotransferase (GGT; EC 2.6.1.4), the mean AGT activity in the PH1 livers was reduced to 3.3% of the control values. 3. The livers from a patient with primary hyperoxaluria type 2 (D-glycerate dehydrogenase deficiency) and one with an undefined form of primary hyperoxaluria (possibly oxalate hyperabsorption) had normal AGT levels. The livers of a very mild PH1-type variant and a PH1 heterozygote had intermediate levels of AGT activity. 4. Subcellular fractionation of four PH1 livers by sucrose gradient isopycnic centrifugation demonstrated a complete absence of peroxisomal AGT activity. The subcellular distribution of the residual AGT activity was very similar to that of GGT activity (i.e. mainly cytosolic with a small amount mitochondrial). There were no alterations in the subcellular distributions of any of the peroxisomal marker enzymes. The subcellular distribution of AGT activity in the PH1 heterozygote liver was similar to that of the control (i.e. mainly peroxisomal).
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PMID:Further studies on the activity and subcellular distribution of alanine:glyoxylate aminotransferase in the livers of patients with primary hyperoxaluria type 1. 341 63

Primary hyperoxaluria type 1 (PH1) is an inherited disorder of glyoxylate metabolism caused by a deficiency of the hepatic peroxisomal enzyme alanine: glyoxylate aminotransferase (AGT; EC 2.6.1.44) [FEBS Lett (1986) 201:20]. The aim of the present study was to investigate the intracellular distribution of immunoreactive AGT protein, using protein A-gold immunocytochemistry, in normal human liver and in livers of PH1 patients with (CRM+) or without (CRM-) immunologically crossreacting enzyme protein. In all CRM+ individuals, which included three controls, a PH1 heterozygote and a PH1 homozygote immunoreactive AGT protein was confined to peroxisomes, where it was randomly dispersed throughout the peroxisomal matrix with no obvious association with the peroxisomal membrane. No AGT protein could be detected in the peroxisomes or other cytoplasmic compartments in the livers of CRM- PH1 patients (homozygotes). The peroxisomal labeling density in the CRM+ PH1 patient, who was completely deficient in AGT enzyme activity, was similar to that of the controls. In addition, in the PH1 heterozygote, who had one third normal AGT enzyme activity, peroxisomal labeling density was reduced to 50% of normal.
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PMID:Immunocytochemical localization of human hepatic alanine: glyoxylate aminotransferase in control subjects and patients with primary hyperoxaluria type 1. 341 7

A micro radiochemical method has been developed for the assay of the human liver peroxisomal enzyme alanine: glyoxylate aminotransferase (EC 2.6.1.44). The method, based on the electrophoretic separation of [14C]alanine (substrate) from [14C]pyruvate (product) is at least fifty times more sensitive than the currently-used spectrophotometric double enzyme method (Rowsell et al, Int J Biochem 1972;3: 247-257), enabling the enzymatic diagnosis of primary hyperoxaluria type 1 to be carried out on only 100 micrograms of human liver tissue obtained by percutaneous needle biopsy. The increased sensitivity of the new method allows the assay conditions to be such that they are on the linear parts of the time-course and protein concentration curves. This results in the activities of alanine: glyoxylate aminotransferase in human liver samples being 20-50% higher than those determined by the spectrophotometric method.
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PMID:A new micro-assay for human liver alanine: glyoxylate aminotransferase. 343 53


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