EC:3.4.24.11 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hydrophilic GH-binding protein of serum is a derivative of the GH receptor. Little is known how this GH binding protein is released from the receptor which is firmly anchored in the plasma membrane. The IM-9 lymphocytes provide a useful laboratory model for studying this process because they are richly endowed with GH receptors and, under special conditions, are able to shed these receptors during incubation. Incubation of IM-9 cells for 90 min at 30 C did not result in the appearance of significant [125I]hGH binding in conditioned medium as determined with an ultrogel AcA 44 minicolumn. When iodoacetamide, 20 mM, or N-ethylmaleimide, 5 mM, was added during incubation, the conditioned medium bound 20-35% of [125I]human(h)GH. p-Chloromercuriphenyl sulfonic acid was less effective in promoting shedding of GH-binding protein. In contrast, aprotinin, phenylmethylsulfonylfluoride (PMSF), bacitracin, leupeptin, pepstatin, phosphoramidon, or chloroquine did not promote release of GH binding protein and did not affect iodoacetamide-induced release. Release was not inhibited by the addition of serum lacking GH binding protein. GH binding protein release was markedly temperature sensitive and practically ceased at 4 C. GH binding protein incubated with [125I] hGH was cross-linked with disuccinimidyl suberate. After sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the presence of dithiothreitol the complex migrated with an estimated molecular weight of 100,000 whereas [125I]hGH cross-linked to the membrane-bound GH receptor of the IM-9 cells migrated with an estimated molecular weight of 135,000. The smaller size of the binding protein is consistent with its derivation from the extracellular domain of the GH receptor. Because the release of this GH binding is greatly augmented by iodoacetamide and N-ethylmaleimide, two known sulfhydryl reactive reagents, we suggest that a free sulfhydryl group, either on the GH receptor or on a neighboring protein normally maintains the integrity of the receptor. The loss of this sulfhydryl group destabilizes the receptor and permits a membrane endopeptidase to release the GH binding protein. Cleavage is not dependent on lysosomal action and is not inhibited by protease inhibitors.
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PMID:Release of growth hormone binding protein from IM-9 lymphocytes by endopeptidase is dependent on sulfhydryl group inactivation. 284 6

gamma-Glutamyl hydrolase is a ubiquitous enzyme that has the capacity to cleave gamma-glutamyl bonds of cellular folyl- and antifolylpoly-gamma-glutamates. This study has revealed that the enzyme is secreted by primary cultures of rat hepatocytes and by H35 hepatoma cells. It was found that more than 99% of the total enzyme from H35 cells accumulated in the medium after 48 hr incubation with the serum-free medium. The cells were shown to remain intact during the secretion period since lactate dehydrogenase, dihydrofolate reductase and lysosomal hydrolases other than gamma-glutamyl hydrolase were retained within the cell. When PteGlu5 (folylGlu4) is used as a substrate the initial product is PteGlu (folate), and there is no appearance of intermediate chain length pteroyl polyglutamates. Therefore, the secreted and cellular gamma-glutamyl hydrolase from hepatoma cells appears to be an endopeptidase. Polyclonal antibodies to the poly-gamma-glutamate substrates of the enzyme were prepared and characterized. The antibodies recognize the structural differences between alpha- and gamma-glutamyl linkages but appear equally active with PteGlu5 and its analogs such as 4-NH2-10-CH3PteGlu5 and pABAGlu5. The affinity of the antibodies is related to the gamma-glutamyl structure since L-glutamic acid, folate or p-aminobenzoic acid are inactive with the antibodies. Furthermore, poly-gamma-glutamate has lower affinity for the antibodies than the poly-gamma-glutamate derivatives of PteGlu, 4-NH2-10-CH3PteGlu or pABA.
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PMID:The properties and function of gamma-glutamyl hydrolase and poly-gamma-glutamate. 768 89

gamma-Glutamyl hydrolase has been partially purified and characterized from conditioned culture medium of H35 hepatoma cells. Evidence for heterogeneity of the enzyme is derived from its elution as three distinct peaks of enzymatic activity when the enzyme is purified by TSK-butyl-Sepharose column chromatography. These three enzyme fractions appear to have identical catalytic properties but, as yet, the basis for their resolution is not understood. A rapid, sensitive and simple assay based on reverse-phase HPLC fluorescent detection with pre-column derivatization using o-phthalaldehyde (OPA) was developed to separate OPA-derivatives of poly-gamma-glutamates and glutamic acid. Using this assay and the standard HPLC assay for pteroylpolyglutamates, the enzyme appears to be an endopeptidase with respect to pteroylpenta-gamma-glutamate (PteGlu5), methotrexate penta-gamma-glutamate (4-NH2-10-CH3PteGlu5) and p-aminobenzoyl-penta-gamma-glutamate (pABAGlu5). The initial products are PteGlu1 (or 4-NH2-10-CH3PteGlu1 or pABAGlu1) and intact tetra-gamma-glutamate, which is subsequently degraded to glutamic acid. When penta-gamma-glutamate is the substrate, the cleavage of the gamma-bonds by the enzyme is less ordered, with the early appearance of mono-, di-, tri- and tetraglutamate. Poly-alpha-glutamate is not a substrate nor are pABA-gamma-Glu5 or penta-gamma-glutamate covalently linked to albumin. 4-NH2-10-CH3PteGlu2 or Glu5 bound to dihydrofolate reductase is not a substrate for the enzyme, offering further evidence that protein-associated poly-gamma-glutamates are poor substrates for gamma-glutamyl hydrolase from H35 hepatoma cells.
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PMID:The properties of the secreted gamma-glutamyl hydrolases from H35 hepatoma cells. 834 22

A cDNA encoding human gamma-glutamyl hydrolase has been identified by searching an expressed sequence tag data base and using rat gamma-glutamyl hydrolase cDNA as the query sequence. The cDNA encodes a 318-amino acid protein of Mr 35,960. The deduced amino acid sequence of human gamma-glutamyl hydrolase shows 67% identity to that of rat gamma-glutamyl hydrolase. In both rat and human the 24 amino acids preceding the N terminus constitute a structural motif that is analogous to a leader or signal sequence. There are four consensus asparagine glycosylation sites in the human sequence, with three of them conserved in the rat enzyme. Expression of both the human and rat cDNA in Escherichia coli produced antigenically related proteins with enzyme activities characteristic of the native human and rat enzymes, respectively, when methotrexate di- or pentaglutamate were used as substrates. With the latter substrate the rat enzyme cleaved the innermost gamma-glutamyl linkage resulting in the sole production of methotrexate as the pteroyl containing product. The human enzyme differed in that it produced methotrexate tetraglutamate initially, followed by the triglutamate, and then the diglutamate and methotrexate. Hence the rat enzyme is an endopeptidase with methotrexate pentaglutamate as substrate, whereas the human enzyme exhibits exopeptidase activity. Another difference is that the expressed rat enzyme is equally active on methotrexate di- and pentaglutamate whereas the human enzyme has severalfold greater activity on methotrexate pentaglutamate compared with the diglutamate. These properties are consistent with the enzymes derived from human and rat sources.
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PMID:Human gamma-glutamyl hydrolase: cloning and characterization of the enzyme expressed in vitro. 881 64

Mouse-liver gamma-glutamyl hydrolase (GH) is a lysosomal endopeptidase with an acid pH optimum that is activated by sulfhydryl compounds and preferentially hydrolyzes the most proximal gamma-glutamyl linkage of longer chain polyglutamates of folates and their analogues. We describe the cloning of this mouse lysosomal cDNA enzyme from liver GH mRNA in the form of two cDNA variants (1.295 and 1.268 kb in length) differing 14-fold (Variant I versus Variant II) in relative frequency that exhibited 5'-end heterogeneity and encoded alternate leader peptides. The 5' UTR in these variants also differs in length by 27 nucleotides. Otherwise, the ORF and 3' UTR in each case are the same. These cDNAs encode a protein in which the deduced amino acid sequence shares 78.9 and 69. 1% identity to rat and human GH sequences, respectively. Amino acid sequence comparisons among the three species identified three conserved Asn sites and two conserved Cys residues that may be sites of glycosylation and sulfhydryl compound activation, respectively. Variant I GH mRNA was more abundant than Variant II GH mRNA in all mouse tissues examined. Variant I GH mRNA levels were extremely high in salivary gland, moderately high in kidney, liver, lung, stomach and uterus, low in small intestine, brain and fetal liver and relatively rare in thymus, spleen and skeletal muscle. Abundance of GH mRNA among tumors varied from low to high, with no discernible correlation with their tissue of origin.
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PMID:Cloning of mouse gamma-glutamyl hydrolase in the form of two cDNA variants with different 5' ends and encoding alternate leader peptide sequences. 975 90

Methotrexate (MTX) is an antifolate that is widely used for the treatment of childhood acute lymphoblastic leukemia (ALL) and a number of other malignant and nonmalignant diseases. Within cells, MTX is metabolized to more active methotrexate polyglutamates (MTXPG), and these polyglutamates are subsequently cleaved in lysosomes by gamma-glutamyl hydrolase (GGH). GGH is reported to act as either an endopeptidase or an exopeptidase, exhibiting species differences in these functions. To better define the in vivo functions of GGH in human leukemia cells, we characterized GGH activity with different MTXPG substrates (MTX with three to five glutamates) in human T- and B-lineage leukemia cell lines, and in primary leukemia cells from newly diagnosed patients with ALL. Parameters estimated from fitting a series of hypothetical mathematical models to the data revealed that the experimental data were best fit by a model where GGH simultaneously cleaved multiple glutamyl residues, with highest activity at cleaving the outermost or two outermost residues from a polyglutamate chain. The model also revealed that GGH has a higher affinity for longer chain polyglutamates. Together, these findings provide new insights to the intracellular disposition of MTX in human ALL cells, and provides a mechanism-based model for characterizing differences among patients and genetic subtypes of ALL.
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PMID:Methotrexate intracellular disposition in acute lymphoblastic leukemia: a mathematical model of gamma-glutamyl hydrolase activity. 1211 48

A cDNA encoding for zebrafish gamma-glutamyl hydrolase (gammaGH) was cloned and inserted into a pET43.1a vector via SmaI and EcoRI sites and expressed in Rosetta (DE3) cells as a Nus-His-tag fusion enzyme (NH-zgammaGH). After induction with isopropyl thiogalactoside, the enzyme was purified with a Ni-Sepharose column, and approximately 8 mg of pure enzyme was obtained per liter of culture. The primary sequence of the recombinant zgammaGH was similar to mammalian gammaGH. Thrombin digestion of this NH-zgammaGH fusion protein resulted in zgammaGH with approximately 2-fold higher catalytic activity compared with the NH-zgammaGH fusion enzyme. This recombinant zgammaGH is active and exhibits comparable endopeptidase activity with folate substrate and antifolate drug methotrexate. Use of this recombinant zgammaGH significantly increased efficiency in folylpolyglutamate hydrolysis for folate analysis compared with current protocols.
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PMID:Recombinant zebrafish {gamma}-glutamyl hydrolase exhibits properties and catalytic activities comparable with those of mammalian enzyme. 1900 29