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:3.4.21.B4 (granzyme K)
43 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cytotoxic lymphocytes contain granules that have the ability to induce apoptosis in susceptible target cells. The granule contents include perforin, a pore-forming molecule, and several granzymes, including A and B, which are the most abundant serine proteases in these granules. Granzyme B-deficient cytotoxic T lymphocytes (CTL) have a severe defect in their ability to rapidly induce apoptosis in their targets, but have an intact late cytotoxicity pathway that is in part perforin-dependent. In this report, we have created mice that are deficient for granzyme A and characterized their phenotype. These mice have normal growth and development and normal lymphocyte development, activation, and proliferation. Granzyme A-deficient CTL have a small but reproducible defect in their ability to induce 51Cr and 125I-UdR release from susceptible allogeneic target cells. Since other granzyme A-like tryptases could potentially account for the residual cytotoxicity in granzyme A-deficient CTL, we cloned the murine granzyme K gene, which is linked to granzyme A in humans, and proved that it is also tightly linked with murine granzyme A. The murine granzyme K gene (which encodes a tryptase similar to granzyme A) is expressed at much lower levels than granzyme A in CTL and LAK cells, but its expression is unaltered in granzyme A-/- mice. The minimal cytotoxic defect in granzyme A-/- CTL could be due to the existence of an intact, functional early killing pathway (granzyme B dependent), or to the persistent expression of additional granzyme tryptases like granzyme K.
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PMID:Residual cytotoxicity and granzyme K expression in granzyme A-deficient cytotoxic lymphocytes. 924 2

Human granzyme K, a serine protease found in secretory granules of cytotoxic T-lymphocytes, was produced in its catalytically active form by recombinant technology using Bacillus subtilis as host. The enzyme displays 40-45% identity to other members of the human granzyme group, and its closest homologue (75% identity) is the rat tryptase RNK-tryp2. The recombinant protein can be recovered in its mature form from the bacterial culture supernatant and purified by cation exchange chromatography. Initial characterization reveals a protein of approximately 28 kDa that is specifically labelled by [3H]di-isopropyl fluorophosphate. Measurements of Kcat/K(m) for single-residue thioester substrates show approximately a two-fold preference for a Lys versus Arg residue at Pl. No activity was observed on ester substrates with various other residues at the Pl position. Using oligopeptide substrates, the enzyme displays peptidolytic activity C-terminal to both Lys and Arg residues with comparable rates of hydrolysis. Likewise, substrate hydrolysis is blocked most efficiently by inhibitors that contain Lys or Arg at position Pl. The availability of the cloned enzyme will facilitate the analysis of biological roles for this novel granzyme, and differentiate its activity from that of other granzymes.
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PMID:Heterologous expression of human granzyme K in Bacillus subtilis and characterization of its hydrolytic activity in vitro. 956 6

Thirty-six new amino acid and peptidyl diphenyl phosphonate esters were synthesized and evaluated to identify potent and selective inhibitors for four trypsin-like proteases: lymphocyte granzymes A and K, human mast cell tryptase, and pancreatic trypsin. Among five Cbz derivatives of Lys and Arg homologues, Z-(4-AmPhe)P(OPh)2 is the most potent inhibitor for granzyme A, and Z-LysP(OPh)2 is the best inhibitor for granzyme K, mast tryptase, and trypsin. The amidino P1 residue D,L-(4-AmPhGly)P(OPh)2 was utilized in a series of compounds with several different N-protecting groups and systematic substitutions at P2 in Cbz-AA derivatives and at P3 in Cbz-AA-Ala derivatives. Generally, these phosphonates inhibit granzyme A and trypsin more potently than granzyme K and tryptase. The P2 Thr and Ala dipeptide phosphonates, Cbz-AA-(4-AmPhGly)P(OPh)2, are the most potent inhibitors for granzyme A, and Cbz-Thr-(4-AmPhGly)P(OPh)2 (kobs/[I] = 2220 M-1 s-1) was quite specific with much lower inhibition rates for granzyme K and trypsin (kobs/[I] = 3 and 97 M-1 s-1, respectively) and no inhibition with tryptase. The most effective inhibitor of granzyme A was Ph-SO2-Gly-Pro-(4-AmPhGly)P(OPh)2 with a second-order rate constant of 3650 M-1 s-1. The most potent inhibitor for granzyme K was 3, 3-diphenylpropanoyl-Pro-(4-AmPhGly)P(OPh)2 with a kobs/[I] = 1830 M-1 s-1; all other phosphonates inhibited granzyme K weakly (kobs/[I] < 60 M-1 s-1). Human mast cell tryptase was inhibited slowly by these phosphonates with Cbz-LysP(OPh)2 as the best inhibitor (kobs/[I] = 89 M-1 s-1). The overall results suggest that scaffolds of Phe-Thr-(4-AmPhe) and Phe-Pro-Lys will be useful to create selective phosphonate inhibitors for granzymes A and K, respectively, and that P4 substituents offer opportunities to further enhance selectivity and reactivity.
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PMID:Synthesis and evaluation of diphenyl phosphonate esters as inhibitors of the trypsin-like granzymes A and K and mast cell tryptase. 963 62

Granzymes are granule-stored lymphocyte serine proteases that are implicated in T- and natural killer cell-mediated cytotoxic defense reactions after target cell recognition. A fifth human granzyme (granzyme 3, lymphocyte tryptase-2), renamed as granzyme K (gene name GZMK), has recently been cloned from lymphocyte tissue. For its further characterization we successfully generated catalytically active enzyme in milligram quantities per liter of Escherichia coli culture. The natural proform of granzyme K with the amino-terminal propeptide Met-Glu was expressed as inclusion bodies and converted to its active enzyme by cathepsin C after refolding of precursor molecules. Recombinant granzyme K cleaves synthetic thiobenzyl ester substrates after Lys and Arg with k(cat)/K(m) values of 3.7 x 10(4) and 4.4 x 10(4) M(-1) s(-1), respectively. Granzyme K activity was shown to be inhibited by the synthetic compounds Phe-Pro-Arg-chloromethyl ketone, phenylmethylsulfonyl fluoride, PefablocSC, and benzamidine, by the Kunitz-type inhibitor aprotinin and by human blood plasma. The plasma-derived inter-alpha-trypsin inhibitor complex, its bikunin subunit, and the second carboxyl-terminal Kunitz-type domain of bikunin were identified as genuine physiologic inhibitors with K(i) values of 64, 50, and 22 nM, respectively. Inter-alpha-trypsin inhibitor and free bikunin have the potential to neutralize extracellular granzyme K activity after T cell degranulation and may thus control unspecific damage of bystander cells at sites of inflammatory reactions.
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PMID:Generation of catalytically active granzyme K from Escherichia coli inclusion bodies and identification of efficient granzyme K inhibitors in human plasma. 1048 Sep 54

Tryptase-like activities of T and NK cells contribute to the induction of target cell apoptosis, but only granzyme A (GzmA) has been shown to exhibit Z-Lys-SBzl esterase activity in murine T cells. GzmA-deficient mice exhibit residual Z-Lys-SBzl hydrolyzing activity and almost normal levels of lymphocyte-mediated cytotoxicity. Here we report the cloning and biochemical characterization of recombinant mouse granzyme K (GzmK). The purified murine protein shows Z-Lys-SBzl hydrolyzing activity and is inhibited by bikunin, the light chain of inter-alpha-trypsin inhibitor, like the human homolog. We conclude that GzmK expressed by GzmA-deficient T cells accounts for the remaining Z-Lys-SBzl activity. Functional similarities between GzmA and GzmK may explain the subtle immunological deficits observed in GzmA-deficient mice.
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PMID:Biological activities of granzyme K are conserved in the mouse and account for residual Z-Lys-SBzl activity in granzyme A-deficient mice. 1050 33

Granzyme K (Gzm K) and granzyme A (GzmA) are the only two tryptases among all the granzymes. Tryptase activity is necessary for cytotoxic T lymphocyte (CTL)/nature killer (NK) cells-mediated cytolysis. Granzyme K might be a potent granzyme to rescue the activity of granzyme A. Granzyme K expresses at high levels in CD56(high) NK cells, memory CD8+ T cells and CD56+ T cells. We recently demonstrated human granzyme K induces rapid cell death with rapid externalization of phosphatidylserine, nuclear morphological changes and single-stranded DNA nicks. Moreover, Granzyme K can induce rapid reactive oxygen species (ROS) generation and collapse of mitochondrial inner membrane potential. Blockade of reactive oxygen species accumulation suppresses granzyme K-induced cell death. However, it is unknown about how reactive oxygen species generate in Granzyme K-mediated apoptosis. Here we found the redox factor-1/apurinic apyrimidinic endonuclease Ape1 can antagonize reactive oxygen species generation. Overexpression of Ape1 inhibits, whereas silencing Ape1 expression potentiates reactive oxygen species accumulation under treatment with oxidative reagents or loading with granzyme K. Ape1 is a physiological substrate of granzyme K. Ape1 cleavage by granzyme K facilitates intracellular reactive oxygen species accumulation and enhances granzyme K-induced cell death.
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PMID:Granzyme K degrades the redox/DNA repair enzyme Ape1 to trigger oxidative stress of target cells leading to cytotoxicity. 1817 23

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