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
Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We recently reported the purification of a lymphocyte granule protein called "fragmentin," which was identified as a serine protease with the ability to induce oligonucleosomal DNA fragmentation and apoptosis (Shi, L., R. P. Kraut, R. Aebersold, and A. H. Greenberg. 1992. J. Exp. Med. 175:553). We have now purified two additional proteases with fragmentin activity from lymphocyte granules. The three proteases are of two types; one has the unusual ability to cleave a tripeptide thiobenzyl ester substrate after aspartic acid, similar to murine cytotoxic cell protease I/granzyme B, while two are
tryptase
-like, preferentially hydrolyzing after arginine, and bear some homology to human T cell granule tryptases,
granzyme 3
, and Hanukah factor/granzyme A. Using tripeptide chloromethyl ketones, the pattern of inhibition of DNA fragmentation corresponded to the inhibition of peptide hydrolysis. The Asp-ase fragmentin was blocked by aspartic acid-containing tripeptide chloromethyl ketones, while the
tryptase
fragmentins were inhibited by arginine-containing chloromethyl ketones. The two
tryptase
fragmentins were slow acting and were partly suppressed by blocking proteins synthesis with cycloheximide in the YAC-1 target cell. In contrast, the Asp-ase fragmentin was fast acting and produced DNA damage in the absence of protein synthesis. Using a panel of unrelated target cells of lymphoma, thymoma, and melanoma origin, distinct patterns of sensitivity to the three fragmentins were observed. Thus, these three granule proteases make up a family of fragmentins that activate DNA fragmentation and apoptosis by acting on unique substrates in different target cells.
...
PMID:Purification of three cytotoxic lymphocyte granule serine proteases that induce apoptosis through distinct substrate and target cell interactions. 146 Apr 16
A serine protease gene was cloned from cDNA prepared from tissue isolated from human ascites. The gene codes for a protein of 264 amino acids, identified as human
granzyme 3
by the N-terminal amino acid sequence. Granzyme 3 has the expected features of the chymotrypsin family of serine proteases, and is closely related to other human granzymes (40-45% identity). However, the closest
granzyme 3
homologue is the recently characterized rat
tryptase
, RNK-Tryp-2 (75% identity). From Northern blots,
granzyme 3
appears to be highly expressed in peripheral blood leukocytes, spleen, thymus, and lung tissues.
...
PMID:Cloning of cDNA for human granzyme 3. 775 81
Cytotoxic lymphocytes possess a number of serine proteases (granzymes) usually localized in cytoplasmic granules. To date, the DNA sequences of four human granzymes have been reported. A fifth human granzyme (
granzyme 3
) has been biochemically purified and its N-terminal amino acid sequence has been reported. This enzyme was described as possessing
tryptase
activity, cleaving synthetic substrates after arginine or lysine. We recently cloned a rat granzyme
tryptase
(RNK-Tryp-2), and used this cDNA to screen human cDNA libraries. Isolation of cDNA fragments of a human gene could be overlapped to provide a complete cDNA sequence, which we designated
HNK-Tryp-2
. The N-terminal amino acid sequence deduced from
HNK-Tryp-2
was identical to that reported for
granzyme 3
. This gene appears to be a single copy gene that is expressed in isolated natural killer cells and T cells as well as in tissues containing these cells.
...
PMID:Cloning and expression of a second human natural killer cell granule tryptase, HNK-Tryp-2/granzyme 3. 865 64
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.
...
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
Tryptases are serine proteases involved in mast cell-mediated inflammatory responses which represent potential targets of drugs against diseases such as asthma, arthritis and inflammatory bowel disease. In order to interpret pharmacodynamic data on the
tryptase
inhibitors undergoing clinical trials, we defined the genetic variability of the tryptase 1 (TPS1) and
tryptase 2
(
TPS2
) loci by screening a reference population of 32 individuals representing three major ethnic groups (Caucasian, African American, Asian). Using overlapping PCR products, we resequenced the entire
tryptase
genes with the only exclusion of
TPS2
intron 1 and 20 bp of
TPS2
5' untranslated region included in exon 1 and we identified 21 novel single nucleotide polymorphisms in TPS1 and 17 single nucleotide polymorphisms plus a large polymorphic deletion in the
TPS2
gene. We also compared the type, frequency and distribution of single nucleotide polymorphisms in TPS1 and
TPS2
and we observed that the polymorphism frequency within these two loci is unexpectedly high (approximately 1 SNP every 90 bp) and that some of the allele frequencies differ significantly among the three ethnic groups. Based on differences observed in preclinical studies using a cynomolgus monkey (Macaca fascicularis) asthma model system, we investigated the difference between monkey and human
tryptase
genes in order to better understand the mechanism of action of our
tryptase
inhibitors.
...
PMID:Characterization of two highly polymorphic human tryptase loci and comparison with a newly discovered monkey tryptase ortholog. 1089 8
Granzyme K
(GzmK) belongs to a family of
trypsin
-like serine proteases localized in electron dense cytoplasmic granules of activated natural killer and cytotoxic T-cells. Like the related granzymes A and B, GzmK can trigger DNA fragmentation and is involved in apoptosis. We expressed the Ser(195) --> Ala variant of human pro-GzmK in Escherichia coli, crystallized it, and determined its 2.2-A x-ray crystal structure. Pro-GzmK possesses a surprisingly rigid structure, which is most similar to activated serine proteases, in particular complement factor D, and not their proforms. The N-terminal peptide Met(14)-Ile(17) projects freely into solution and can be readily approached by cathepsin C, the natural convertase of pro-granzymes. The pre-shaped S1 pocket is occupied by the ion paired residues Lys(188B)-Asp(194) and is hence not available for proper substrate binding. The Ser(214)-Cys(220) segment, which normally provides a template for substrate binding, bulges out of the active site and is distorted. With analogy to complement factor D, we suggest that this strand will maintain its non-productive conformation in mature GzmK, mainly due to the unusual residues Gly(215), Glu(219), and Val(94). We hypothesize that GzmK is proteolytically active only toward specific, as yet unidentified substrates, which upon approach transiently induce a functional active-site conformation.
...
PMID:The 2.2-A crystal structure of human pro-granzyme K reveals a rigid zymogen with unusual features. 1238 99
