Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Probing of the GenBank expressed sequence tag (EST) data base with varied human
tryptase
cDNAs identified two truncated ESTs that subsequently were found to encode overlapping portions of a novel human serine protease (designated tryptase epsilon or protease, serine S1 family member 22 (PRSS22)). The tryptase epsilon gene resides on chromosome 16p13.3 within a 2.5-Mb complex of serine protease genes. Although at least 7 of the 14 genes in this complex encode enzymatically active proteases, only one tryptase epsilon-like gene was identified. The trachea and esophagus were found to contain the highest steady-state levels of the tryptase epsilon transcript in adult humans. Although the tryptase epsilon transcript was scarce in adult human lung, it was present in abundance in fetal lung. Thus, the tryptase epsilon gene is expressed in the airways in a developmentally regulated manner that is different from that of other human
tryptase
genes. At the cellular level, tryptase epsilon is a major product of normal pulmonary epithelial cells, as well as varied transformed epithelial cell lines. Enzymatically active tryptase epsilon is also constitutively secreted from these cells. The amino acid sequence of human tryptase epsilon is 38-44% identical to those of human
tryptase
alpha, tryptase beta I, tryptase beta II, tryptase beta III, transmembrane tryptase/
tryptase
gamma,
marapsin
, and Esp-1/testisin. Nevertheless, comparative protein structure modeling and functional studies using recombinant material revealed that tryptase epsilon has a substrate preference distinct from that of its other family members. These data indicate that the products of the chromosome 16p13.3 complex of
tryptase
genes evolved to carry out varied functions in humans.
...
PMID:Human tryptase epsilon (PRSS22), a new member of the chromosome 16p13.3 family of human serine proteases expressed in airway epithelial cells. 1160 3
In a search for genes encoding the serine peptidases prostasin and testisin, which are expressed mainly in prostate and testis, respectively, we identified a related, novel gene. Sequencing of cDNA allowed us to deduce the full amino acid sequence of the human gene product, which we term "pancreasin" because it is transcribed strongly in the pancreas. The idiosyncratic 6-exon organization of the gene is shared by a small group of tryptic proteases, including prostasin, testisin, and gamma-
tryptase
. Like the other genes, the
pancreasin
gene resides on chromosome 16p. Pancreasin cDNA predicts a 290-residue, N-glycosylated, serine peptidase with a typical signal peptide, a 12-residue activation peptide cleaved by tryptic hydrolysis, and a 256-amino acid catalytic domain. Unlike prostasin and other close relatives, human
pancreasin
and a nearly identical chimpanzee homologue lack a carboxyl-terminal membrane anchor, although this is present in 328-residue mouse
pancreasin
, the cDNA of which we also cloned and sequenced. In marked contrast to prostasin, which is 43% identical in the catalytic domain, human
pancreasin
is transcribed strongly in pancreas (and in the pancreatic ductal adenocarcinoma line, HPAC) but weakly or not at all in kidney and prostate. Antibodies raised against
pancreasin
detect cytoplasmic expression in HPAC cells. Recombinant, epitope-tagged
pancreasin
expressed in Chinese hamster ovary cells is glycosylated and secreted as an active tryptic peptidase. Pancreasin's preferences for hydrolysis of extended peptide substrates feature a strong preference for P1 Arg and differ from those of
trypsin
. Pancreasin is inhibited by benzamidine and leupeptin but resists several classic inhibitors of
trypsin
. Thus,
pancreasin
is a secreted, tryptic serine protease of the pancreas with novel physical and enzymatic properties. These studies provide a rationale for exploring the natural targets and roles of this enzyme.
...
PMID:Structure and activity of human pancreasin, a novel tryptic serine peptidase expressed primarily by the pancreas. 1244 43
The
tryptase
locus on mouse chromosome 17A3.3 contains 13 genes that encode enzymatically active serine proteases with different tissue expression profiles and substrate specificities. Mouse mast cell protease (mMCP) 6, mMCP-7, mMCP-11/protease serine member S (Prss) 34,
tryptase
6/Prss33, tryptase epsilon/Prss22, implantation serine protease (Isp) 1/Prss28, and Isp-2 are constitutively exocytosed enzymes. We now demonstrate that
tryptase
5/Prss32,
pancreasin
/Prss27, and testis serine protease-1 are inserted into plasma membranes via glycosylphosphatidylinositol (GPI) anchors analogous to Prss21, and that these serine proteases can be released from the cell's surface by a phosphatidylinositol-specific phospholipase C. These data suggest that the C-terminal residues play key roles in determining where tryptases compartmentalize in cells. GPI-anchored proteins are targeted to lipid rafts. Thus, our identification of a number of GPI-anchored tryptases whose genes reside at mouse chromosome 17A3.3 also implicates important biological functions for this new family of serine proteases on the surfaces of cells.
...
PMID:Identification of a subgroup of glycosylphosphatidylinositol-anchored tryptases. 1614 3
The trypsin-like serine protease
marapsin
is a member of the large protease gene cluster at human chromosome 16p13.3, which also contains the structurally related proteases testisin, tryptase epsilon,
tryptase
gamma, and EOS. To gain insight into the biological functions of
marapsin
, we undertook a detailed gene expression analysis. It showed that
marapsin
expression was restricted to tissues containing stratified squamous epithelia and was absent or only weakly expressed in all other tissues, including the pancreas. Marapsin was constitutively expressed in nonkeratinizing stratified squamous epithelia of human esophagus, tonsil, cervix, larynx, and cornea. In the keratinizing stratified squamous epidermis of skin, however, its expression was induced only during epidermal hyperproliferation, such as in psoriasis and in murine wound healing. In fact,
marapsin
was the second most strongly up-regulated protease in psoriatic lesions, where expression was localized to the upper region of the hyperplastic epidermis. Similarly, in the hyperproliferative epithelium of regenerating murine skin wounds,
marapsin
localized to the suprabasal layers, where keratinocytes undergo squamous differentiation. The transient up-regulation of
marapsin
, which closely correlated with re-epithelialization, was virtually absent in a genetic mouse model of delayed wound closure. These results suggested a function during the process of re-epithelialization. Furthermore, in reconstituted human epidermis, a model system of epidermal differentiation, members of the IL-20 subfamily of cytokines, such as IL-22, induced
marapsin
expression. Consistent with a physiologic role in
marapsin
regulation, IL-22 was also strongly expressed in re-epithelializing skin wounds. Marapsin's restricted expression, localization, and cytokine-inducible expression suggest a role in the terminal differentiation of keratinocytes in hyperproliferating squamous epithelia.
...
PMID:The serine protease marapsin is expressed in stratified squamous epithelia and is up-regulated in the hyperproliferative epidermis of psoriasis and regenerating wounds. 1894 66
