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:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human kallikrein (hK) 2 is an arginine-selective serine protease expressed predominantly in the prostate that has an 80% sequence identity with prostate-specific antigen. Expression of hK2 is elevated in the tumor epithelium compared to benign prostate tissue. We have purified, sequenced, and identified a novel hK2 complex in prostate tissue consisting of hK2 and a serine protease inhibitor known as protease inhibitor-6 (PI-6). This 64-kDa SDS-PAGE stable complex is elevated in the tumor and is approximately 10% of total hK2. No comparable complex of prostate-specific antigen was detected. PI-6, also known as cytoplasmic antiprotease, has been characterized as an intracellular inhibitor of trypsin and chymotrypsin-like proteases, which has high homology to plasminogen activator inhibitor 1 and 2. The physiological role of PI-6 in the prostate and its relationship to hK2 and prostate cancer are under investigation.
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PMID:Identification of a novel complex between human kallikrein 2 and protease inhibitor-6 in prostate cancer tissue. 1046 85

The serine proteinase prostate-specific antigen (PSA), and its complex with the serine proteinase inhibitor alpha(1)-antichymotrypsin (ACT), have been used as markers for the diagnosis of prostate cancer. PSA prepared from seminal fluid is typically contaminated with the trypsin-like glandular kallikrein (hK2). Here we describe a convenient and reproducible preparation of catalytically active recombinant PSA (rPSA) and demonstrate an overall similarity in the properties of cloned and refolded rPSA to PSA purified from seminal fluid. We also present results that are relevant for increasing the sensitivity of assays of PSA activity in biological fluids, for the putative role of PSA activity in physiologically important processes, including prostate cancer metastasis, and for the design of PSA inhibitors. Specifically, we find that added salts, in particular NaCl, give rise to dramatic increases in rPSA catalytic activity, as does added glycerol. On the other hand, Zn(2+), spermine, and spermidine, each a major component of seminal and prostatic fluid, strongly inhibit rPSA activity, with Zn(2+) being a non-competitive inhibitor while spermine is a competitive inhibitor. Citrate, also a major component of seminal and prostatic fluid, spermine, and spermidine each protect rPSA from Zn(2+) inhibition, presumably via Zn(2+) sequestration. Finally, rPSA efficiently proteolyzes several protein substrates.
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PMID:The preparation and catalytic properties of recombinant human prostate-specific antigen (rPSA). 1096 94

We have cloned a type of cDNA for a functional glandular kallikrein, designated as mouse Klk21 (mKlk21), from the adult mouse testis cDNA library. mKlk21 was expressed in the kidney, submaxillary glands, and testis of the mouse. In the testis, mKlk21 mRNA was detectable at 4 wk of postnatal development and became more prominent thereafter. The mKlk21 gene was expressed exclusively in the Leydig cells of adult mice. When Leydig cells isolated from 2-wk-old mouse testis were cultured in the presence of T, mKlk21 expression was induced significantly. Active recombinant mKlk21 showed trypsin-like specificity, favorably cleaving Arg-X bonds of synthetic peptide substrates. The enzyme activity was strongly inhibited with typical serine protease inhibitors. mKlk21 hydrolyzed casein, gelatin, fibronectin, and IGF-binding protein-3 (IGFBP-3). As in mKlk21, IGF-I and IGFBP-3 were expressed in the Leydig cells of the adult mouse testis, although the transcript of IGFBP-3 was not detected in all of the observed cells. The culture medium of Leydig cells isolated from adult mouse testes contained an mKlk21-like enzyme activity capable of degrading IGFBP-3. These results suggest that mKlk21 plays a role in Leydig cell function in the adult mouse testis.
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PMID:Mouse testicular Leydig cells express Klk21, a tissue kallikrein that cleaves fibronectin and IGF-binding protein-3. 1160 60

Mouse kallikrein 24 is thought to encode a functional serine protease belonging to the mouse glandular kallikrein gene family. Preliminary results suggest that this kallikrein may play a role in testis function in adult mice. In order to obtain insights into its physiological functions, we undertook molecular and biochemical analyses of this enzyme. We cloned a cDNA for kallikrein 24 from the adult mouse testis cDNA library. Kallikrein 24 was expressed in the kidney, submandibular glands, ovary, epididymis, and testis of the mouse. In the testis, kallikrein 24 mRNA was detectable at 4 weeks of postnatal development, and became more prominent thereafter. The kallikrein 24 gene was expressed exclusively in the Leydig cells of adult mice. When Leydig cells isolated from a 2-week-old mouse testis were cultured in the presence of testosterone, kallikrein 24 expression was induced. Active recombinant enzyme showed trypsin-like specificity, favorably cleaving Arg-X bonds of synthetic peptide substrates. The enzymatic activity was strongly inhibited by typical serine protease inhibitors. Mouse kallikrein 24 degraded casein, gelatin, fibronectin and laminin. These results suggest that the enzyme may play a role in the degradation of extracellular matrix proteins in the interstitial area surrounding the Leydig cells of the adult mouse testis. The present findings should contribute to future physiological studies of this mouse testis protease.
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PMID:Characterization of mouse glandular kallikrein 24 expressed in testicular Leydig cells. 1598 84

Human tissue kallikreins (hKs) are a family of fifteen serine proteases. Several lines of evidence suggest that hKs participate in proteolytic cascade pathways. Human kallikrein 5 (hK5) has trypsin-like activity, is able to self-activate, and is co-expressed in various tissues with other hKs. In this study, we examined the ability of hK5 to activate other hKs. By using synthetic heptapeptides that encompass the activation site of each kallikrein and recombinant pro-hKs, we demonstrated that hK5 is able to activate pro-hK2 and pro-hK3. We then showed that, following their activation, hK5 can internally cleave and deactivate hK2 and hK3. Given the predominant expression of hK2 and hK3 in the prostate, we examined the pathophysiological role of hK5 in this tissue. We studied the regulation of hK5 activity by cations (Zn2+, Ca2+, Mg2+, Na2+, and K+) and citrate and showed that Zn can efficiently inhibit hK5 activity at levels well below its normal concentration in the prostate. We also show that hK5 can degrade semenogelins I and II, the major components of the seminal clot. Semenogelins can reverse the inhibition of hK5 by Zn2+, providing a novel regulatory mechanism of its serine protease activity. hK5 is also able to internally cleave insulin-like growth factor-binding proteins 1, 2, 3, 4, and 5, but not 6, suggesting that it might be involved in prostate cancer progression through growth factor regulation. Our results uncover a kallikrein proteolytic cascade pathway in the prostate that participates in seminal clot liquefaction and probably in prostate cancer progression.
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PMID:Human tissue kallikrein 5 is a member of a proteolytic cascade pathway involved in seminal clot liquefaction and potentially in prostate cancer progression. 1651 95

Human glandular kallikrein (KLK2) is a highly prostate-specific serine protease, which is mainly excreted into the seminal fluid, but part of which is also secreted into circulation from prostatic tumors. Since the expression level of KLK2 is elevated in aggressive tumors and it has been suggested to mediate the metastasis of prostate cancer, inhibition of the proteolytic activity of KLK2 is of potential therapeutic value. We have previously identified several KLK2-specific linear peptides by phage display technology. Two of its synthetic analogs, A R R P A P A P G (KLK2a) and G A A R F K V W W A A G (KLK2b), show specific inhibition of KLK2 but their sensitivity to proteolysis in vivo may restrict their potential use as therapeutic agents. In order to improve the stability of the linear peptides for in vivo use, we have prepared cyclic analogs and compared their biological activity and their structural stability. A series of cyclic variants with cysteine bridges were synthesized. Cyclization inactivated one peptide (KLK2a) and its derivatives, while the other peptide (KLK2b) and its derivatives remained active. Furthermore, backbone cyclization of KLK2b improved significantly the resistance against proteolysis by trypsin and human plasma. Nuclear magnetic resonance studies showed that cyclization of the KLK2b peptides does not make the structures more rigid. In conclusion, we have shown that backbone cyclization of KLK2 inhibitory peptides can be used to increase stability without losing biological activity. This should render the peptides more useful for in vivo applications, such as tumor imaging and prostate cancer targeting.
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PMID:Activity and stability of human kallikrein-2-specific linear and cyclic peptide inhibitors. 1743 44

Glandular Kallikrein is a serine-protease with trypsin-like activity and is able to generate bioactive peptides from inactive precursors. We have evaluated the presence of this protease in the different organs of the Atlantic salmon (Salmo salar). The results clearly indicate that GK and PRL are generated in the same pituitary cells based on a co-localization by confocal microscopy. Based on probed cross-reactivity between C. striata and C. carpio glandular anti-GK antibodies, we used a homologous antibody to detect the presence of GK in several salmon tissues. We have evaluated the GK expression in healthy and defied fish. P. salmonis and V. ordalii. The GK immunoreaction in organs such as leukocytes, gills and skin is considerably increased in defied fish compared to healthy fish. This increase was present in the cells of the excretory kidney and in the intercellular tissue, where the development of hematopoietic and lymphocytic lines in fish take place. One of the most interesting organs to study was the skin, bearing in mind that this is a primary barrier to all pathogens. The skin of the defied fish exhibited an increase in immunoreactivity for glandular kallikrein similar to the protease found in mucus. An immunoreactive tissue kallikrein-like protein was identified and partially separated by perfusion chromatography. Enzymatic activity of salmon muscle prokallikrein was determined before and after trypsin activation. Kallikrein activity was characterized with respect to their ability to cleave the chromogenic leaving group, p-nitroanilide, from the peptidyl kallikrein and trypsin substrate. These findings constitute a important contribution to reveal the role of kallikrein in the innate immune system of fish.
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PMID:Glandular kallikrein in the innate immune system of Atlantic salmon (Salmo salar). 2097 Jan 99

Kallikreins are a family of serine proteases with a range of tissue-specific and essential proteolytic functions. Among the best studied are the prostate tissue-specific KLK2 and KLK3 genes and their secreted protease products, human kallikrein 2, hk2, and prostate-specific antigen (PSA). Members of the so-called classic kallikreins, these highly active trypsin-like serine proteases play established roles in human reproduction. Both hK2 and PSA expression is regulated by the androgen receptor which has a fundamental role in prostate tissue development and progression of disease. This feature, combined with the ability to sensitively detect different forms of these proteins in blood and biopsies, result in a crucially important biomarker for the presence and recurrence of cancer. Emerging evidence has begun to suggest a role for these kallikreins in critical vascular events. This review discusses the established and developing biological roles of hK2 and PSA, as well as the historical and advanced use of their detection to accurately and non-invasively detect and guide treatment of prostatic disease.
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PMID:Prostate-specific kallikrein-related peptidases and their relation to prostate cancer biology and detection. Established relevance and emerging roles. 2390 7

Changes in proteolytic activity are associated with several diseases, including cancer. Proteases are potential drug targets and targeting of proteases is used for treatment of various conditions/diseases, like high blood pressure and HIV. We present here detailed protocols for basic evaluation of the effects of peptides on the activity of proteases, using kallikrein-related peptidases KLK2 and KLK3 (also known as hK2 and PSA), and trypsin as examples. KLK2 and KLK3 are major prostatic proteases, and they are potential targets for prostate cancer treatment. KLK2 has trypsin-like activity and KLK3 chymotrypsin-like activity. By phage display technology, we have developed peptides that specifically stimulate KLK3-activity and other peptides that inhibit KLK2 or trypsin. The effect of the peptides on the proteolytic activity of proteases can be studied using substrates, the cleavage of which generates detectable signal, allowing rapid evaluation of protease activity. The cleavage of protein substrates can be detected by SDS-PAGE, followed by staining of the proteins. We also describe graphical analysis of the IC50-value, the effect of a peptide on Michaelis-Menten constant (K(m)) and the maximal reaction rate (V(max)).
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PMID:Evaluation of peptides as protease inhibitors and stimulators. 2414 2

Prostate-specific antigen (PSA or kallikrein-related peptidase-3, KLK3) exerts chymotrypsin-like proteolytic activity. The main biological function of PSA is the liquefaction of the clot formed after ejaculation by cleavage of semenogelins I and II in seminal fluid. PSA also cleaves several other substrates, which may explain its putative functions in prostate cancer and its antiangiogenic activity. We compared the proteolytic efficiency of PSA towards several protein and peptide substrates and studied the effect of peptides stimulating the activity of PSA with these substrates. An endothelial cell tube formation model was used to analyze the effect of PSA-degraded protein fragments on angiogenesis. We showed that PSA degrades semenogelins I and II much more efficiently than other previously identified protein substrates, e.g., fibronectin, galectin-3 and IGFBP-3. We identified nidogen-1 as a new substrate for PSA. Peptides B2 and C4 that stimulate the activity of PSA towards small peptide substrates also enhanced the proteolytic activity of PSA towards protein substrates. Nidogen-1, galectin-3 or their fragments produced by PSA did not have any effect on endothelial cell tube formation. Although PSA cleaves several other protein substrates, in addition to semenogelins, the physiological importance of this activity remains speculative. The PSA levels in prostate are very high, but several other highly active proteases, such as hK2 and trypsin, are also expressed in the prostate and may cleave protein substrates that are weakly cleaved by PSA.
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PMID:Proteolytic activity of prostate-specific antigen (PSA) towards protein substrates and effect of peptides stimulating PSA activity. 2523 4


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