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: UMLS:C1519176 (PSA)
5,490 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

PSA is a 34-kd 240-amino acid glycoprotein produced by the prostatic epithelial cells. It is a member of the glandular kallikrein gene family and has a high sequence homology with human glandular kallikrein (hGK-1). PSA is a serine protease and has chymotrypsin-, trypsin-, and esterase-like activities. It is secreted into the seminal fluid where it degrades two seminal vesicle proteins that are important components of the semen coagulum, thus playing an important role in semen liquefaction. The production of PSA protein appears to be under the control of circulating androgens acting through the androgen receptor. Therefore, the significance of a low serum PSA value in a patient who has undergone previous antiandrogen therapy may not be the same as that for a patient who has not received endocrine treatment.
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PMID:Prostate-specific antigen and prostatic acid phosphatase: biomolecular and physiologic characteristics. 171 6

Without question, much has been learned about the glycoprotein PSA in recent years. By increasing our understanding of this tumor marker's biochemical and physiologic properties, we will be able to improve its clinical utility. The discovery of the various molecular forms of PSA represents a significant advancement. Knowing the concentration and ratio of these PSA forms will be valuable in deciding which patients require further evaluation with transrectal ultrasound and prostate biopsy and which men can be monitored safely without undergoing further invasive testing. This information will be most valuable in treating the patient with a mildly elevated serum PSA level. Although assays are not yet available to detect specifically hK2, the striking similarities of hK2 to PSA, including selective expression in the prostate, suggest that this marker may also prove useful in prostate cancer management. Indeed, a new era of PSA testing has been entered, and the entire field of prostate cancer will benefit.
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PMID:Molecular forms of prostate-specific antigen and the human kallikrein gene family: a new era. 753 36

In vitro studies suggest that the protease activity of PSA might play a functional role to facilitate the growth and spreading of cancerous prostatic cells. hK2 may have similar properties. Further investigation to prove their in vivo effects is required. Regulation of PSA and hKLK2 gene expression is mediated not only by androgens, but also by a number of autocrine and paracrine factors, suggesting that the control mechanisms for expression of these genes are complex and multifaceted. Such factors may also be integral for the growth and differentiation of prostate cells. Thus PSA and hKLK2 may serve as useful markers to study the regulation of gene expression during cell growth and differentiation of the prostate.
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PMID:Expression and androgenic regulation of human prostate-specific kallikreins. 755 50

We have recently demonstrated in liquefied human seminal plasma the presence of the novel kallikrein hK2 in association with protein C inhibitor (PCI) as a 75-kDa complex. In the present study, we showed that hK2, immediately after ejaculation, was recovered only in its free form but complex formation with PCI occurred rapidly thereafter and was completed within 10 minutes. That reaction required an enzymatically active kallikrein. In order to determine the patterns of hydrolysis of major seminal vesicle proteins, semenogelins and fibronectin were exposed to hK2 and to hK3 (prostate-specific antigen or PSA) and cleavage sequences were identified by N-terminal sequencing. Free hK2 was able to hydrolyze semenogelins and fibronectin in vitro. Most of cleavage sites were at the carboxyl-side of arginyl residues. Semenogelins were hydrolyzed to a similar extent by catalytic (and similar) concentration of either hK2 or PSA though no common cleavage sites was identified for both proteinases. Unlike semenogelins, fibronectin was hydrolyzed much more efficiently by hK2 than by PSA. These results show that hK2 is enzymatically active during a short period of time after ejaculation, that major seminal vesicle proteins can be the target of this proteolytic activity, and that hK2 and PSA have different substrate specificities.
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PMID:Potential involvement of kallikrein hK2 in the hydrolysis of the human seminal vesicle proteins after ejaculation. 901 96

Our work was undertaken to compare the relative efficiency of 2 purified prostatic kallikreins, namely, hK2 and prostate-specific antigen (PSA or hK3), in the activation of single-chain urokinase (scuPA). We found that hK2 converts scuPA into an active enzyme with an efficiency equal to approximately 1/50 that of plasmin. During the activation of scuPA by hK2, two fragments of 33 and 22 kDa were generated. The NH2-terminal amino acid sequence of the 33 kDa fragment showed that hK2 cleaved scuPA between Lys158 and Ile159. In contrast to a previous report by another group, our purified hK3 preparation containing no trypsin-like contaminants was totally unable to activate scuPA. Our results show that kallikrein hK2 has plasmin-like activity and suggest that it could be the initiator of a proteolytic cascade leading to prostatic cancer invasion.
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PMID:Prostatic kallikrein hK2, but not prostate-specific antigen (hK3), activates single-chain urokinase-type plasminogen activator. 918 Jan 62

The precursor or zymogen form of prostate-specific antigen (pro-PSA) is composed of 244 amino acid residues including an amino-terminal propiece of 7 amino acids. Recombinant pro-PSA was expressed in Escherichia coli, isolated from inclusion bodies, refolded, and purified. The zymogen was readily activated by trypsin at a weight ratio of 50:1 to generate PSA, a serine protease that cleaves the chromogenic chymotrypsin substrate 3-carbomethoxypropionyl-L-arginyl-L-prolyl-L-tyrosine-p-nitroanili ne- HCl (S-2586). In this activation, the amino-terminal propiece Ala-Pro-Leu-Ile-Leu-Ser-Arg was released by cleavage at the Arg-Ile peptide bond. The recombinant pro-PSA was also activated by recombinant human glandular kallikrein, another prostate-specific serine protease, as well as by a partially purified protease(s) from seminal plasma. The recombinant PSA was inhibited by alpha1-antichymotrypsin, forming an equimolar complex with a molecular mass of approximately 100 kDa. The recombinant PSA failed to activate single chain urokinase-type plasminogen activator, in contrast to the recombinant hK2, which readily activated single chain urokinase-type plasminogen activator. These results indicate that pro-PSA is converted to an active serine protease by minor proteolysis analogous to the activation of many of the proteases present in blood, pancreas, and other tissues. Furthermore, PSA is probably generated by a cascade system involving a series of precursor proteins. These proteins may interact in a stepwise manner similar to the generation of plasmin during fibrinolysis or thrombin during blood coagulation.
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PMID:Characterization of the precursor of prostate-specific antigen. Activation by trypsin and by human glandular kallikrein. 926 Nov 79

This paper ascertained the contamination by hK2 of two types of PSA preparation, that of Sensabaugh and Blake (J. Urol., 144: 1523, 1990) and that of Deperthes et al (J. Androl., 17: 659, 1996). In the first procedure, the free forms of hK2 co-migrated with PSA during the CM-Sephadex and the Sephacryl S-200 steps. By contrast, in the second procedure a very high proportion of hK2 was separated from PSA. In two different Sensabaugh and Blake procedures, the hK2 contamination per microg. of PSA was found to be respectively 0.3 and 1.0 ng. We conclude that hK2 is a quantitatively minor contaminant of some PSA preparations. That contamination is probably of little consequence for PSA standardization but it could lead to erroneous conclusions in enzymatic studies of PSA.
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PMID:Contamination of purified prostate-specific antigen preparations by kallikrein hK2. 950 87

Prostate-specific antigen (PSA, hK3) is a diagnostic marker for prostatic cancer but lacks the specificity to sufficiently distinguish between prostatic cancer and benign prostatic hyperplasia (BPH). Human glandular kallikrein 2 (hK2) has been proposed as a potential diagnostic marker for prostate cancer that could complement the current PSA test. Recently we demonstrated that proPSA is present in prostate cancer sera. This study examines the expression of prohK2 in prostate cells and its presence in human sera. Western blot analysis was used to assess prohK2 expression in the human carcinoma cell line, LNCaP. A highly specific and sensitive dual monoclonal immunoassay for prohK2 was developed and used to assess the presence of prohK2 in human sera. prohK2 was detected in the spent media of LNCaP cells. Furthermore, prohK2 was present at immunodetectable concentrations in human sera, and its concentration was increased in prostatic cancer and BPH. These results indicate for the first time that prohK2 is secreted by human prostate cells and is a major component of uncomplexed (free) hK2 in human sera. In addition, prohK2 in human sera is associated with prostate disease and thus may be a useful marker for prostatic cancer and BPH.
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PMID:The precursor form of the human kallikrein 2, a kallikrein homologous to prostate-specific antigen, is present in human sera and is increased in prostate cancer and benign prostatic hyperplasia. 976 Dec 43

T3 plays an important role in the regulation of cell growth and differentiation. In this study, we show the interactive effects of T3 and androgens on the growth response and expression of the prostate-specific genes, PSA (prostate-specific antigen) and hK2 (human glandular kallikrein), in the human prostate cancer cell line, LNCaP. T3 alone showed pronounced growth enhancement in a dose-dependent fashion. However, in the presence of androgens, higher concentrations of T3 were required to produce additional proliferative effects. T3, androgens, or a combination of the two up-regulated PSA protein production in a dose-dependent fashion, but T3 had little stimulatory effect on hK2 protein expression, regardless of the presence or absence of androgens. Using gene transfer assays, T3 alone showed no effect on transcriptional activation of a reporter gene mediated by the PSA or hK2 enhancer/promoters. T3 potentiated the androgen-mediated transcription of the PSA gene but not that of the hK2 gene. A previous study suggested that the T3 effect on PSA protein expression was caused by an up-regulation of the androgen receptor (AR) protein by T3. Our results contradict these. Although AR expression was increased by T3 alone, Western blot analysis showed that the total cellular AR level was not further increased by T3 in the presence of androgens, in comparison with cells stimulated by androgens alone. Both Western blot analysis and a gel DNA band shift assay revealed that nuclear AR was not increased by T3. This study suggests that transcription factor(s) other than the AR may mediate T3 enhancement of androgenic induction of PSA expression.
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PMID:Interactive effects of triiodothyronine and androgens on prostate cell growth and gene expression. 1009 1

Prostate-specific human glandular kallikrein (hK2) is an active enzyme in human seminal fluid. It is one of three serine proteases in the human kallikrein gene family, which includes hK1 (tissue kallikrein) and hK3 (prostate-specific antigen [PSA]). In order to examine kininogenase activity (i.e., production of kinin by these enzymes), we tested for bradykinin and/or Lys-bradykinin release upon incubation of hK2 and for other kallikreins with high-molecular weight kininogen (HMWK), which contains the nonapeptide bradykinin. Kinins are important regulatory peptides (especially for vascular permeability), and they may have a role in enhancing sperm motility. High-molecular weight kininogen is the substrate for plasma kallikrein (PKa potent kinin-generating enzyme circulating in blood, not of the same gene family) and for hK1. Glandular kallikrein and protein-C inhibitor (PCI)-hK2 complex, a serpin protease inhibitor that binds hK2, were purified to homogeneity by affinity and size-exclusion chromatography. About one-half of the hK2 is found in complex with PCI. The kallikrein enzymes were incubated with HMWK, and the resulting cleavage products were analyzed for kinin activity using enzyme immunoassay, high-performance liquid chromatography and mass spectrometry, and in vitro bioassay. Our results show that hK2 cleaves HMWK to produce bradykinin, not Lys-bradykinin (like hK1), and the resultant heavy (56-kDa) and light (42-kDa) chains of HMWK show similar electrophoretic mobility to those cleaved by PK. Prostate-specific antigen (hK3) had no kinin-generating activity. We also identified three other internal cleavage sites for hK2 in HMWK (Arg427, Arg437, and Arg457) that yielded two peptides, one of which is identical to a PK-cleaved peptide. Glandular kallikrein is about 500-fold less active than is PK or tissue kallikrein, but it may play a physiologically important role in bradykinin release in seminal fluid.
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PMID:Kininogenase activity of prostate-derived human glandular kallikrein (hK2) purified from seminal fluid. 1023 57


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