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Human kallikrein 2 (hK2) is a secreted, trypsin-like protease that shares 80% amino acid sequence identity with prostate-specific antigen (PSA). hK2 has been shown to be a serum marker for prostate cancer and may also play a role in cancer progression and metastasis. We have previously identified a novel complex between human kallikrein 2 (hK2) and protease inhibitor 6 (PI-6) in prostate cancer tissue. PI-6 is an intracellular serine protease inhibitor with both antitrypsin and antichymotrypsin activity. In the current study we have shown that PI-6 forms a rapid in vitro complex with hK2 but does not complex with PSA. Recombinant mammalian cells expressing both hK2 and PI-6 showed hK2-PI-6 complex in the spent media only after cell death and lysis. Similarly, LNCaP cells expressing endogenous hK2 and PI-6 showed extracellular hK2-PI-6 complex formation concurrently with cell death. Immunostaining of prostate cancer tissues with PI-6 monoclonal antibodies showed a marked preferential staining pattern in cancerous epithelial cells compared with noncancerous tissue. These results indicate that the hK2-PI-6 complex may be a naturally occurring marker of tissue damage and necrosis associated with neoplasia. Both hK2 and PI-6 were shed into the lumen of prostate cancer glands as granular material that appeared to be cellular necrotic debris. The differential staining pattern of PI6 in tissues suggests a complex regulation of PI-6 expression that may play a role in other aspects of neoplastic progression.

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Prostate-specific antigen (PSA) is a widely used serum marker for prostate cancer (PCa) but has limited specificity for distinguishing early PCa from benign prostatic hyperplasia, because both PCa and benign prostatic hyperplasia release PSA into the serum. We have identified previously a truncated form of precursor PSA (pPSA) in prostate tumor extracts consisting of PSA with a serine-arginine pro leader peptide ([-2]pPSA) instead of the normally expressed 7 amino acid pro leader peptide. In the current study we developed monoclonal antibodies to detect [-2]pPSA and other isoforms of pPSA for Western blot analysis. PSA was immunoaffinity purified from 100 to 200 ml of serum from each of five men with biopsy-proven cancer and three biopsy-negative men, all with total PSA levels in the diagnostically relevant range near 10 ng/ml. The truncated [-2]pPSA was estimated to range from 25 to 95% of the free PSA in the five PCa samples but only 6-19% of the free PSA in the biopsy-negative men. Immunohistochemical studies showed positive staining for [-2]pPSA in PCa epithelium and that [-2]pPSA was enriched in cancer cell secretions. In vitro activation studies showed that human kallikrein 2 and trypsin readily activated full-length pPSA but were unable to activate [-2]pPSA to mature PSA. Thus, [-2]pPSA, once formed, is a stable but inactive isoform of PSA. Truncated [-2]pPSA may represent an important new diagnostic marker for the early detection of PCa.

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BACKGROUND: Human prostate-specific antigen (PSA) and human kallikrein 2 (hK2) are expressed primarily by prostate epithelial cells. PSA and hK2 both exist as free protein and complexed with protease inhibitors (e.g., alpha1-antichymotrypsin, ACT) in serum. The expression of PSA and hK2 in LNCaP cells is upregulated by androgen. METHODS: LNCaP, a prostate cancer cell line that secretes both PSA and hK2, was used as a model to study the biosynthesis and processing of PSA and hK2 upon androgen induction. RESULTS: Precursor (zymogen or pro) forms of both PSA and hK2 were detected in spent media of induced and noninduced LNCaP cells, indicating that PSA and hK2 are secreted as proPSA (pPSA) and prohK2 (phK2), respectively, and are converted to the mature forms extracellularly. A 3-fold higher ratio of mature to pPSA was detected in the spent media of mibolerone-induced LNCaP cells compared to noninduced cells. In addition to the inactive proform of PSA, more than half of the mature unclipped PSA present in the spent media did not complex with exogenously added ACT. Spent media of mibolerone-induced LNCaP cells contained nearly 100% mature hK2, whereas the spent media of noninduced cells contained mostly phK2. CONCLUSIONS: These results indicate that androgens not only upregulate the expression of these kallikreins, but also have a significant effect on the processing of PSA and hK2. These results also show that LNCaP cells express a heterogeneous mixture of inactive PSA and hK2 forms that may serve as a model for the genesis of these forms in physiological fluids. These findings may also provide insights into the forms and ratios of PSA and hK2 in normal and malignant breast tissues.

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Human kallikrein 2 (hK2) is a serine protease expressed predominantly in the prostate which has 80% homology to prostate-specific antigen (PSA). hK2 is an active trypsin-like protease which has been shown by immuno-histochemical staining to be more highly expressed in prostate carcinoma than in benign prostate tissue. Unlike PSA, hK2 activates pro-PSA , pro-hK2 and the zymogen form of urokinase-type plasminogen activator (uPA), an extracellular protease correlated with prostate cancer and metastasis. We show here that hK2 rapidly forms a complex with plasminogen activator inhibitor-1 (PAI-1), the primary inhibitor of uPA in tissues. In addition, hK2 inactivated 6 to 7 mol of PAI-1 by cleavage at Arg346-Met347 for every mole of hK2-PAI-1 complex formed. In contrast with hK2, PSA neither complexed with nor inactivated PAI-1. PAI-1 inhibited hK2 comparably with protein C inhibitor (PCI) and at least 20 times more rapidly than alpha1-anti-chymotrypsin (ACT). N-Terminal sequencing shows that hK2 forms a covalent complex with PAI-1, PCI and ACT after cleavage at Arg346-Met347, Arg354-Ser355 and Leu358-Ser359, respectively. During complex formation, hK2 inactivated PAI-1 but did not inactivate ACT or PCI. Our current results suggest that the increased hK2 expression in prostate cancer tissues could influence cancer biology not only by activation of uPA but also by inactivation of its primary inhibitor, PAI-1.

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In this manuscript, a general strategy was designed and used to rapidly test whether any combination(s) of p53, v-abl, bcl2 and ras oncogenes could act cooperatively to immortalize B cells. Here we report that only the combination of v-abl and bcl2 was successful. Splenic B cells from beta galactosidase-immunized mice were stimulated in vitro with lipopolysaccharide and dextran sulphate for 48 h and co-infected with ecotropic A-MuLV (v-abl) and amphotropic pZip-bcl2 (human bcl2) viruses. When inoculated i.p. into naive pristane-primed mice, these B cells generated mesenteric lymphadenopathy, intraperitoneal lymph nodules and ascites in 100% (8/8) of the mice within 36-53 days. The ascites fluid contained 69.5-122 microg/ml IgG and 2.5-13 microg/ml IgM against the immunogen. The ascites cells were passed intraperitoneally up to three times. In all passages, ascites tumors were generated, and the ascites fluid contained beta galactosidase-specific IgG and IgM, indicating that some immunoglobulin secreting B cells had been immortalized. Neither ascites nor tumors were produced when B cells infected with only one of the viruses was injected into the mice. The presence of each oncogene in ascites cells was verified by immunohistochemistry or RT-PCR. This study provides evidence for the cooperativity of an unexpected pair of oncogenes in B cell immortalization.

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Human glandular kallikrein 2 (hK2) is a trypsin-like serine protease that is expressed predominantly in the prostate epithelium and has 78% aa identity with prostate-specific antigen (PSA). hK2 has been recognized as a potential prostate cancer marker and has been demonstrated to be highly expressed in prostate cancer compared to benign prostatic tissue. Purification and characterization of hK2 have been impeded due to its lower expression in bodily fluids and tissues compared to PSA and its ability to autodegrade. Therefore, to study biochemical and biological characteristics of hK2, a stable and enzymatically inactive mutant form of hK2, hK2(A217V), was expressed in a hamster cell line, AV12-664 (AV12-hK2(A217V)). AV12-hK2(A217V) cells secreted prohK2(A217V) (phK2(A217V)) in the spent medium at approximately 2.5 microgram/ml. Since AV12-hK2(A217V) are adherent cells, it was necessary to develop an efficient system to propagate large numbers of cells to obtain significant quantities of phK2(A217V). In this paper, we compared ceramic core bioreactor and microcarrier beads as alternatives to static culture to propagate adherent cells. Considering production levels, ease of operation, cost effectiveness, and labor, microcarrier beads were found to be a better alternative. Our findings led to the development of a general protocol for large-scale propagation of adherent cells on microcarrier beads eliminating the need for propagating AV12-hK2(A217V) in culture flasks or bioreactors. Microcarrier beads coated with AV12-hK2(A217V) cells could be propagated in 1- or 3-liter spinner flasks and were passed from one spinner to the next in a manner analogous to static culture or could be frozen and later used as inoculum for subsequent spinners. Using this protocol, >40 liters of spent medium was harvested within 30 days, which in turn was used to purify phK2(A217V). phK2(A217V) purified from spent medium of cells grown either on microcarrier beads or in culture flasks were biochemically similar as indicated by HIC-HPLC profile followed by sequencing of relevant peaks.

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The BRCA1 gene is associated with hereditary breast and ovarian cancers. BRCA1 fits the model of a classic tumor suppressor gene, a hypothesis supported by recent work demonstrating that expression of BRCA1 inhibits growth of breast and ovarian cancer cell lines. The present study was designed to test the potential of BRCA1 to reverse the transforming activity of the ras oncogene. The v-Ha ras oncogene was cloned downstream of the retrovirus LTR and stably expressed in Rat-1 cells (Rat-1/ras). Rat-1/ras (R/R) cells were fully transformed as indicated by change in morphology, colony formation in soft-agarose and tumor induction in nude mice. BRCA1 was stably expressed in R/R cells under the CMV promoter (R/R-BRCA1). The expression of ras and BRCA1 was confirmed by Western blot using monoclonal antibodies (mAbs) specific to ras and BRCA1, respectively. R/R-BRCA1 cells grew slower than the negative control, which was R/R cells transfected with vector alone (R/R-pCEP4). R/R-BRCA1 cells generated approximately 5 to 10 times less colonies in a soft-agarose assay compared to the negative control. When injected into nude mice, R/R-BRCA1 cells exhibited a delayed onset of tumorigenesis and generated smaller tumors compared to R/R or R/R-pCEP4 cells. These data strongly suggest that BRCA1 partially reverses the transforming activity of the v-Ha ras oncogene indicating that BRCA1 can bypass the effects of the v-Ha ras oncogene on cell growth. BRCA1, therefore, may be used in therapy of tumors arising due to activation of v-Ha ras oncogene.

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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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BACKGROUND: Human glandular kallikrein (hK2) is a new potential marker for prostate cancer. It is a serine protease expressed in human prostate epithelial cells which has 78% sequence identity with prostate-specific antigen (PSA). PSA is a widely used biochemical marker for prostate cancer. METHODS: Recombinant hK2 expressed in mammalian cells was purified to homogeneity by immunoaffinity chromatography, using an anti-hK2 mAb. hK2 enzymatic specificity was determined on peptide substrates by N-terminal amino acid sequencing. hK2 complexes were analyzed by SDS-PAGE and Western blots. RESULTS: hK2 was found to cleave peptide substrates exclusively at selected arginine residues. An amidolytic activity of 4,100 pmol/min per microgram hK2 was obtained on the chromogenic substrate H-D-Pro-Phe-Arg-p-nitroanilide, while no activity was found on methoxysuccinyl-Arg-Pro-Tyr-p-nitroanilide, a chymotrypsin substrate used to measure PSA activity. hK2 complexed completely with alpha 1-antichymotrypsin and alpha 2-antiplasmin after 4 hr at 37 degrees C, but showed no detectable complex with antithrombin III and alpha 1-protease inhibitor under these conditions. hK2 also formed a rapid complex with alpha 2-macroglobulin. CONCLUSIONS: These results demonstrate that hK2 is an active protease with arginine-selective specificity, which forms covalent complexes with plasma protease inhibitors.

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OBJECTIVES: Prostate-specific antigen (PSA) is a widely used serum marker for human prostate cancer (PCa). The majority of PSA in serum is present as a complex with alpha-1-antichymotrypsin (ACT). In recent years, the ratio of free (uncomplexed) to total PSA has shown improved discrimination of PCa from benign prostatic hyperplasia. This study examines the nature of the free PSA from detected in PCa serum and shows that some of the uncomplexed PSA is an inactive precursor of PSA (pPSA). METHODS: Western blot analysis was used to detect clipped, fragment forms of PSA in sera and seminal fluid. Hydrophobic interaction chromatography-high performance liquid chromatography (HIC-HPLC) was used to identify forms of PSA present in the free PSA population. Pooled sera was passed over a PSA immunoaffinity column, and the eluted PSA components were further resolved by HIC-HPLC. RESULTS: Western blot analysis of whole sera showed complexed PSA and the intact, approximately 34 kilodalton free PSA. Only negligible levels of clipped or degraded forms of PSA, as found in seminal fluid, were detected. Column fractions measured for uncomplexed PSA using the Tandem-MP free PSA assay showed that about 25% of the free PSA eluted as pPSA beginning at the [-4]amino acid. Studies with purified recombinant [-4]pPSA showed that this proenzyme form is inactive and does not complex with ACT. CONCLUSIONS: These results suggest that the uncomplexed PSA in PCa serum is primarily unclipped PSA that contains a significant fraction of pPSA.

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To study the expression, biosynthesis, and processing of prostate-specific antigen (PSA) in mammalian cells, recombinant PSA was expressed in Syrian hamster tumor cell line AV12-664 (AV12-PSA). Expression of PSA was monitored by the Tandem-MP PSA assay. PSA was secreted into the medium during the logarithmic phase of cell growth at >9 microg/ml and was stable. The PSA purified from spent medium of AV12-PSA cells did not exhibit any enzymatic activity and did not complex with the protease inhibitor, alpha-1-antichymotrypsin. These findings indicated that an inactive form of PSA was expressed by AV12-PSA cells. NH2-terminal sequencing confirmed the identity of the PSA purified from the spent medium of AV12-PSA cells to be pro-PSA. This demonstrates that PSA is expressed as pro-PSA by mammalian cells and suggests that pro-PSA may be present in biological fluids. Human kallikrein 2 (hK2), another member of the hK family, is also expressed predominantly in prostate epithelium. Although hK2 has been shown to exhibit trypsin-like activity, little is known about its natural substrates. Using purified proteins, we show that hK2 can convert pro-PSA to mature, enzymatically active PSA, thus establishing a physiological connection between hK2 and PSA. These findings imply that hK2 may be regulating PSA activity in vivo.

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Prostate-specific human kallikrein, hK2, is a serine protease found in prostate tissues that has 78% amino acid sequence identity with prostate-specific antigen (PSA). We have previously reported the affinity purification of hK2 heterologously expressed in a hamster cell line and demonstrated an arginine-restricted substrate specificity. Here, we describe the cloning, expression, purification, and enzymatic activity of a mutant form of hK2 containing an alanine to valine substitution at residue 217 ([Val217]hK2). This mutant form was secreted into the serum-free spent media of recombinant cells as the stable proenzyme form ([Val217]phK2). Mild trypsin treatment was used to convert [Val217]phK2 to the active form, which had reduced catalytic function compared to the wild-type hK2. Kinetic studies using the chromogenic substrate D-H-Pro-Phe-Arg-4-nitroanilide showed that [Val217]hK2 has significantly decreased substrate binding, with a K(m) of 4200 microM compared to 11 microM for wild-type hK2. The k(cat) for [Val217]hK2 was more than 100-fold lower than for hK2. hK2, but not [Val217]hK2, was able to activate [Val217]phK2. [Val217]hK2 also showed altered specificity on a synthetic peptide substrate compared to wild-type hK2, which exhibited partial hydrolysis at a PSA chymotrypsin-like cleavage site as well as the trypsin-like site cleaved by hK2. These results indicate that Ala217 is a key residue affecting the catalytic properties of hK2.

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OBJECTIVES: Messenger ribonucleic acid for human glandular kallikrein (hK2), a protein similar to prostate-specific antigen (PSA), is expressed in the prostate. Quantitative tests for the relative amounts of PSA in serum have become important in the diagnosis and management of patients with prostate cancer. Measurement of hK2 in serum may also serve as a diagnostic indicator of disease. The object of this study was to determine if hK2 is present in the serum of patients with high serum concentrations of PSA. METHODS: Recombinant prohK2 with an alanine to valine mutation at aa217 (phK2v217) was expressed in a hamster tumor cell line, AV12. The propeptide was treated with trypsin to yield the mature form of hK2 (hK2v217). Using a monoclonal antibody, HK1G586.1, which recognized wild type and mutant forms of pro- and mature hK2, an hK2-specific radioimmunoassay was developed. RESULTS: PSA cross-reactivity in the radioimmunoassay (RIA) was 0.23%. hK2 was detected in the sera of 51 of 76 patients with PSA levels above 100 ng/mL. The dose-response curve of hK2-positive samples was linear, and recovery of phK2v217-spiked serum samples was close to 100%. The correlation between PSA and hK2 values in the patient sera was low (r = 0.168). CONCLUSIONS: Given the importance of the role of PSA as a serologic indicator of prostate cancer, the demonstration that hK2 is also circulating in the blood of patients in different relative proportions to PSA suggests that it may be a significant novel marker for prostate cancer.

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The human kallikrein family consists of three members, hK1, hK2, and hK3 [prostate-specific antigen (PSA)]. PSA is a widely accepted marker for prostate cancer. The mRNAs for both hK2 and PSA are localized predominantly to prostate epithelium and are regulated by androgens. In addition, hK2 has 78% amino acid homology to PSA. Although similarities to PSA make hK2 a potential prostate cancer marker, they also impede biochemical characterization of hK2 in those human tissues and body fluids where PSA is abundant. To study the expression, biosynthesis, and processing of hK2, recombinant hK2 was expressed in the adenovirus-induced Syrian hamster tumor cell line AV12-664 (AV12-hK2). Expression of hK2 was analyzed by Western blots and ELISA using monoclonal antibodies HK1G 464.3 [specific for prohK2 (phK2)] and HK1D 106.4 [specific for phK2 and mature hK2 (hK2)1. Western blot and ELISA analyses showed that phK2 was secreted into the media by AV12-hK2 cells on day 1 and was gradually converted to the mature form of hK2 by day 7. N-terminal amino acid sequencing verified the Western blot and ELISA data. This demonstrates for the first time that hK2 is secreted as phK2 and converted to hK2 extracellularly. In addition, hK2 detected in day 4-7 AV12-hK2-spent media was enzymatically active. Recombinant hK2 was also expressed in human prostate carcinoma cell lines, PC3 (PC3-hK2) and DU145 (DU145-hK2), that do not express endogenous hK2 or PSA. Similar to AV12-hK2 cells, both cell lines secreted phK2 that was converted to hK2 extracellularly. phK2 was the major form detected in the spent media of PC3-hK2 cells, even after 7 days, indicating a slow conversion of phK2 to hK2. hK2 was the predominant form detected in the spent media of DU145-hK2 starting on day 1, indicating the rapid conversion of phK2 to hK2. In this study, we demonstrate that hK2 exists in different forms and is secreted as phK2. phK2 is then converted to enzymatically active hK2 extracellularly.

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Bcl-2 is an oncogene associated with prevention of apoptosis in a variety of cell types. Bcl-2 expression in B lymphoid cells prolongs antibody production, in vitro and in vivo. A line of transgenic mice (B6) has been developed that expresses human Bcl-2 in the B cells of SWR/SJL mice. B6 transgenic, nontransgenic littermates, and BALB/c mice were immunized with beta-galactosidase (B-gal) or sheep red blood cells (SRBC). The number of spleen cells recovered from immunized B6 mice was 3-4 times greater than syngeneic, nontransgenic littermates or BALB/c mice. Spleen cells from B-gal or SRBC immune B6, SWR/SJL, and BALB/c mice were fused with P3 myeloma cells to produce hybridomas. Forty-eight percent of the wells plated with fused B6 spleen cells produced B-gal-specific antibodies compared to 14% from BALB/c and 12% from SWR/SJL. Antibody-specific wells were subcloned, resulting in enhanced recovery of antigen-specific subclones with B6-derived fusions compared to controls. In the SRBC fusions, 17% of the wells plated with fused B6 spleen cells produced SRBC-specific antibodies compared to 6% for BALB/c and SWR/SJL spleens. After subcloning, B6-derived clones produced 8% positive subclones compared to 9.5% from SWR/SJL and 3.5% from BALB/c. Comparison of the isotype distribution of subclones showed a higher ratio of IgG antibodies compared to IgM from B6 mice in the B-gal fusions. IgA antibodies were recovered only from B6 mice. These data indicate that B6 transgenic mice that overexpress Bcl-2 in their B cells may be superior to other mouse strains for production of antigen-specific hybridomas.

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Based on studies indicating that human glandular kallikrein (hK2) mRNA is present in the prostate, we prepared a monoclonal antibody to a synthetic peptide corresponding to the 41-56 region of hK2 to try to identify the hK2 protein. Although prostate-specific antigen (PSA) and hK2 share 80% homology, the 41-56 amino acid sequence of hK2 is only 50% homologous with PSA. A monoclonal antibody, HK1A523, was identified that demonstrates high specificity for hK2. In western blot analysis, the antibody has a 1,000-fold greater sensitivity for the detection of hK2 than for PSA. The antibody was used to probe spent media from the prostate carcinoma cell line, LNCaP. An immunoreactive species was N-terminally sequenced and identified as mature hK2. HK1A523 was also utilized to probe prostate tumor cytosols and seminal fluid where putative forms of hK2 were also identified. The hK2 protein therefore is expressed and secreted from prostate carcinoma cells.

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Efficient introduction and expression of exogenous genes into primary B cells is very important to study B-cell biology and is essential for gene therapy. These efforts have often been impeded by the lack of availability of a simple culture condition for growth and proliferation of primary B cells as well as the lack of vehicles for efficient introduction of genes of interest. In this communication, we have developed a culture condition that supports the growth of primary B cells from beta-gal-immunized mouse spleen for 30 days without the aid of feeder layers. During this period, B cells secreted polyclonal antibodies into the medium. To study expression of an exogenous reporter gene, human growth hormone (hGH) was introduced into cultured B cells using retroviral vectors. hGH was expressed up to 21 days in the absence of drug selection and the infected cells continued to secrete immunoglobulins into the medium.

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The genomic and the cDNA clones of human glandular kallikrein (hK2), a member of the kallikrein family, have been isolated; however, the hK2 protein has not yet been identified and characterized. The deduced sequence of hK2 is highly homologous to prostate specific antigen (PSA), a widely accepted prognostic indicator of prostate carcinoma. Also, hK2 mRNA, like PSA mRNA, is exclusively expressed in prostatic epithelia. These two properties make hK2 a potentially useful marker for studying prostate cancer. In this paper, we describe for the first time the overexpression of the entire hK2 protein (pre-pro hK2:pphK2) in the E. coli system. Our system yields high levels of authentic pphK2 (as determined by partial amino acid sequence analysis) comprising about 40% of total cellular protein. pphK2 was purified to near homogeneity by preparative SDS/PAGE and used to generate anti-pphK2 antibodies in rabbits. The antibodies recognize the recombinant hK2 protein and a major band of approximately 34 kDa in seminal fluid.

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Heymann nephritis in the rat is the most widely used model of human membranous glomerulonephritis. Glycoprotein (gp)330, a large (M(r) > 550,000) membrane-associated glycoprotein, has been identified as the main antigen in this autoimmune disease. Studies of gp330 and receptor-associated protein (RAP), its 44-kd subunit, have been restricted largely to rat kidney, as no stable cultured cell line has been available that expresses gp330. We have recently identified a rat yolk sac carcinoma cell line (L2) that expresses both gp330 and RAP. In this report, we have carried out detailed morphological, immunocytochemical, and biochemical studies characterizing the biosynthesis and localization of gp330 and RAP in the L2 rat yolk sac cell line. At the electron microscope level, the L2 cells are seen to be attached by cell junctions, and their predominant morphological features include extensive networks of rough endoplasmic reticulum (ER) and numerous clathrin-coated pits found on the cell membrane. By immunocytochemistry, gp330 was localized primarily to clathrin-coated pits at the cell surface, whereas RAP was localized predominantly to the lumen of the rough ER. Pulse-chase experiments indicated that gp330 spends a prolonged time maturing in the ER of L2 cells, as transport of gp330 to the Golgi complex (based on acquisition of endoglycosidase H resistance) is slow (t1/2 = 90 to 120 minutes). Gp330 reached the L2 cell surface beginning at 2 hours after synthesis, where it could be detected by cell surface immunoprecipitation. RAP was found to be an N-linked glycoprotein, and it remained endoglycosidase H-sensitive up to 4 hours after synthesis. Co-precipitation and co-sedimentation experiments demonstrated that gp330 and RAP form a large heterodimer (M(r) approximately 669,000) immediately after biosynthesis and are further assembled into a large hetero-oligomer in the ER. These findings demonstrate that the localization and the kinetics of assembly of gp330 and RAP into the Heymann nephritis antigenic complex are similar in both L2 cells and rat kidney. They also provide new information on the intracellular processing of these two molecules and their delivery to the cell surface. Thus, the L2 cell system should facilitate further characterization of the functions and interactions of gp330 and RAP, which may shed light on the cellular and molecular mechanisms of Heymann nephritis.

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