Immunohistochemical study of secretory IGA in the human male reproductive tract

Summary. Male human genital tract was treated for the immunohistochemical demonstration of secretory IgA in order to verify its own possible antimicrobial properties. An intensely positive immunoreaction for sIgA in the epithelial cells of prostate and urethral glands was observed; in the same organs the presence of immunoreactive cell clusters in the subepithelial layers was noted. Immunostaining in the epithelia of deferent duct, seminal vesicle, deferential ampulla, ejaculatory duct and bulbourethral glands was absent. The findings suggest that a local immune response sIgA-mediated is present in the lower male genital tract.     

Presence of neuroendocrine cells during postnatal development in rat prostate: Immunohistochemical,molecular, and quantitative study

BACKGROUND: This work was undertaken to study the prostate neuroendocrine cells (PNEC) during the post-natal development of rats. METHODS: Forty male Wistar rats (pre-pubertals, pubertals, young, and aged adults) were used for immunohistochemistry of chromogranin A (cgA), serotonin (SER), and protein gene product 9.5 (PGP9.5). They were also evaluated for numerical cell density (NV SER) and PNEC number per prostate (N SER). Five additional young adult rats were used for a RT-PCR study (mRNA cgA detection). RESULTS: Weak immunoreactivity to cgA was observed in pubertal rats. No PNEC immunostained to PGP 9.5 was observed. Cells expressing SER were detected in all the groups exclusively located in periurethral ducts. The NV SER increased significantly in pubertal animals. In aged animals, it decreased to levels observed in pre-pubertal rats. The N SER increased significantly from pre-pubertal to young adults, decreasing in aged adults. There was weak production of cgA mRNA, with more expression in the dorsal prostate. CONCLUSIONS: PNEC differ in rats when compared to humans: they are weakly immunopositive to cgA, do not express PGP 9.5, only show immunoreactivity to SER, and do not appear in acini. The changes in the amount of rat PNEC during the post-natal development suggest an androgenic influx. PNEC might regulate the contractility of periurethral ducts.     

Changes in neuroendocrine elements in bronchial mucosa in chronic lung disease in adults.

BACKGROUND--It is not clear whether there is any association between metaplasia of the bronchial epithelium and changes in the distribution of neuroendocrine cells. This study examined, by immunohistological techniques, the distribution of neuroendocrine cells and juxtamucoscal nerve fibres in bronchial biopsies showing metaplastic changes. METHODS--Bronchial biopsies from 12 subjects with epithelial metaplasia associated with bronchiectasis and diffuse pulmonary fibrosis were examined by conventional light microscopy and immunohistological techniques for protein gene product 9.5 (PGP), chromogranin A and B (CAB), serotonin, vasoactive intestinal peptide (VIP), substance P (SP), calcitonin gene-related peptide (CGRP), calcitonin (CT), and gastrin releasing peptide (GRP). RESULTS--Regions of non-metaplastic epithelium contained numerous PGP and serotonin immunoreactive cells. Sub-populations of these cells displayed CAB, CGRP, CT, and GRP immunoreactivity. Metaplastic epithelium contained only a few weakly stained PGP, serotonin, CAB, GRP, CT and CGRP immunoreactive cells in six cases. Metaplastic epithelium was characterised by a high number of CAB-containing cells in six cases and in these biopsies prominent PGP-containing nerve bundles were seen in the subepithelial layer beneath the metaplastic epithelium. CONCLUSIONS--The distribution patterns of neuroendocrine cells and neuronal elements vary between areas of normal and metaplastic epithelium and within areas of metaplastic epithelium. Neuronal hyperplasia was associated with an increase in the number of CAB-containing cells within the metaplastic epithelium.     

Neurogenic origin of human prostate endocrine cells

OBJECTIVES: To determine the histogenetic origin of prostate neuroendocrine cells in human embryos. METHODS: Prostatic tissue in human fetuses, ranging in gestational age from early week 10 to term, and infantile and pubertal glands were studied immunohistochemically. The distribution of neuroendocrine cells within the developing gland was semiquantitatively determined. Antibodies against the neuroendocrine markers chromogranin A (CgA) and protein gene product 9.5 (PGP), along with markers of prostatic secretion (prostate-specific antigen [PSA], prostatic acid phosphatase [PAP]), were used. They were applied either individually or in double-labeling experiments, as well as in experiments combining CgA immunohistochemical analysis with in situ hybridization or in situ end-labeling. RESULTS: In embryos of less than 65-mm crown-rump length (CRL) (ie, younger than 12 weeks of gestation), the epithelium of the urogenital sinus was free of endocrine cells. On either side of the future prostatic mesenchyme, paraganglia containing CgA-immunoreactive cells are present, which start to penetrate the urogenital mesenchyme. In the late 10th week, these CgA-immunoreactive cells are found dispersed in the urogenital mesenchyme. In embryos of 65-mm CRL, when prostatic anlagen start to sprout from the urogenital epithelium, very few (but typically shaped) neuroendocrine cells appear in the urogenital sinus epithelium. Later, after the 12th week, when solid prostatic ducts have started forming, CgA-immunoreactive neuroendocrine cells are also present in these buds. The number of neuroendocrine cells in the urethral epithelium is considerably increased, and with the continuous sprouting and lumen formation of prostatic anlagen, neuroendocrine cells are transported into the future gland. Neuroendocrine cells observed in stroma of prenatal and postnatal prostates may also contribute to the neuroendocrine cell population of the gland. CONCLUSIONS: Our results provide the first evidence that human prostate neuroendocrine cells represent a cell lineage of their own, being of neurogenic origin and therefore distinct from the urogenital sinus-derived prostate secretory and basal cells.     

Human prostate cancer cells express neuroendocrine cell markers PGP 9.5 and chromogranin A

BACKGROUND: A proportion of men with prostate cancer will progress to develop metastatic disease involving the lymph-nodes and bone. To identify novel candidates associated with metastatic progression, we compared the proteomic profiles of LNCaP (lymph-node metastatic, androgen-dependant) and PC-3 (bone metastatic, androgen-independent), human prostate cancer cells. METHODS: Two-dimensional polyacrylamide gel electrophoresis (2D-PAGE), followed by electrospray ionisation tandem mass spectrometry (ESI-MS/MS), was used to identify differentially expressed proteins. Western blotting was used to validate the identity of any candidates. Immunohistochemistry was used to assess tissue expression. RESULTS: 2D-PAGE followed by ESI-MS/MS analyses identified the expression of glutathione S-transferase-pi (GST-pi) and protein gene product 9.5 (PGP 9.5) in PC-3 cells, but absent expression in LNCaP cells. PGP 9.5 expression in PC-3 cells was confirmed by Western blotting, in addition to expression in DU145 cells. Analysis of cell conditioned media showed that PGP 9.5 was secreted. Sequencing of the PGP 9.5 gene promoter region in bisulfite modified DNA, suggested that the regulation of expression involves promoter hypermethylation. RT-PCR analysis for Chromogranin A (ChA) mRNA (a marker of neuroendocrine cells), showed expression in PC-3 and DU145 cells but was undetectable in LNCaP cells. Immunohistochemistry localised PGP 9.5 expression exclusively within neuroendocrine cells and nerve fibres. CONCLUSIONS: Our unexpected finding that the neuroendocrine cell markers PGP 9.5 and ChA are expressed by PC-3 and DU145 cells, suggests that these cells may have been derived from metastatic adenocarcinomas which had undergone neuroendocrine differentiation or alternatively the expression occurred ectopically as a result of cell culture.     

Neuroendocrine expression in node positive prostate cancer: correlation with systemic progression and patient survival

PURPOSE: Neuroendocrine cells are ubiquitous but uncommon in benign and neoplastic prostate epithelium, and they are considered important for regulating cell growth and differentiation. The predictive value of neuroendocrine immunoreactivity for patient outcome after radical prostatectomy is uncertain. In this study we determined the expression of 2 important neuroendocrine markers, chromogranin and serotonin, in benign epithelium, primary prostate cancer and lymph node metastases, and correlated cellular expression with patient outcome. MATERIALS AND METHODS: We studied 196 patients with node positive prostate adenocarcinoma who underwent bilateral pelvic lymphadenectomy and radical prostatectomy at Mayo Clinic between 1987 and 1992. Mean followup was 6.8 years (range 0.3 to 11). The cellular expression of chromogranin and serotonin in matched samples of benign tissue, primary prostate cancer and lymph node metastases from the same patients was evaluated by immunohistochemical staining using commercially available monoclonal antibodies. Results were correlated with patient age, pathological findings (Gleason score, DNA ploidy and cancer volume) and patient outcome, including clinical progression, cancer specific and all cause survival. RESULTS: Chromogranin immunoreactivity was greater in benign prostatic epithelium and primary cancer cases (99% each) than in those of lymph node metastases (37.5%) (pairwise comparisons with metastases p <0.001). The mean incidence of immunoreactive cells in benign epithelium, primary cancer and metastases was 6% (median 5%), 6% (median 3%) and 2.2% (median 0%), respectively. Serotonin immunoreactivity was greatest in benign prostate epithelium cases (98.5%) with less in primary cancer (95%) and lymph node metastases (21.5%) (pairwise comparisons p <0.001). The mean incidence of immunoreactive cells in benign epithelium, primary cancer and metastases was 2.2% (median 3%), 2.4% (median 2%) and 0.4% (median 0%), respectively. Chromogranin expression was invariably greater than that of serotonin for all 3 diagnostic categories (p <0.0001). There was a marginally significant positive trend in the level of chromogranin expression in benign prostatic epithelium and systemic progression (p = 0.05) but no significant association with cancer specific or all cause survival (p >0.1). No significant association was observed of chromogranin expression in primary cancer or lymph node metastases with any patient outcomes (p >0.1). There was a significant association of the level of serotonin expression in benign prostatic epithelium with cancer specific survival (p = 0.03) but no significant association with systemic progression or all cause survival (p > 0.1). There were positive trends in the association of serotonin immunoreactivity in primary cancer with systemic progression (p = 0.09) and cancer specific survival (p = 0.05) but not with all cause survival (p >0.1). No significant association was observed of serotonin expression in lymph node metastases with any patient outcomes (p >0.1). CONCLUSIONS: Benign prostatic epithelium and primary prostate cancer express a significantly greater number of chromogranin and serotonin immunoreactive cells than lymph node metastases, suggesting that decreased expression of neuroendocrine markers is involved in cancer progression. However, neuroendocrine expression was marginally useful for predicting the outcome in patients with node positive prostate cancer treated with radical prostatectomy.     

Semiquantitative morphology of human prostatic development and regional distribution of prostatic neuroendocrine cells

BACKGROUND: The neuroendocrine cells of the human prostate have been related to proliferative disorders such as prostatic cancer. Their origin, distribution, and development have therefore been studied and discussed in terms of current stem cell concepts in the prostate. METHODS: Prostatic tissue specimens (n = 20) from human fetuses (n = 8), prepubertal and pubertal children (n = 8) and mature men (n = 4) were studied immunohistochemically using antibodies directed against neuroendocrine, epithelial as well as secretory markers. Semiquantitative computer-assisted evaluation of different epithelial and stromal components based on stereological principles was performed on azan-stained sections representative of all developmental stages. RESULTS: By the end of gestational Week 9, neuroendocrine (NE) cells appear in the epithelium of the urogenital sinus and are subsequently closely associated with the formation of urethral prostatic buds. The fetal and postnatal distribution pattern of NE cells within the gland is characterized by a relatively constant number of cells per gland similar to prostatic smooth muscle cells. Likewise, a density gradient exists with the highest density in the large collicular ducts and almost no NE cells in subcapsular peripheral acini. In peripheral ducts, the distribution is random. Maturation of the NE cells precedes that of the secretory cells by about 10-16 years. CONCLUSIONS: A second prostatic stem cell lineage, different from the urogenital sinus (UGS)-lineage is hypothesized originating from immature neuroendocrine cells. Being morphologically indistinguishable from the UGS-derived prostatic secretory cell lineage, it gives rise to neuroendocrine cells. Their presence is apparently important for proliferation regulation of the UGS-derived lineage of the prostate.     

Endocrine-paracrine (APUD) cells of the human female urethra and paraurethral ducts

The distribution, immunostaining profile and ultrastructural morphology of human female urethral and paraurethral endocrine-paracrine (APUD) cells was studied. Five urethras obtained from radical cystectomy specimens were stained with antisera to serotonin, neuron-specific enolase, chromogranin, bombesin, calcitonin, somatostatin, prostatic acid phosphatase, prostatic specific antigen and with the Churukian-Schenk argyrophil method. Numerous endocrine-paracrine cells were observed along the entire length of resected urethra, with these cells most numerous in the paraurethral ducts. The endocrine-paracrine cells were positive for serotonin, neuron-specific enolase, chromogranin and the argyrophil reaction. Scattered bombesin and very rare calcitonin immunoreactive cells were noted. The endocrine-paracrine cells were of the open (luminal extensions) and closed cell types and often had multiple long dendritic processes suggesting a primarily paracrine function. By electron microscopy the secretory granule morphology was highly variable. Autonomic innervation of endocrine-paracrine cells was noted. The relationship of female urethral and paraurethral endocrine-paracrine cells to those of the male prostate and urethra is discussed with speculation as to the functional role these cells may play.     

Amphiregulin expression in prostatic intraepithelial neoplasia and adenocarcinoma: a study of 93 cases

BACKGROUND: Amphiregulin (AMP) is a heparin-binding glycoprotein that is structurally and functionally related to epidermal growth factor. Its effects are mediated by the tyrosine kinase activity of the epidermal growth factor receptor (EGF-R), and specific nuclear targeting sequences. AMP induces cell proliferation after androgen stimulation of human prostate cancer cell lines. An autocrine proliferative loop involving AMP, androgen, and EGF-R may, therefore, play a role in prostatic carcinogenesis. The purpose of this study was to compare the expression of AMP in benign prostatic epithelium, high-grade prostatic intraepithelial neoplasia (PIN), and adenocarcinoma. METHODS: We performed an immunohistochemical study of select sections from 93 radical prostatectomies performed at the Mayo Clinic between 1987 and 1991. All patients were previously untreated and found to have pathologic stage T2N0M0 adenocarcinoma after routine handling of surgical specimens. Affinity-purified polyclonal antibody directed against AMP was applied to tissue sections using the streptavidin-biotin method. For each case, the percentage of immunoreactive cells in benign epithelium, PIN, and adenocarcinoma was estimated in 10% increments. Intensity on a scale from 0 (negative) to 3 (strongly immunoreactive) and pattern of expression (nuclear versus cytoplasmic) also were recorded. RESULTS: AMP immunoreactivity was present in benign prostatic epithelium, PIN, and prostatic adenocarcinoma in all cases. The mean percentage of AMP-immunoreactive cells was 53.8% in benign epithelium, 65.9% in PIN, and 74.3% in cancer. Intensity was moderate in all cases. The pattern of expression was usually nuclear in benign epithelium (secretory and basal cells), and usually cytoplasmic or nuclear and cytoplasmic in PIN and adenocarcinoma. There were rare scattered immunoreactive cells in the stroma, ejaculatory duct epithelium, and urethral urothelium. Endothelial cells were invariably unstained. CONCLUSIONS: AMP expression in prostate increases progressively from benign epithelium to PIN and cancer. Increased expression of AMP may contribute to the development of prostatic adenocarcinoma. Predominantly nuclear staining was observed in benign epithelium, whereas cytoplasmic or nuclear and cytoplasmic staining was observed in PIN and adenocarcinoma. The differences in nuclear and cytoplasmic localization of immunoreactivity may reflect the presence of two pathways of activation, and hence varying biological functions of AMP.     

Stereological quantification of nerve fibers immunoreactive to PGP 9.5, NPY, and VIP in rat prostate during postnatal development

This work was undertaken to study prostate innervation during the postnatal development of rats. It deals with the quantification of nervous fibers throughout all the regions of the rat prostate during the postnatal development using a general marker for nervous tissue, protein gene product 9.5, and 2 neuropeptides (NPY and VIP). Forty male Wistar rats (prepubertals, pubertals, young, and aged adults) were studied for immunohistochemistry of protein gene product (PGP 9.5), neuropeptide Y (NPY), and vasoactive intestinal polypeptide (VIP). They were also evaluated for length density of nerve fibers (L(V) PGP 9.5, L(V) NPY, L(V) VIP). Nerve fibers immunoreactive to the 3 antigens studied were detected in all the groups and in all the prostate zones. Periductal L(V) NPY evidenced a significant increase in the pubertal group, maintained throughout adult life. Periductal L(V) VIP showed a significant increase in young adults. The length densities of VIP and NPY fibers were significantly higher in periductal and ampular locations in comparison with dorsal and ventral sites. It can be concluded that the relative amount of nerve fibers in rat prostate, detected by PGP 9.5, does not change during postnatal development. There were significant changes in NPY and VIP fibers, showing an increase in periurethral ducts at puberty. The abundance of peptidergic innervation around the excretory ducts is related to their contractility. The development of innervation of periurethral ducts is regulated by androgens.     

Immunological characterization and activity of transglutaminases in human normal and malignant prostate and in prostate cancer cell lines

Using biochemical assays, we compared enzyme activities with the immunoreactivity of antibodies against rat seminal transglutaminase (TGase), human erythrocyte TGase and guinea pig liver TGase in human normal prostate, primary prostatic carcinomas and prostatic carcinoma cell lines. Glandular cells of the epithelium were only exceptionally positive with the antibody against (rat) secretory TGase. Using the antibodies against tissue-type TGase, most immunoreactive cells were found in the basal cell layer of prostatic epithelium as well as in stroma (fibroblasts, endothelial cells), whereas immunoreactive glandular cells were sparse. In the case of benign prostatic hyperplasia, few, irregularly distributed secretory cells along with a small number of stromal cells were also immunoreactive with the tissue-type TGase antibody. In dedifferentiated carcinomas, immunoreactive cells were nearly completely absent. Of the prostate cancer cell lines, the LNCaP line showed neither TGase enzyme activity nor immunoreactivity, whereas the PC-3 cell line displayed significant enzyme activity and immunoreactivity. No hormone-dependent changes in either enzyme activity or immunoreactivity were recorded after in vitro treatment of the respective cell lines with estrogens, androgens and antiandrogens. As there is no correlation between androgen deprivation and TGase expression in nonmalignant and malignant human prostatic epithelial cells, TGase activity more likely indicates cellular lesions and consecutive repair mechanisms.     

Vascular endothelial growth factor expression and capillary architecture in high-grade PIN and prostate cancer in untreated and androgen-ablated patients

BACKGROUND: Recent studies have demonstrated that angiogenesis is a potent prognostic indicator for patients with prostate cancer (PCa) and have pointed out that the evaluation of vascular endothelial growth factor (VEGF) is useful in assessing the angiogenic phenotype in PCa. The aim of the study was to investigate immunohistochemically the expression of VEGF and its correlation with the pattern of capillary architecture in prostate cancer and high-grade prostatic intraepithelial neoplasia (PIN), in untreated and androgen-ablated patients. METHODS: Forty-five patients who underwent radical prostatectomy (RP) for localized prostate carcinoma were recruited for this study. The study population included two groups: 35 patients who did not receive chemo-, hormone, or radiation therapy before surgery, and 10 patients who were under complete androgen blockade (CAB) for 3 months at time of surgery. VEGF was examined by immunohistochemistry, and its tissue expression was compared with the pattern of capillary architecture evaluated by immunostaining the endothelial antigen CD34. The relationship of VEGF expression to chromogranin A-positive (e.g., neuroendocrine) cells was investigated. RESULTS: In normal tissue, the intensity of the VEGF immunoreactivity in the cytoplasm of secretory cells ranged from negative to low. Very few basal cells stained for VEGF. All prostate cancer specimens stained positively, the intensity of the immunoreaction ranging from low to strong and being correlated with the Gleason score. Strongly positive VEGF immunoreactivity was detected in vascular endothelial cells and in stromal cells surrounding blood vessels. Two discrete immunostaining patterns were observed in high-grade PIN. VEGF expression of low-to-moderate intensity was defined as pattern A. The other, characterized by a strong cytoplasmic immunoreaction similar to that of poorly differentiated tumors, was defined as pattern B. The capillary architecture in high-grade PIN with pattern A was similar to the orderly vascular network seen in normal prostates, whereas in the pattern B it had the characteristics of microvessels usually seen in PCa. The degree of vascularization in the stroma adjacent to intensely VEGF-stained cells (neuroendocrine phenotype) was higher than that noted in association with secretory cells. CAB before surgery downregulated the expression of VEGF and decreased the degree of vascularization, except in the cell areas with neuroendocrine (NE) features. CONCLUSIONS: Our immunohistochemical results indicate that significant levels of VEGF are present in prostate cancer and in a population of PIN lesions, expression being highest in association with NE cells. VEGF expression is downregulated by hormonal manipulation, except in the population of NE cells.     

The prevalence of cystic abnormalities of the prostate involving the ejaculatory ducts as detected by transrectal ultrasound

Purpose To determine the prevalence of cystic lesions of the prostate involving the ejaculatory ducts using transrectal ultrasound (TRUS). Materials and methods The prevalence of cystic lesions of the prostate involving the ejaculatory ducts was determined in a prostate cancer screening group and also in an “at risk” population of men with infertility. Results Cystic lesions of the prostate involving the ejaculatory ducts as detected by TRUS were detected in 5.0% (20 of 400 consecutive men) in a prostate cancer screening population. In contrast, these abnormalities were present in 17.0% (23/135) of the “at risk” infertile men who had TRUS performed. Conclusions This is the largest series to date defining the prevalence of TRUS-identified cystic lesions of the prostate in a non-infertility population. While cystic lesions of the prostate involving the ejaculatory duct are uncommon in an otherwise healthy and fertile male, their prevalence increases in infertile men whose examination and semen analyses make them “at risk” for having ductal obstruction.     

Aberrant expression of cystatin C in prostate cancer is associated with neuroendocrine differentiation

OBJECTIVE: To investigate the expression of cystatin C and the relationship with neuroendocrine differentiation and proliferation in benign and malignant prostatic tissues, as cystatin C, the most important inhibitor of human lysosomal cysteine proteases, is considered to be a major regulator of pathological protein degradation in inflammatory and neoplastic diseases. MATERIALS AND METHODS: Immunoreactivity for cystatin C, prostate-specific antigen, Ki-67 and the neuroendocrine marker chromogranin A was examined in whole-mount radical prostatectomy specimens and using tissue microarrays. Cystatin C in tissue homogenates was analysed by Western blotting and enzyme-linked immunosorbent assay (ELISA). The expression and relative levels of cystatin C mRNA were assessed by in situ hybridization and quantitative real-time polymerase chain reaction (QRT-PCR). RESULTS: The intensity of cystatin C immunostaining in Gleason grade 2 and 3 prostate cancer was significantly higher than in benign prostatic tissues, but decreased significantly with increasing Gleason grades. There was strong expression of cystatin C in neuroendocrine-like cells, which increased significantly with increasing Gleason grades. The Ki-67 immunoreactivity also increased significantly during de-differentiation. In situ hybridization showed staining patterns in concordance with the immunohistochemical results. ELISA showed high concentrations of cystatin C in benign and malignant tissue extracts and QRT-PCR further corroborated that the cystatin C gene is highly expressed in both benign and malignant prostatic tissues. CONCLUSIONS: There was a significant decrease in the immunohistochemical expression of cystatin C in non-neuroendocrine prostate cancer cells, concomitant with increasing Gleason grades. That there were more strongly cystatin C-positive neuroendocrine-like cells in prostate cancer than in benign prostatic tissue suggests a connection between cystatin C and neuroendocrine differentiation in prostate cancer progression.     

Composite glandular-neuroendocrine carcinoma of the hilar bile duct: Report of a case

4 , S₅) and bile duct resection with lymphnode dissection were performed. A tumor measuring 6.0 3 3.0 cm was found to be located in the bile duct of the hepatic hilus. Histologically, the tumor was composed of well-differentiated adenocarcinoma and small cell neuroendocrine carcinoma cells, with a histological transition between the two components. Grimelius' method revealed the presence of diffuse positive tumor cells in neuroendocrine carcinoma. The neuroendocrine tumor cells were also diffusely immunoreactive to chromogranin A. To the best of our knowledge, only 22 previous cases of composite glandular-neuroendocrine carcinoma in the biliary tract have been reported; however, this is the first case report of a clearly composite tumor of the hilar bile duct. (Received for publication on Aug. 19, 1996; accepted on May 12, 1997)     

Ultrasound anatomy of the prostate: the normal gland and anatomical variations

Knowledge of the normal prostatic anatomy is paramount to understanding the pathological conditions of the gland observed on ultrasound imaging. Through transverse and sagittal histological sections of normal prostates, model ultrasound images of the prostate and periprostatic tissues were constructed. Various shades of gray were assigned to these structures depending upon the histological composition. We found that ultrasonic characteristics of the normal prostate and its surrounding tissues could be predicted accurately by knowledge of the histology of these structures. Histological sections of 100 prostates from patients who underwent transrectal ultrasound and subsequent radical prostatectomy for prostate cancer were examined. The congenital anatomical variations observed in this group are described histologically and sonographically. Caudal formation of the ejaculatory ducts within the central zone occurred in 18% of the cases, abnormal posterior penetration of the ejaculatory ducts at the rectal surface in 12% and abnormally large muscle bundles with the ejaculatory duct sheath in 6%. Concomitant ejaculatory duct and seminal vesicle dilatation was observed in 5% of the patients, whereas dilated ejaculatory ducts alone, dilated seminal vesicles alone and cystic utricles each were seen in 2%.     

Protein gene product 9.5 is selectively localized in parietal epithelial cells of Bowman's capsule in the rat kidney

Parietal epithelial cells (PEC) of Bowman's capsules cover the inner aspect of Bowman's capsules and are believed to contribute to extracapillary lesions of glomerulonephritis such as crescent formation. In glomerular research including cell culture experiments and pathology, differentiation between PEC and podocytes has frequently been a major problem. Immunohistochemistry of the adult rat kidney for protein gene product 9.5 (PGP 9.5), a neuron-specific ubiquitin C-terminal hydrolase, demonstrated selective localization of the immunoreactivity in PEC. At the urinary pole of the glomerulus, immunoreactive PEC were clearly differentiated from proximal tubular cells that were negative for PGP 9.5. In the subcapsular nephrogenic zone of newborn rat kidney, immunoreactivity was observed in almost all cells in the commashaped body and early S-shaped body and selectively in PEC in the late S-shaped body and capillary-stage glomerulus. In rat glomerular disease models (Masugi-nephritis and puromycin aminonucleoside nephrosis), cells that consisted of cellular crescents or adhered to glomerular tufts were positive for PGP 9.5. The selective localization of PGP 9.5 in PEC in rat kidney provides a new cytochemical marker for identifying the cells. Development expression of the protein suggests that PGP 9. 5 is involved in the processes of nephrogenesis of rat kidney.     

Neuroendocrine cells during human prostate development: does neuroendocrine cell density remain constant during fetal as well as postnatal life?

BACKGROUND: Knowledge concerning differentiation of neuroendocrine (NE) cells during development of the human prostate is rather fragmentary. Using immunohistochemistry combined with a morphometric method, we investigated the distribution and density of NE cells in the developing human prostate, with special emphasis on the topographical relationship of NE cells with the developing gland. METHODS: Consecutive sections from a total of 42 human prostates taken during autopsy of fetuses (12-38 weeks of gestation), prepubertal males, and young adults were immunostained for chromogranin A and serotonin. Computer-assisted image analysis was used to assess the total number of cells in the different parts of the branching glandular anlage, i.e., budding tips and acini/ducts. Next, the number of NE cells was counted manually. The NE cell density (NE cell index) was then determined. RESULTS: NE cells could first be detected in the prostate from 13 weeks of gestation. By 21 weeks of gestation, all prostates contained NE cells. NE cells were mainly confined to the acinous/ductal regions, while most of the budding tips lacked NE staining. NE cell indexes of individuals were highly variable, mostly in the youngest age group. CONCLUSIONS: In the normal prostate, NE cell density probably remains constant in acini/ducts from fetuses to young adulthood. The presence of neuroendocrine cells in well-developed glandular structures at such an early fetal age and their absence in the less differentiated budding tips possibly indicates that differentiation of NE cells is associated with glandular maturation. NE cells occur preferentially in the acinous/ductal region, implying a paracrine function during secretory differentiation of exocrine epithelial cells.