Proluminal movement of 3H-androgen across the epididymal epithelium in the rat after hypophysectomy and gonadotropin supplementation

The effects of hypophysectomy and gonadotropin replacement on transepithelial movement of 3H-androgen in the rat epididymis were examined by in vivo microperifusion of 3H-testosterone followed by in vivo micropuncture to obtain peritubular and intraluminal fluid. In the caput epididymidis of normal rats, intraluminal 3H-androgen concentrations were approximately 300% of those in the interstitial space. In contrast, proluminal movement of 3H-androgen into rat caput epididymal tubules was significantly decreased 10 days after hypophysectomy. 3H-Testosterone movement across the caput epididymal epithelium was completely returned to normal by supplementation with 24 micrograms/day follicle-stimulating hormone (FSH) or 24 micrograms/day luteinizing hormone (LH). However, neither 0.12 micrograms/day FSH nor 250 micrograms/day prolactin returned proluminal androgen movement to normal. It is speculated that epididymal uptake of peritubular testosterone is mediated by androgen-binding protein, which is known to be secreted by Sertoli cells after stimulation by FSH or testosterone.     

Different mechanisms are responsible for 3H-androgen movement across the rat seminiferous and epididymal epithelia in vivo.

Mechanisms involved in the maintenance of the microenvironment of the seminiferous and epididymal tubules were examined in a series of experiments utilizing in vivo microperifusion, microperfusion, and micropuncture. Intraluminal 3H-androgen concentrations in seminiferous tubules increased linearly as interstitial 3H-androgen concentrations increased from 10 nM to 2,000 nM, but in caput epididymidal tubules, intraluminal 3H-androgen concentrations increased hyperbolically across the same range of peritubular 3H-androgen concentrations. Intraluminal 3H-androgen concentrations in the caput epididymidis did not rise above approximately 340 nM even if peritibular 3H-androgen concentrations exceeded 2,000 nM. Perifusion of caput tubules with 0.1 mM dinitrophenol or potassium cyanide or 100 micrograms/ml cyclohexamide significantly reduced proluminal 3H-androgen movement, but tubules perifused with control medium would not support antigrade 3H-androgen movement in the absence of native lumen fluids which contain androgen-binding protein. Antigrade proluminal 3H-androgen movement was not inhibited by competition with estradiol at ten-times 3H-androgen concentrations. Thus, energy-requiring protein synthesis is necessary for antigrade 3H-androgen movement in the caput epididymidis, but the mechanism for the interaction of intracellular protein(s) and 3H-androgen movement remains undetermined.     

On the proluminal movement of 3H-androgens across the rat epididymal epithelium

3H-Androgens in rat epididymal interstitium have previously been shown to move into the epididymal lumen against a concentration gradient. This is true especially in the caput epididymidis. The present investigation used the technique of in vivo epididymal perifusion and tubule micropuncture to demonstrate that the proluminal movement of 3H-androgens is subject to competitive inhibition (unlabeled testosterone in the perifusion fluid at 10 times and 100 times the concentration of 3H-testosterone significantly reduced proluminal movement of isotope) and is not energy-dependent (1 mM 2,4-dinitrophenol in perifusion fluid did not reduce the proluminal movement of isotope). Additionally, dry-mount autoradiography demonstrated high intraluminal concentrations of isotope relative to interstitial concentrations after caput tubule incubation in 3H-dihydrotestosterone (3H-DHT), and showed that the high intraluminal concentrations of isotope were not dependent on the presence of spermatozoa, i.e. proluminal movement of 3H-androgens was not due to binding to intraluminal spermatozoa. Isolation of caput epididymidal sperm on filters followed by 3H-DHT binding experiments also failed to demonstrate the presence of specific binding of this androgen to spermatozoa. Finally, it was confirmed that electrophoresed epididymal lumen fluid contains a single 3H-DHT binding peak that is at its highest concentration in the caput epididymal fluid. These data are consistent with the conclusion that intraluminal androgen-binding protein is an important factor in transepithelial androgen movement.     

Intraluminal androgen binding protein alters 3H-androgen uptake by rat epididymal tubules in vitro

Previous experiments have shown that androgen binding protein (ABP) and androgens exist in high concentrations in the tissue and the lumen of the rat caput epididymis. The present experiments were performed to determine whether or not intraluminal APB affects tubule net uptake of androgens. Caput epididymal tubules were dissected into 2-cm segments, subjected to microperfusion into the tubule lumen, and incubated for 2.5 h in 35 degrees C minimum essential medium (MEM) containing 2.0 ng tritiated testosterone (3H-T) per ml. 14C-polytheylene glycol [PEG] was included as a contamination marker. In the first series of experiments, caput tubules were perfused with a control, artificial perfusion (MKB) containing no ABP or fresh rat rete testis fluid (RTF), which is known to contain ABP. Tubules incubated while containing RTF took up 138% of the tritiated androgens taken up by control tubules. In the second series of experiments, tubules were perfused with fresh caput epididymal lumen content, MKB alone, MKB containing either 5.0 ng purified rat ABP/microliters or 50 ng ABP/microliters. Tubules incubated while containing perfused MKB took up only 47% of the tritiated androgens taken up by tubules containing perfused native lumen content. Increasing intraluminal ABP concentrations in the MKB medium increased 3H-androgen uptake in a stepwise fashion. Intraluminal ABP at a concentration of 50 ng/microliters was associated with a 71% return of 3H-androgen uptake towards that amount of 3H-androgen taken up by tubules perfused with native lumen content. Intraluminal ABP enhances net androgen uptake by caput epididymal tubules from their surrounding medium in vitro.     

Direct injection of foreign DNA into mouse testis as a possible in vivo gene transfer system via epididymal spermatozoa.

We have attempted to transfect testicular spermatozoa with plasmid DNA by direct injection into testes to obtain transgenic animals [this technique was thus termed "testis-mediated gene transfer (TMGT)"]. When injected males were mated with superovulated females 2 and 3 days after injection, (i) high efficiencies (more than 50%) of gene transmission were achieved in the mid-gestational F0 fetuses, (ii) the copy number of plasmid DNA in the fetuses was estimated to be less than 1 copy per diploid cell, and (iii) overt gene expression was not found in these fetuses. These findings suggest the possibility that plasmid DNA introduced into a testis is rapidly transported to the epididymis and then incorporated by epididymal spermatozoa. The purpose of this study was to elucidate the mechanism of TMGT by introducing trypan blue (TB) or Hoechst 33342 directly into testis. We found that TB is transported to the ducts of the caput epididymis via rete testis within 1 min after testis injection, and TB reached the corpus and cauda epididymis within 2-4 days after injection. Staining of spermatozoa isolated from any portion of epididymis was observed 4 days after injection of a solution containing Hoechst 33342. Injection of enhanced green fluorescent protein (EGFP) expression vector/liposome complex into testis resulted in transfection of epithelial cells of epididymal ducts facing the lumen, although the transfection efficiency appeared to be low. In vivo electroporation toward the caput epididymis immediately after injection of EGFP expression vector into a testis greatly improved the uptake of foreign DNA by the epididymal epithelial cells. PCR analysis using spermatozoa isolated from corpus and cauda epididymis 4 days after injection of a DNA/liposome complex into testis revealed exogenous DNA in these spermatozoa even after treatment with DNase I. These findings indicate that exogenous DNA introduced into tesits is rapidly transported to epididymal ducts via the rete testis and efferent ducts, and then incorporated by epithelial cells of epididymis and epididymal spermatozoa.     

Resorption versus secretion in the rat epididymis

Micropuncture samples were taken from the rete testis, caput epididymidis and cauda epididymidis of anaesthetized adult rats and assayed for total protein, sodium and potassium concentrations. Intraluminal sperm concentrations were determined and used to calculate the amount of fluid resorbed from the efferent duct and epididymal lumen. It was demonstrated that large amounts of protein (30.2 mg/ml cauda volume) and sodium (241.8 mequiv./l) and smaller amounts of potassium (19.4 mequiv./l) are resorbed from the rat epididymal lumen between the caput and corpus epididymidis. This occurs despite increases in intraluminal concentrations of protein (from 22 to 28 mg/ml) and potassium (from 16 to 50 mequiv./l). Resorption is an important aspect of epididymal control of the intraluminal environment.     

Tissue and cell specificity of immobilin biosynthesis

The mechanisms for the initiation of sperm motility have been poorly understood until recently. Immobilin is a novel mucin glycoprotein of high molecular weight found in the cauda epididymis of the rat that, at concentrations equivalent to those found in native cauda epididymal fluid, reversibly inhibits sperm motility. In this study, immobilin was purified from rat cauda epididymal fluid to apparent homogeneity and used to generate polyclonal antibody in rabbits. The antibody was characterized by immunoblotting, and immunofluorescence was used to localize immobilin in paraffin sections of components of the reproductive system of adult male rats. Immobilin was not detectable in the efferent duct and was first detectable in the apical portion of some epithelial cells of the initial segment of the caput epididymis. Immobilin was detectable intracellularly only in cells of the caput epididymis. In the corpus and cauda epididymis immobilin was detectable only in the lumen of the tubules. Immunoprecipitation of immobilin radiolabeled in vitro confirmed that immobilin biosynthesis in the adult rat is restricted to the caput epididymis. Principal cells in the caput epididymis synthesize immobilin and secrete it into the lumen of the tubules to travel with the sperm into the cauda.     

Dye permeability and alkaline phosphatase activity of testicular capillaries in the postnatal rat

Summary Staining of testicular and epididymal tissues after intravenous, intraperitoneal or subcutaneous administration of a number of dyes was investigated in rats at different stages of postnatal development. After light green injections heavy staining of both testis and epididymis was visible to the naked eye in neonatal animals up to the age of 10 days, while in rats over 15 days old no appreciable staining of the testis could be seen, although the caput epididymis was strongly coloured. From 3–8 hours after subcutaneous acriflavine administration, the nuclei in the blood vessel walls of the testis, as well as the nuclei in the rete testis, tubuli efferentes and caput epididymis, fluoresced in all age groups. The nuclei of the interstitial and tubular cells were stained intensely until the age of 5 days. Thereafter the intensity gradually diminished until the age of 20 days, when no nuclear fluorescence was visible in the seminiferous tubules and even the interstitial nuclei fluoresced weakly or not at all.The histochemical alkaline phosphatase activity of the testicular capillaries was studied by Gomori's method, using fresh and postfixed cryostat sections from postnatal rat testes. The testicular capillaries exhibited appreciable activity at the age of 10 days.On the basis of the present and previous observations on the permeability of the testicular capillaries, the existence of a blood-testis barrier in the puberal and adult rat testis is suggested.Development of the blood-testis barrier and the alkaline phosphatase activity of the testicular capillaries are suggested to reflect general vascular maturation at the beginning of puberty in the rat.Supported by grants from Yrjö Jahnsson's Foundation and P. O. Klingendahl Foundation.     

Expression of phosphatidylethanolamine-binding protein in the male reproductive tract: Immunolocalisation and expression in prepubertal and adult rat testes and epididymides

Phosphatidylethanolamine-binding protein (PBP) has been described previously in the male reproductive tract, where it has been implicated in the biogenesis and maintenance of antigen segregation of membranes. In the present study we have used a specific antiserum to PBP to determine its expression and localisation in the adult and prepubertal rat testis and epididymis by Western blotting and immunohistochemistry. In the adult rat testis, PBP was localised to step 17–19 elongating spermatids, residual bodies, and interstitial Leydig cells. In the adult epididymis, PBP was localised to epithelial cells of the caput, corpus, and cauda regions and to the cytoplasmic droplets of spermatozoa in the lumen of the initial segment, caput, and corpus epididymidis. In prepubertal animals, PBP was expressed in both testes and epididymides from day 1 and day 3 postpartum, respectively (day 3 being the earliest epididymal tissue taken). In prepubertal testes, PBP was localised to Leydig cells from day 1 postpartum and was not detected in any other cell type until the differentiation of elongate spermatids, when it was detected in step 17–19 elongating spermatids. These data suggest that PBP may be involved in the organisation of sperm membranes during spermiogenesis. The presence of PBP in Leydig cells, however, suggests diverse roles for this protein as a lipid carrier or binding protein. Mol. Reprod. Dev. 49:454–460, 1998. © 1998 Wiley-Liss, Inc.     

In vivo secretion and association of clusterin (SGP-2) in luminal fluid with spermatozoa in the rat testis and epididymis.

Clusterin (sulfated glycoprotein-2) is a heterodimeric glycoprotein synthesized and secreted by rat Sertoli cells. An antigenically similar form is synthesized and secreted by the epididymis. The goal of this study was to define the epididymal regions in which clusterin is present and the regions in which clusterin is secreted and interacts with developing spermatozoa. Seminiferous tubule (STF), caput, corpus, and cauda fluids were collected by micropuncture and/or microperfusion and two-dimensional Western blot analysis was performed with a polyclonal antibody directed against Sertoli cell clusterin. Clusterin was found in both STF and epididymal fluid. STF contained predominantly the clusterin heavy chain (45 kd); however, a 70 Kd heterodimer was present under nonreducing conditions. Two subunits of clusterin with lower molecular weights (41 kd, heavy chain; 32 kd, light chain) and higher isoelectric points were present in the luminal fluid of all epididymal regions. The intraluminal levels of the heavy and light chains decreased from caput to cauda. Analysis by two-dimensional gel electrophoresis of proteins secreted directly into the epididymal luminal fluid revealed that clusterin was secreted by caput epithelium and not by the corpus and cauda epithelium. Western blots of membrane extracts from testicular, caput, and cauda spermatozoa revealed that testicular clusterin was associated with testicular sperm and epididymal clusterin with predominantly caput sperm. Our findings suggest that clusterin is secreted into the caput epididymal lumen, where it binds to sperm and then dissociates from sperm to be endocytosed by cells of the distal epididymal epithelium.     

血管内皮生长因子蛋白在大鼠睾丸和附睾的表达和定位研究

为探讨血管内皮生长因子(VEGF)在雄性生殖系精子发生发育和成熟过程中的调控作用,应用免疫组化、Periodic acid-Schiff(PAS)染色及蛋白质免疫印迹技术,检测VEGF蛋白在成年大鼠睾丸和附睾的表达和定位情况。Western-blots显示,在大鼠睾丸和附睾内均有VEGF蛋白(约45kD)的表达;免疫组化显示,睾丸内VEGF见于圆形和长形精子细胞、Sertoli细胞和Leydig细胞,免疫阳性产物位于细胞质内。精子细胞的VEGF表达伴随精子细胞项体发育的全过程,精子残余体呈强阳性。附睾内VEGF表达于附睾管上皮,且有区域和细胞特异性。附睾起始段的所有上皮主细胞内都有VEGF阳性颗粒;头、体、尾各段的VEGF阳性细胞多数与含PAS阳性颗粒的细胞重合,证明为亮细胞;近端附睾的管腔内可见精子头部呈VEGF阳性染色。睾丸、附睾间质血管内皮为VEGF阴性。上述结果表明,VEGF蛋白可由生殖细胞和附睾管上皮细胞直接产生,它可能以自分泌和／或旁分泌的形式共同作用于睾丸和附睾的生殖细胞和血管内皮,直接或间接影响精子的发生、发育和成熟过程,特别是精子顶体的形成过程,并可能与精子在附睾内的成熟有关。     

The concentration of carnitine in the luminal fluid of the testis and epididymis of the rat and some other mammals.

Luminal fluid was collected by micropuncture techniques from the testis and epididymis of the rat, hamster, rabbit, boar and ram and the concentration of free L-carnitine in the fluid was estimated using enzymic methods. Carnitine was present in the testicular fluid of the rat in concentrations less than 1 mM but increased down the epididymis to reach 53 mM in luminal fluid from the cauda epididymidis, approximately 2000 times higher than in blood plasma. A high concentration was first found in the luminal fluid from the distal caput epididymidis, at about the point where the spermatozoa become motile. Carnitine was also present in the epididymal luminal fluid of the other species studied; the amounts were not as high as those in the rat but were still higher than those in blood plasma.     

Transient appearance of CRES protein during spermatogenesis and caput epididymal sperm maturation

In previous studies we identified an epididymal gene that exhibits homology to the cystatin family of cysteine protease inhibitors. The expression of this gene, termed CRES (cystatin-related epididymal and spermatogenic), was shown to be highly restricted to the proximal caput epididymal epithelium with less expression in the testis and no expression in the 24 other tissues examined. In this report, studies were carried out to examine CRES gene expression in the testis as well as to characterize the CRES protein in the testis and epididymis. In situ hybridization experiments revealed that within the testis CRES gene expression is stage-specific during spermatogenesis and is exclusively expressed by the round spermatids of Stages VII-VIII and the early elongating spermatids of Stages IX and X. Immunohistochemical studies demonstrated that CRES protein was transiently expressed in both the testis and epididymis. Within the testis the protein was localized to the elongating spermatids, whereas within the epididymis CRES protein was exclusively synthesized by the proximal caput epithelium and then secreted into the lumen. Surprisingly, the secreted CRES protein had completely disappeared from the epididymal lumen by the distal caput epididymidis. Western blot analysis of testicular and epididymal proteins showed that the CRES antibody specifically recognized a predominant 19 kDa CRES protein and a less abundant 14 kDa form. These observations suggest that the CRES protein performs a specialized role during sperm development and maturation. © 1995 Wiley-Liss, Inc.     

血管内皮生长因子蛋白在大鼠睾丸和附睾的表达和定位研究

为探讨血管内皮生长因子(VEGF)在雄性生殖系精子发生发育和成熟过程中的调控作用,应用免疫组化、Periodic acid-Schiff(PAS)染色及蛋白质免疫印迹技术,检测VEGF蛋白在成年大鼠睾丸和附睾的表达和定位情况。Western-blots显示,在大鼠睾丸和附睾内均有VEGF蛋白(约45kD)的表达;免疫组化显示,睾丸内VEGF见于圆形和长形精子细胞、Sertoli细胞和Leydig细胞,免疫阳性产物位于细胞质内。精子细胞的VEGF表达伴随精子细胞顶体发育的全过程,精子残余体呈强阳性。附睾内VEGF表达于附睾管上皮,且有区域和细胞特异性。附睾起始段的所有上皮主细胞内都有VEGF阳性颗粒;头、体、尾各段的VEGF阳性细胞多数与含PAS阳性颗粒的细胞重合,证明为亮细胞;近端附睾的管腔内可见精子头部呈VEGF阳性染色。睾丸、附睾间质血管内皮为VEGF阴性。上述结果表明,VEGF蛋白可由生殖细胞和附睾管上皮细胞直接产生,它可能以自分泌和/或旁分泌的形式共同作用于睾丸和附睾的生殖细胞和血管内皮,直接或间接影响精子的发生、发育和成熟过程,特别是精子顶体的形成过程,并可能与精子在附睾内的成熟有关。     

Expression and localization of PMCA4 in rat testis and epididymis

It has recently been shown in mice that the plasma membrane Ca²⁺-ATPase isoform 4 (PMCA4) is essential for sperm fertilization capacity. We analyzed whether sperm PMCA4 is formed in the rat during spermatogenesis or is synthesized in the epididymis and transferred onto sperm during sperm maturation. We could show that PMCA4 is conserved in sperm from testis to epididymis. In testis, PMCA4 mRNA was restricted to spermatogonia and early spermatocytes, while the PMCA4 protein was detected in spermatogonia, late spermatocytes, spermatids and in epididymal sperm. In epididymis PMCA4 mRNA was localized in basolateral plasma membranes of epithelial cells of the caput, corpus and cauda epididymidis. In contrast, the protein was only detectable in the epithelial cells of the caput, indicating that PMCA4 mRNA is only translated into protein in caput epithelium. In the epididymal corpus and cauda, PMCA4 mRNA and protein, respectively, was localized and in peritubular cells. Furthermore, we detected an identical distribution of PMCA4a and b splice variants in rat testis, epididymal corpus and cauda. In the caput epididymidis, where PMCA4 is located in the epithelium splice variant 4b was more prominent. Further experiments have to clarify the functional importance of the differences in the PMCA4 distribution.     

β-hexosaminidase immunolocalization and α- and β-subunit gene expression in the rat testis and epididymis

β-hexosaminidase is an essential lysosomal enzyme whose absence in man results in a group of disorders, the G_M2 gangliosidoses. β-hexosaminidase activity is many times higher in the epididymis than in other tissues, is present in sperm, and is postulated to be required for mammalian fertilization. To better understand which cells are responsible for β-hexosaminidase expression and how it is regulated in the male reproductive system, we quantitated the mRNA expression of the α- and β-subunits of β-hexosaminidase and carried out immunocytochemical localization studies of the enzyme in the rat testis and epididymis. β-hexosaminidase α-subunit mRNA was abundant and differentially expressed in the adult rat testis and epididymis, at 13- and 2-fold brain levels, respectively. In contrast, β-subunit mRNA levels in the testis and epididymis were 0.3- and 5-fold brain levels. During testis development from 7–91 postnatal days of age, testis levels of α-subunit mRNA increased 10-fold and coincided with the appearance of spermatocytes and spermatids in the epithelium; in contrast, β-subunit mRNA was expressed at low levels throughout testis development. In isolated male germ cells, β-hexosaminidase α-subunit expression was most abundant in haploid round spermatids, whereas the β-subunit mRNA was not detected in germ cells. Within the epididymis both α- and β-subunit mRNA concentrations were highest in the corpus, with 1.5-fold and 9-fold initial segment values, respectively. Light microscopic immunocytochemistry revealed that β-hexosaminidase was localized to Sertoli cells and interstitial macrophages in the testis. In the epididymis, β-hexosaminidase staining was most intense in narrow cells in the initial segment, principal cells in the caput, and proximal corpus, and clear cells throughout the duct. Electron microscopic immunocytochemistry revealed that β-hexosaminidase was predominantly present in lysosomes in Sertoli and epididymal cells. The cellular and regional specificity of β-hexosaminidase immunolocalization suggest an important role for the enzyme in testicular and epididymal functions. Mol. Reprod. Dev. 46:227–242, 1997. © 1997 Wiley-Liss, Inc.     

Intratubular hydrostatic pressure in testis and epididymis before and after long-term vasectomy in the guinea pig.

In vivo measurements of intratubular hydrostatic pressure were taken in the testis, caput epididymis, and cauda epididymis of the guinea pig before and after vasectomy. A range of from 2 to 11 cm water pressure in these locations was observed in normal animals. A significantly greater (p less than .005) mean pressure was found in the caput epididymis than in the seminiferous tubules and the proximal cauda and in the distal cauda (p less than .0005) than in the proximal cauda. Present results and similar previous results warranted examination of the transport of sperm and fluid through the male reproductive system. The presence of a significantly greater (p less than .0001) hydrostatic pressure in the distal cauda epididymis 4 months and 1 year postvasectomy than normal is a reflection of the accumulation of sperm and fluid. However, the pressures in the caput epididymis and proximal caudal tubules were insignificantly elevated. It is concluded that changes in spermatogenesis observed after long-term vasectomy in the guinea pig are unrelated to the direct transmission of the increased caudal pressure to the testis.     

Flow cytometric analysis of rodent epididymal spermatozoal chromatin condensation and loss of free sulfhydryl groups

Flow cytometric measurements were made on acridine orange (AO) and 7-diethylamino-3-(4'-maleimidylphenyl)-4-methyl-coumarin (CPM)-stained epididymal- and vas deferens-derived spermatozoal nuclei to follow the course of chromatin condensation and oxidation of free sulfhydryl groups, respectively, during passage through mouse and rat posttesticular reproductive tracts. Alterations of mouse and rat spermatozoal chromatin during transition from a testicular elongated spermatids to epididymal caput spermatozoa resulted in a threefold loss of DNA stainability with AO. Passage of spermatozoa from the caput to corpus epididymis was accompanied by an approximate 15% loss of DNA stainability, which was maintained at that level throughout passage into the vas deferens. AO stainability of epididymal spermatozoal nuclei was generally independent of -SH group stainability. CPM stainability of rat spermatozoal nuclei free -SH groups was 83%, 18%, and 11% of caput spermatozoal values for corpus, cauda epididymis, and vas deferens, respectively. Comparable values for mice were 69%, 20%, and 18%. CPM stainability was relatively homogeneous for these mouse and rat reproductive tract regions, except mouse corpus epididymis spermatozoal nuclei stained very heterogeneously. Rat spermatozoa detained by ligature up to 7 days in the caput, corpus, and cauda epididymi had CPM staining values equal to or below those of normal vas spermatozoa, indicating that disulfide (S-S) bonding is intrinsic to the spermatozoa and is independent of the epididymal environment. These data suggest that chromatin condensation and loss of spermatozoal DNA stainability during passage from the testis to the vas deferens are independent of S-S bonding.(ABSTRACT TRUNCATED AT 250 WORDS)