Gene expression during mammalian spermatogenesis. II. Evidence for stage-specific differences in mRNA populations

Gene expression during murine spermatogenesis has been studied using highly enriched populations of cells obtained by velocity sedimentation at unit gravity and further purified by density gradient centrifugation through Percoll. Polypeptides whose synthesis was directed by total cytoplasmic RNA from round spermatids, pachytene spermatocytes, primitive type A spermatogonia, and Sertoli cells in cell-free translation systems have been compared by two-dimensional polyacrylamide gel electrophoresis, followed by fluorography. At the level of detection provided by the electrophoretic methods used, each population of cells contained mRNAs encoding over 200 polypeptides, many of which were present in high abundance in all four cell types. However, for each cell type examined, a minimum of 5-10% of these polypeptides appear to be either specific to or greatly enriched within a particular cell type. Analysis of the polysomal and nonpolysomal cell fractions from pachytene spermatocytes and round spermatids revealed that the two compartments share many identical mRNAs but specific mRNAs are selectively compartmentalized between the cell fractions and between the two cell types. Movement between compartments was seen; e.g., some polypeptides encoded by mRNA found primarily in the nonpolysomal fraction of pachytene cells were later seen in the polysomal fraction from round spermatids. Virtually every other combination was also observed. These results suggest that the control of gene expression at the level of selective production of mRNA and selective utilization of mRNA are among the mechanisms involved in regulation of spermatogenic cell differentiation.     

DNA polymerase-beta and poly(ADP)ribose polymerase mRNAs are differentially expressed during the development of male germinal cells.

We have examined the steady-state mRNA levels in spermatogenic cells of two nuclear enzymes that appear to be involved in DNA repair, DNA polymerase-beta (pol-beta) and poly(ADP)ribose polymerase (PADPRP). Two pol-beta mRNAs of 1.3 kb and 1.4 kb were detected in extracts from mouse testes. In leptotene/zygotene spermatocytes a low level of the 1.4-kb mRNA was observed. Both pol-beta mRNAs were found in meiotic pachytene spermatocytes, with the 1.3-kb form being more abundant. In contrast, the 1.4-kb form was more abundant in haploid round spermatids. Polysome gradient analyses indicated that the two pol-beta mRNAs were predominantly present in the nonpolysomal fractions of spermatocytes. In round spermatids, a larger fraction of the 1.4-kb pol-beta mRNA was associated with polysomes, correlating well with the higher levels of pol-beta enzyme detected during spermiogenesis. The pattern of PADPRP mRNA expression differed from the expression of pol-beta mRNA. The two PADPRP mRNAs of 3.7 and 3.8 kb were present in type A and type B spermatogonia, reached their highest levels in pachytene spermatocytes, and were greatly reduced in haploid round and elongating spermatids. Most of the pachytene spermatocyte PADPRP and mRNAs were present in polysomes, whereas a greater percentage of PADPRP mRNAs in round spermatids were detected in the nonpolysomal fractions. This finding correlates with the immunocytochemical nuclear localization of this enzyme in pachytene spermatocytes. These data demonstrate that different developmental patterns of mRNA expression and translational regulation exist for the pol-beta and PADPRP mRNAs during differentiation of male germinal cells.     

Enrichment of primary pachytene spermatocytes from the human testis

Normal adult human testis has been separated using a combination of mechanical and enzymatic procedures to yield a suspension of viable single cells. The predominant cell types comprising this suspension are as follows: primary pachytene spermatocytes (7% of total cells), round spermatids (17%), residual bodies and condensing spermatids (31%), and Leydig cells (15%). Separated human germ cells viewed by Nomarski differential interference microscopy closely resemble mouse spermatogenic cells in relative size and appearance. Isolation of an enriched population of human pachytene spermatocytes has been achieved using unit gravity sedimentation (STA-PUT) according to protocols originally developed for murine tissue. Pachytene cells are enriched to 75% and are contaminated only with Leydig cells and binucleated spermatid symplasts. Ultrastructural examination of isolated human pachytene spermatocytes indicates that these cells, as well as isolated round spermatids, exhibit a normal in situ morphology. Spermatocytes, for example, show numerous synaptonemal complexes, nuclear pores, annulate lamellae, and dictyosome-like saccules. Round spermatids after isolation exhibit peripheral mitochondria, annulate lamellae, developing acrosomes, and other morphological features characteristic of early spermiogenesis. Therefore, enriched populations of human spermatogenic cells seem suitable for analysis using immunofluorescent, autoradiographic, or serological methods. In particular, isolated human spermatocytes should be useful for the analysis of molecular events involved in meiosis and should facilitate investigations concerning the pathophysiology of certain human infertility conditions.     

Expression of key substrate cycle enzymes in rat spermatogenic cells: fructose 1,6 bisphosphatase and 6 phosphofructose 1-kinase

A substrate cycle composed of phosphofructo 1-kinase I (PFK) and fructose 1,6 bisphosphatase I (FBPase) has been proposed in rat spermatids. This substrate cycle can explain the ability of glucose to induce a decrease in intracellular ATP, a phenomenon that was related to regulation of [Ca(2+)]i in these cells. In spite of the importance of this metabolic cycle, the expression and activities of the enzymes that compose such cycle have not been systematically studied in spermatogenic cells. Here, we show that PFK and FBPase activities were present in pachytene spermatocytes and round spermatids extracts. Expression of PFK at the mRNA and protein levels showed a relatively similar expression in spermatogenic cells, but a stronger expression in Sertoli cells. Instead, expression of FBPase at the mRNA and protein levels was stronger in round and elongating spermatids as compared to other spermatogenic cells. A similar pattern was observed when evidencing FBPase activity by a NADPH-nitroblue tetrazolium-linked cytochemical assay in isolated pachytene spermatocytes and round spermatids. Rat spermatids also showed the ability to convert lactate to fructose- and glucose-6-P, indicating that both glycolytic and gluconeogenic fluxes are present in these cells. Our results indicate that a coordinated expression of key substrate cycle enzymes, at the level of PFK/FBPase, appear in the last stages of spermatogenic cell differentiation, suggesting that the co-regulation of these enzymes are required for the ability of these cells to respond to glucose and induce metabolic and Ca(2+) signals that can be important for sperm development and function.     

Developmental program of PGK-1 and PGK-2 isozymes in spermatogenic cells of the mouse: Specific activities and rates of synthesis

The specific activities and synthesis of the ubiquitous isozyme, PGK-1, and the testis-specific isozyme, PGK-2, have been quantitated and localized in spermatogenic cells of the mouse. There is a fivefold increase in total PGK specific activity between immature and adult testes which begins at approximately 30 days of age, coincident with the appearance of late-middle stage spermatids. The increase in total PGK is entirely due to the appearance and increase of the PGK-2 isozyme. Rates of PGK synthesis were measured by labeling testicular cells in vitro with [³H]leucine and purifying the PGK isozymes. When total testicular cells were examined, PGK-2 synthesis was detectable after 22 days of age at very low levels and increased in older testes to a level of 0.5% of total protein synthesis. PGK-1 synthesis remained relatively constant at all ages at a level 100-fold lower (0.005%). Testicular cells were separated into highly enriched fractions of particular spermatogenic stages by centrifugal elutriation. The PGK-1 synthesis rates were, again, very low and not significantly different between the various spermatogenic stages. PGK-2 synthesis was low to nondetectable in pachytene spermatocytes, increased to 0.07% in early spermatids and represented 0.7% of total protein synthesis in late spermatids. This increased rate of PGK-2 synthesis appears to require an increase in the amount of PGK-2 mRNA in late spermatids, cells in which no active RNA synthesis is detectable.     

Acrosin biosynthesis in meiotic and postmeiotic spermatogenic cells.

It has been widely accepted that mammalian sperm acrosin is first synthesized only in the postmeiotic stages of spermatogenic cells. In this study, we carried out Northern blot analysis of RNAs prepared from purified populations of mouse spermatogenic cells. The acrosin mRNA was obviously found in meiotic pachytene spermatocytes, and the mRNA content markedly increased in postmeiotic round spermatids. Also, the acrosin mRNA in pachytene spermatocytes was functionally associated with polysomes. These results provide evidence that acrosin biosynthesis is already started in meiotic cells and continues through the early stages of spermiogenesis.     

Developmental changes in cyclin B1 and cyclin-dependent kinase 1 (CDK1) levels in the different populations of spermatogenic cells of the post-natal rat testis

Spermatogenesis is a highly ordered process which requires mitotic and meiotic divisions. In this work, we studied the relative changes in the levels of the two components of the M-phase promoting factor (MPF): the regulatory subunit cyclin B1 (CycB1) and its catalytic subunit cdk1, in spermatogenic cells of rats between 16 and 90 days of life. A multivariate flow cytometry analysis of forward scatter (FSC), side scatter (SSC) and DNA content was used to identify six populations of rat germ cells: spermatogonia with preleptotene spermatocytes, young pachytene spermatocytes, middle to late pachytene spermatocytes, secondary spermatocytes with doublets of round spermatids, round spermatids, and elongated spermatids. For any population studied no significant difference in the relative cellular content of CycB1 or cdk1 proteins between animals of different ages was observed. By contrast, CycB1 and cdk1 levels were different between the different populations of germ cells. CycB1 and cdk1 were rather high in young pachytene spermatocytes and culminated in late spermatocytes, i.e. just before the first meiotic division. The relative levels of the two proteins remained high in secondary spermatocytes then decreased in round spermatids at the exit of meiosis. Similar results were obtained by Western-blot analysis of total proteins obtained from lysates of elutriated fractions of spermatocytes and spermatids. MPF activity was assessed in lysates of germ cells from 32-day-old rats or adult animals using p13suc1 agarose and histone H1 as an exogenous substrate. H1 kinase activity was higher in pachytene spermatocytes than in round spermatid fractions from both adult and young rats. These results indicate that the meiotic G2/M transition is associated to high levels of CycB1 and cdk1 leading to high MPF activity irrespective of the age of the animals.     

Human spermatogenic cell marker proteins detected by two-dimensional electrophoresis

Highly homogeneous populations of human pachytene spetmatocytes and round spermatids have been obtained from normal adult testis using unit gravity (STA-PUT) sedimentation. Contaminating Leydig cells have been removed by density centrifugation in discontinuous Percoll gradients to yield resultant germ cell purities of 90–95% for pachytene spermatocytes and 89–96% for round spermatids. The total cellular polypeptide composition of separated human germ cells has been analyzed by two-dimensional polyacrylamide gel electrophoresis to compare 1) human and mouse pachytene spermatocytes (species specificity), 2) samples of human spermatocytes obtained from different individuals (allo specificity), and 3) pachytene spermatocytes and round spermatids from the same patients (stage specificity). Mouse and human germ cells have been found to exhibit extensive homology, but identified marker proteins limited to human spermatocytes include a group of polypeptides at p45/5.9 as well as a protein at p67/5.2. Proteins unique to mouse germ cells include component p65/5.5. Comparisons between different preparations of human pachytene spermatocytes have revealed about 90% electrophoretic homology, but some striking allotypic variations have been noted including the proteins at p45/5.9. Finally, presumptive stage-specific spermatogenic cell markers have been identified including the p45/5.9 polypeptides that are present only in human spermatocytes. Although the physiological roles of particular marker proteins have not yet been determined, the present findings indicate that purified spermatogenic cell populations may be analyzed biochemically to identify constituents important in the regulation of sperm development in man.     

Efficiency of the process of meiosis in scrotal testes of healthy boars and unilateral abdominal cryptorchid boars.

Unilateral abdominal cryptorchidism has usually been correlated with abnormalities in the spermatogenic activity of the scrotal testis. The present study describes the effects of unilateral abdominal cryptorchidism on the meiotic process in scrotal testes from postpubertal boars. The percentage of primary spermatocytes, secondary spermatocytes, and round spermatids was evaluated in testicular smears from scrotal testes of healthy boars and of right-sided unilateral abdominal cryptorchid boars. As compared to the scrotal testes of healthy boars, the scrotal testes of unilateral abdominal cryptorchid boars showed low transformation from primary to secondary spermatocytes (meiosis I), but normal transformation from secondary spermatocytes to round spermatids (meiosis II). The data obtained indicate that spontaneous unilateral abdominal cryptorchidism on the right side induced partial arrest of spermatogenesis at the primary spermatocyte stage that was attributed to anomalies in Sertoli-cell activity. Abnormal paracrine signals from altered Sertoli cells could have resulted in either disturbed mitosis, which led to the formation of spermatocytes with an abnormal DNA content, or abnormalities in the metabolic activity and the organization of the cytoskeleton of primary spermatocytes.     

Target organ regulation of substance P in sympathetic neurons in culture

The distribution of the mRNA for one of the two mouse protamines, the cysteine-rich, tyrosine-containing protamine (MP1), was examined in the polysomal and nonpolysomal compartments of total testis and purified populations of round and elongating spermatids using Northern blots. In postmitochondrial supernatants prepared from total testis, about 10-15% of MP1-mRNA sediments with the small polysomes. The nonpolysomal molecules of MP1-mRNA are homogeneous in size, about 580 bases, while the polysomal molecules are heterogeneous with a mode of about 450 bases. Digestion with RNase H and thermal chromatography on poly(U) Sepharose reveals that the difference in size of polysomal and nonpolysomal MP1-mRNA is due to a shortening of the poly(A) from about 160 to 30 bases. In round spermatids, essentially all of MP1-mRNA is 580 bases long and is in the nonpolysomal fraction. Elongating spermatids contain roughly equal proportions of the homogeneous, 580 base form in the nonpolysomal compartment, and the heterogeneous 450 base form solely in the polysomal compartment. These results indicate that mRNA for one of the mouse protamines is stored as an untranslated RNP in round spermatids, and that it is partially deadenylated when it is translated in elongating spermatids.     

Poly(A) shortening accompanies the activation of translation of five mRNAs during spermiogenesis in the mouse

I have compared the quantity and the length of the poly(A) tracts of five haploid-expressed mRNAs in the polysomal and nonpolysomal fractions of round and elongating spermatids in mice: transition proteins 1 and 2, protamines 1 and 2, and an unidentified mRNA of about 1050 bases. Postmitochondrial supernatants of highly enriched populations of round and elongating spermatids (early and late haploid spermatogenic cells) were sedimented on sucrose gradients, and the size and amount of each mRNA in gradient fractions were analyzed in Northern blots. In round spermatids, all five mRNAs are restricted to the postpolysomal fractions, but in elongating spermatids about 30-40% of each mRNA is associated with the polysomes. The distribution of these mRNAs in sucrose gradients suggests that all five mRNAs are stored in a translationally repressed state in round and early elongating spermatids, and that they become translationally active in middle and late elongating spermatids. The translationally repressed forms of all five mRNAs are long and homogenous in size, whereas the polysomal forms are shorter and more heterogenous due to shortening of their poly(A) tracts. The relationship between translational activity and poly(A) size exemplified by these five mRNAs may be typical of mRNAs which are translationally repressed in round spermatids and translationally active in elongating spermatids.     

Stage-specific protein synthesis by isolated spermatogenic cells throughout meiosis and early spermiogenesis in the mouse

Spermatogenic cells isolated from prepubertal and adult mice by unit gravity sedimentation have been used to examine proteins synthesized in a stage-specific manner throughout meiosis and early spermiogenesis. Preleptotene, leptotene/zygotene, and pachytene spermatocytes were isolated from 17-day-old mice. Adult pachytene spermatocytes and round spermatids were isolated from mature animals. These germ cells were then cultured in defined medium with [35S]methionine [( 35S]met) for 4-5 h. For each cell type, relative [35S]met incorporation was determined and labeled proteins were compared by two-dimensional (2D) polyacrylamide gel electrophoresis and autoradiography. Levels of [35S]met incorporation by isolated germ cells correlate closely with previous autoradiographic estimates of protein synthesis during spermatogenesis (Monesi, 1967). Pachytene spermatocytes from prepubertal mice incorporate the highest levels of [35S]met, when expressed either as cpm/-10(6) cells or cpm/mg protein. Comparisons of 2D autoradiograms indicated that many proteins, including actin and tubulins, are synthesized at approximately equal levels in all stages examined. Other proteins, including heat-shock proteins and multiple plasma membrane constituents, are synthesized in a stage-specific manner in leptotene/zygotene spermatocytes, pachytene spermatocytes, and round spermatids. These studies define conditions for monitoring protein synthesis in isolated spermatogenic cells prior to the pachytene stage of meiosis, provide a 2D map of proteins synthesized at these earlier meiotic stages, and examine the synthesis of several proteins previously identified on 2D gels with biochemical and immunological methods.     

Immunochemical identification of multiple cell surface antigens appearing during specific stages of mouse spermatogenesis

Cell surface antigens that appear in a defined temporal sequence during mouse spermatogenesis were previously detected serologically, but not identified biochemically, with four heterologous antibodies prepared against purified populations of pachytene spermatocytes (AP), round spermatids (ARS), vas deferens spermatozoa (AVDS), and mixed seminiferous cells (ASC) [Millette and Bellvé, J Cell Biol 74:86–97, 1977]. These antigens have now been identified immunochemically on nitrocellulose blots from SDS polyacrylamide gels. Three antisera (AP, ARS, and ASC) recognize a similar subset of determinants on one-dimensional immunoblots of germ cells and plasma membranes prepared from a mixed population of late spermatogenic cells. Comparisons of minor bands to reveal differences among these antisera. AVDS exhibits the least complex binding pattern. The results indicate that at least ten surface constituents appear during the pachytene stage of meiosis, coincident with a period of maximal RNA and protein synthesis [Monesi, Exp Cell Res 39:197–224, 1965]. Furthermore, two-dimensional immunoblot comparisons of plasma membranes isolated from pachytene spermatocytes and round spermatids reveal differences between surface determinants detectable at these two spermatogenic stages. For example, ASC recognizes two newly described proteins that are restricted to pachytene spermatocytes (? M_r 57,000, pI 6.45) and to round spermatids (? M_r 39,500, pI 4.85), respectively.