Changes in polyadenylation of lactate dehydrogenase-X mRNA during spermatogenesis in mice

The expression of the mRNA for mouse testicular lactate dehydrogenase (LDH-X) was examined by RNA:cDNA hybridization in situ in the testis and by Northern analyses of meiotic and postmeiotic spermatogenic cell populations. Silver grains accumulated in cells inside the second layer from the periphery of the seminiferous tubule, confirming previous findings that LDH-X mRNA first appears in the spermatocyte and continues to accumulate until the late spermatid stage. Northern analyses showed that meiotic and postmeiotic cells contained 1.2 and 1.3 kb classes of hybridizing mRNA, respectively. RNase H digestion of oligo (dT)-hybridized RNA and poly(U)-Sepharose column chromatography with differential elution by formamide revealed that the difference in size of the two classes of mRNAs was due to the poly(A) tail length of the LDH-X mRNA. When the distribution of the LDH-X mRNA was examined across polysome gradients, both mRNAs were partially associated with polysomes. These results suggest that the changes in the polyadenylation of LDH-X mRNA were associated with the meiotic division during spermatogenesis in the mouse. They raise the possibility that the stable accumulation of the LDH-X mRNAs in the postmeiotic cells is enhanced by poly(A) tails of increased length.     

Cellular localization and age-dependent changes in mRNA for cyclic adenosine 3',5'-monophosphate-dependent protein kinases in rat testis

Gonadotropin activation of cyclic adenosine 3',5'-monophosphate (cAMP)-dependent protein kinases plays an important role in the regulation of testicular function. This study was undertaken to establish the expression of various subunits of cAMP-dependent protein kinases in different testicular cell types as well as during sexual maturation. RNA was extracted from cultured Sertoli cells, cultured peritubular cells, germ cells (pachytene spermatocytes, round spermatids), tumor Leydig cells, as well as whole testis from rats of various ages. Messenger RNA levels were studied by Northern analysis using available cDNA probes. The regulatory subunit (R) designated RII51 was found to be predominantly expressed in cAMP-stimulated Sertoli cells and tumor Leydig cells. Much lower levels were found in cultured peritubular cells and germ cells. A 2.9- and 3.2-kb mRNA for the RI subunit were found at about similar levels in all cell types, whereas the smaller 1.7-kb mRNA was expressed in high levels in germ cells. Also, the catalytic subunit (C) of cAMP-dependent protein kinase, designated C alpha, was expressed in all cell types; the highest mRNA levels for this subunit were found in germ cells and in tumor Leydig cells. The 1.7-kb mRNA for androgen-binding protein (ABP) was abundant in cAMP-stimulated Sertoli cells and was not present in other cell types of the testis. Furthermore, the cellular localization of the cAMP-dependent protein kinase subunits was also supported by developmental studies. The mRNA level of the RII51 3.2-kb species was relatively constant until Day 30, after which there was a tendency to decrease. A 1.6-kb message first appeared at greater ages. The mRNA for the smaller 1.7-kb species of RI, as well as the C alpha, showed a significant increase during development, supporting an enrichment of these mRNAs in germ cells. Messenger RNA levels for ABP were not detected in testis from 5- to 10-day-old rats but increased up to Day 30. After this age, mRNA for ABP revealed an age-dependent decrease, which parallels the relative increase of germ cells in the testis. In summary, these results demonstrate a clear pattern of cellular localization of the various mRNA species for subunits of the cAMP-dependent protein kinase in the rat testis.     

Spermatogenesis in the golden hamster during the first spermatogenic wave: a flow cytometric analysis

In the present study propidium iodide was used as a fluorescent dye to stain DNA of cells of hamster testicular origin and fluorescent intensities were analyzed by flow cytometry. We used hamster testicular cells from the first spermatogenic wave to observe the consecutive appearance of the different types of cells during puberty. At 12 days postpartum (dpp) diploid cells (including spermatogonia) predominated and some tetraploid cells were also present. Tetraploid spermatocytes increased dramatically by 21 dpp. The first haploid cells appeared at 21 dpp but substantial numbers were first present at 23 dpp. Immature haploid cells predominated at 32 dpp. Elongating condensing spermatids appeared at 34 dpp and spermatozoa began to leave the testis to enter the epididymidis at 36-38 dpp marking the end of the first round of spermatogenesis. Using acridine orange staining flow cytometry, chromatin condensation was followed by measuring fluorescence decrease from early round spermatids to spermatozoa obtained from the initial segment and from the cauda epididymides. The major portion of sperm chromatin condensation (88-90%) in the hamster occurred in the testis and only 10-12% occurred during epididymal sperm maturation. Spermatozoa in the initial segment of the epididymidis of the hamster contained a small amount of RNA that was no longer present in sperm of the cauda epididymidis, indicating that RNA was lost during epididymal sperm maturation in this species. Mol. Reprod. Dev. 55:205-211, 2000.     

Changes in mRNA length accompany translational regulation of the somatic and testis-specific cytochrome c genes during spermatogenesis in the mouse

The mouse testis contains two isotypes of cytochrome c, which differ in 14 of 104 amino acids: cytochrome cs is present in all somatic tissues and cytochrome cT is testis specific. The regulation of cytochrome cS and cytochrome cT gene expression during spermatogenesis was examined by Northern blot analysis using specific cDNA probes. Total RNA was isolated from adult tissues, enriched germinal cell populations and polysomal gradients of total testis and isolated germinal cells. Three cytochrome cS mRNAs were detected averaging 1.3 kb, 1.1 kb and 0.7 kb in all tissues examined; an additional 1.7 kb mRNA was observed in testis. Isolated germinal cells through prepuberal pachytene spermatocytes contained only the three smaller mRNAs; the 1.7 kb mRNA was enriched in round spermatids. All three smaller cytochrome cS mRNAs were present on polysomes; the 1.7 kb mRNA was non-polysomal. Cytochrome cT mRNA of 0.6-0.9 kb was detected in testis; mRNA levels were low in early spermatogonia and peaked in prepuberal pachytene spermatocytes. In adult pachytene spermatocytes, a subset of the cytochrome cT mRNAs, 0.7-0.9 kb, was present on polysomes; a shortened size class, 0.6-0.75 kb, was non-polysomal. A distinct, primarily non-polysomal, cytochrome cT 0.7 kb mRNA was present in round spermatids. These results indicate that (1) both cytochrome cS and cytochrome cT mRNAs are present in early meiotic cells, (2) a 1.7 kb cytochrome cS mRNA is post-meiotically expressed and non-polysomal and (3) cytochrome cS and cytochrome cT mRNAs are each developmentally and translationally regulated during spermatogenesis.     

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.     

Histidase mRNA. Nature of translational products, tissue specificity, and differential development in male and female rat liver

Histidase is expressed in only two tissues of the rat, liver and epidermis. Hepatic histidase synthesis and catalytic activity undergo complex sex-specific developmental courses. To determine whether changes in functional histidase mRNA levels underlie this developmental pattern, total cellular RNA was translated in a rabbit reticulocyte cell-free lysate system. Adult liver total cellular RNA directed the synthesis of three translational products immunoreactive with anti-native histidase: a polypeptide of Mr = 75,000 (75K), which corresponds to the in vivo synthesized histidase subunit, and two higher molecular weight proteins, a major and a minor peptide of Mr = 150,000 (150K) and 140,000 (140K), respectively. These latter peptides do not seem to be aggregates or dimers of the 75K polypeptide or precursors which are post-translationally hydrolyzed to Mr = 75,000; their origin and function remain to be clarified. In contrast to in vitro translation of hepatic total cellular RNA, Western blot analysis of liver cytosol confirms the presence of only the 75K histidase subunit, with no evidence of anti-histidase immunoreactive peptides of Mr = 140,000-150,000 synthesized in vivo. Quantitation of the radioactivity in the immunocomplexed 75K histidase subunit, translated using total RNA from livers of fetuses, 19-day-old males, 35-day-old males, adult males and females, and adult kidney and brain (0, 0.007, 0.010, 0.016, 0.031, 0, and 0%, respectively, of total released proteins) indicates that, in general, levels of functional histidase subunit mRNA reflected histidase catalytic activity (0, 0.20, 0.50, 1.01, 3.00, 0 and 0 units/g of tissue) during tissue differentiation and sex specific development. The above data indicate that initial expression and subsequent increases in synthesis and activity of histidase during hepatic differentiation, postnatal development, and sex hormone regulation are due to pretranslationally controlled augmentation in the levels of functional mRNA which specifies the histidase subunit. In tissues which do not express histidase no functional histidase mRNA is evident. The levels of the RNA which translate the combined 140-150K histidase-like polypeptides (0, 0.007, 0.014, 0.035, 0.034, 0, and 0% of released proteins) also paralleled the increase in enzymatic activity during tissue differentiation and development; however, no difference between males and females was evident. The significance of these observations awaits elucidation of the nature of these RNA(s).     

The effect of testosterone withdrawal and subsequent germ cell depletion on transferrin and sulfated glycoprotein-2 messenger ribonucleic acid levels in the adult rat testis.

We have examined the effects of decreasing intratesticular testosterone concentration and of decreasing germ cell number on levels of transferrin mRNA and sulfated glycoprotein (SGP)-2 mRNA in the adult rat testis. Intact rats received implants of testosterone- and estradiol-filled capsules to suppress LH secretion from the pituitary, thereby suppressing Leydig cell testosterone production. The levels of intratesticular testosterone declined 70% to 20 ng/ml within 3 days, were reduced further to approximately 15 ng/ml by 14 days, and subsequently reached a minimum of about 10 ng/ml. In contrast, the number of elongated spermatids per testis remained unchanged through 14 days, then declined to fewer than 20% of normal between 14 and 28 days, and reached zero by 56 days postimplantation. Likewise, both pachytene spermatocytes and round spermatids declined only after 14 days postimplantation. Northern blots of testicular RNA showed that Sertoli cell transferrin mRNA per testis decreased markedly between 14 and 28 days postimplantation. However, SGP-2 mRNA per testis was unchanged over the time course of the experiment. The decrease in transferrin mRNA, concomitant with germ cell loss, suggests that this mRNA is regulated by the number of germ cells in the testis and not directly by testosterone. In contrast, the constant level of SGP-2 mRNA in the face of reduced intratesticular testosterone and the subsequent loss of germ cells suggests that this mRNA is constitutively maintained in the adult rat testis.     

Expression of the neurotransmitter-synthesizing enzyme glutamic acid decarboxylase in male germ cells.

The gene encoding glutamic acid decarboxylase (GAD), the key enzyme in the synthesis of the inhibitory neurotransmitter gamma-aminobutyric acid, is shown to be expressed in the testis of several different species. Nucleotide sequence analysis of a cDNA clone isolated from the human testis confirmed the presence of GAD mRNA in the testis. The major GAD mRNA in the testis was 2.5 kilobases. Smaller amounts of a 3.7-kilobase mRNA with the same size as GAD mRNA in the brain was also detected in the testis. In situ hybridization using a GAD-specific probe revealed GAD mRNA expressing spermatocytes and spermatids located in the middle part of rat seminiferous tubules. Studies on the ontogeny of GAD mRNA expression showed low levels of GAD mRNA in testes of prepubertal rats, with increasing levels as sexual maturation is reached, compatible with GAD mRNA expression in germ cells. In agreement with this, fractionation of cells from the rat seminiferous epithelium followed by Northern (RNA) blot analysis showed the highest levels of GAD mRNA associated with spermatocytes and spermatids. Evidence for the presence of GAD protein in the rat testis was obtained from the demonstration of GAD-like immunoreactivity in seminiferous tubules, predominantly at a position where spermatids and spermatozoa are found. Furthermore, GAD-like immunoreactivity was seen in the midpiece of ejaculated human spermatozoa, the part that is responsible for generating energy for spermatozoan motility.     

Structural relatedness of mouse lactate dehydrogenase isozymes,A4 (muscle), B4 (heart), and C4 (testis)

Three homotetrameric lactate dehydrogenase isozymes, LDH-M(A₄), LDH-H(B₄), and LDH-X(C₄), from DBA/2J mice have been purified by affinity chromatography. The amino acid compositions of the subunits A, B, and C, based on a molecular weight of 36,000, have been determined. The compositional relatedness of these isozymes indicates that subunits A (muscle) and B (heart) are more closely related to each other than to subunit C (testis). Tryptic peptide maps and amino acid compositions of some active site peptides appear to confirm the compositional relatedness among these isozymes. The sequence of the loop region of mouse C subunit seems to be markedly different from all known A and B sequences, and the structural and functional implications are discussed.     

Developmental regulation of ornithine decarboxylase (ODC) in rat testis: comparison of changes in ODC activity with changes in ODC mRNA levels during testicular maturation.

These studies were undertaken to analyze the changes in testicular ornithine decarboxylase (ODC) mRNA levels and ODC activity in rats from birth to maturity. Levels of ODC mRNA were initially low in animals aged 10-17 days. Beginning at 21 days, ODC mRNA levels began to rise, reaching maximal levels by 40 days (p less than 0.01). The size of the 2.2- and 2.6-kb ODC mRNAs did not appear to change with age, as determined by Northern blot analysis. The increase in ODC mRNA that began at 21 days paralleled the increase in testis weight. This increase in ODC mRNA preceded the appearance of rat protamine-1 mRNA, a germ cell-specific mRNA found in round spermatids, which was first detected on Day 40. In contrast, levels of sulfated glycoprotein-2 mRNA, which, in the testis, is found exclusively in Sertoli cells, were highest at Day 17 and thereafter declined gradually with age. Unlike the increase in ODC mRNA levels, ODC activity was highest in 10-day-old animals and thereafter declined steadily with age, reaching minimal levels by 40 days (p less than 0.01). Thus, the increase in testicular ODC mRNA levels was in marked contrast to the decrease in testicular ODC activity. Incubation of cytosolic extract from 40-day-old animals with that from 10- or 17-day-old animals inhibited ODC activity approximately 50%, when compared to cytosols from 10- or 17-day-old animals. Dialysis of cytosol from 40-day-old animals prior to incubation with cytosol from 10-day-old animals relieved this inhibition.(ABSTRACT TRUNCATED AT 250 WORDS)