Age- and cell-related gene expression of aromatase and estrogen receptors in the rat testis

Spermatogenesis is a complex and coordinated process leading to the formation of spermatozoa. This event, which is under the control of numerous endocrine and paracrine factors, seems to also be controlled by estrogens which exert their effects via nuclear estrogen receptors (ESRs) ESR1 and ESR2. Estrogens are synthesized by aromatase which is biologically expressed in the rat testis. The objective of our study was to clarify the gene expression patterns of aromatase and ESRs according to age and in the two compartments of the adult rat testis. In the adult, transcripts of aromatase vary according to the germ cell type and to the stages of seminiferous epithelium, a maximum being observed at stage I. The ESR1 gene is highly expressed in the adult testis and in stages from VIIc-d to XIV. Moreover, both ESR mRNA levels are higher in purified round spermatids than in pachytene spermatocytes, suggesting a putative role of estrogens in the haploid steps of spermatogenesis. The variability of the results in the expression of both ESRs led us to explore the putative presence of variants in the rat testis. Concerning ESR1, we have shown the presence of the full-length form and of one isoform with exon 4 deleted. For ESR2, besides the wild type, three isoforms were observed: one with exon 3 deleted, another with an insertion of 54 nucleotides, and the last one with both modifications. Therefore, the stage-regulated expression of aromatase and ESR1 genes in the rat testis suggests a likely role of estrogens in spermatogenesis.

Morphometric evaluations of testicular tissues from azoospermic boars in Finnish Yorkshire and Landrace breeds

In 1996-2005, ejaculates of 2048 boars were collected. All boars were intended for use in artificial insemination or natural breeding and had two descended testes. Azoospermia was present in 16 of the 1097 Yorkshire boars (1.5%) and in 2 of the 951 Landrace boars (0.2%). The two most frequent diagnoses of azoospermia were arrested spermatogenesis at the pachytene spermatocyte stage (n=8) and segmental aplasia of the Wolffian ducts (n=7). Morphometric evaluations of testicular tissues of azoospermic boars were performed using an image analyzer. The morphometric evaluations revealed decreased portions and diameter of seminiferous tubule in tissue slides from the studied azoospermic boars compared with normal boars. The use of an image analyzer for morphometric evaluations of testicular tissues proved to be a good tool to characterize findings in testicular slides of azoospermic boars.

Multinuclear-multiflagellar sperm defect in a bull--a new sterilizing sperm defect

The development and use of modern techniques, such as intracytoplasmic sperm injection (ICSI), gene knockout and sperm fluorescence in situ hybridization with chromosome- specific probes, have significantly increased our knowledge about sperm defects. We describe a new oligoasthenoteratozoospermic defect in a bull. Because of its morphological characteristics the defect was named the multinuclear-multiflagellar sperm defect. All spermatozoa in the ejaculate were abnormal. Many of the spermatozoa had multiple nuclei and multiple sperm tails. All spermatozoa lacked an acrosome, and only seldom did spermatozoa have a mitochondrial helix in the midpiece area. Meiosis and spermiogenesis were severely affected in this otherwise phenotypically normal bull. The sperm defects resembled the phenotype of a targeted gene knockout Hrb(-/-) (HIV-1 Rev-binding/interacting protein) mutant mouse strain, which is expressed as sterility in males, while females remain fertile. Since the father of this bull has been extensively used in at least three countries the defective gene has possibly become widespread in the red and white breeds (Ayrshire, Swedish Red and White, Norwegian Red) in the Nordic countries. However, it is not proved that the father of this bull is a carrier of this defect.

Chemical anoxia delays germ cell apoptosis in the human testis

An understanding of testicular physiology and pathology requires knowledge of the regulation of cell death. Previous observation of suppression of apoptosis by hypoxia suggested a role for ATP in germ cell death. However, the exact effects of ATP production on germ cell death and of apoptosis on the levels of ATP and other adenine nucleotides (ANs) have remained unclear. We investigated the levels of ANs during human testicular apoptosis (analyzed by HPLC) and the role of chemical anoxia in germ cell death (detected by Southern blot analysis of DNA fragmentation, in situ end labeling of DNA, and electron microscopy). Incubation of seminiferous tubule segments under serum-free conditions induced apoptosis and concomitantly decreased the levels of ANs. Chemical anoxia, induced with potassium cyanide (KCN), an inhibitor of mitochondrial respiration, dropped ATP levels further and suppressed apoptosis at 4 h. After 24 h, many of the testicular cells underwent delayed apoptosis despite ATP depletion. Some cells showed signs of necrosis or toxicity. The addition of 2-deoxyglucose, an antimetabolite of glycolysis, did not alter the results obtained with KCN alone, whereas a toxic concentration of hydrogen peroxide switched apoptosis to necrosis. In most of the testicular cells, mitochondrial respiration appears to play a crucial role in controlling primary cell death cascades. In the human testis, there seem to be secondary apoptotic pathways that do not require functional respiration (or ATP).

TNFalpha down-regulates the Fas ligand and inhibits germ cell apoptosis in the human testis

The cytokine TNFalpha is known to be secreted by testicular germ cells. However, its effect on maturing germ cells is unknown, and its role in the regulation of spermatogenesis is unclear. Here we aimed at characterizing the effects of TNFalpha on germ cell survival in the human testis. We found that TNFalpha effectively and dose-dependently inhibited germ cell apoptosis, which was induced in vitro by incubating segments of human seminiferous tubules under serum-free culture conditions. EMSAs indicated increased activity of nuclear factor kappaB in seminiferous tubules cultured under apoptosis-inducing conditions. However, we did not observe any significant effect of TNFalpha on the activation of this transcription factor, which is often considered to be a mediator of TNFalpha-induced survival signals. As the expression of the TNF receptor protein in the human seminiferous epithelium was predominantly found in the Sertoli cells, the antiapoptotic effect of TNFalpha is probably mediated via these somatic cells. Interestingly, expression of the Fas ligand, a known inductor of testicular apoptosis, was down-regulated by TNFalpha. Thus, in the seminiferous tubules, germ cell-derived TNFalpha may regulate the level of the Fas ligand and thereby control physiological germ cell apoptosis.

Expression of neurotrophin receptors in rat testis. Upregulation of TrkA mRNA with hCG treatment

We report the expression of TrkA, TrkB and TrkC mRNAs in adult rat testis. With in situ hybridisation a low signal for TrkB and TrkC could be seen in postmeiotic cells of the seminiferous epithelium, whereas no signal for TrkA could be observed in untreated animals. Animals treated with hCG showed an induction of TrkA mRNA in premeiotic cells 12 h after the treatment, whereas an injection with EDS had no effect on the expression of Trk mRNAs. With the RNAse protection assay a low signal for TrkA was seen in whole testis of hCG treated animals. In staged tubules low expression was seen at stages VII-XI of untreated animals. Animals injected with hCG revealed that TrkA induction was highest during stages VIIcd and VIII of the cycle. The distinct expression pattern of these high-affinity neurotrophin receptors suggests different roles for neurotrophins during spermatogenesis. Induction of TrkA mRNA by hCG suggests that high-affinity binding of NGF during stages VIIcd-VIII in premeiotic cells is under control of the hypothalamic-pituitary-testicular axis.

Evaluation of the 5'-flanking regions of murine glutathione peroxidase five and cysteine-rich secretory protein-1 genes for directing transgene expression in mouse epididymis

Based on strong epididymal expression of the mouse glutathione peroxidase 5 (GPX5) and cysteine-rich secretory protein-1 (CRISP-1) genes, we evaluated whether the 5.0-kilobase (kb)-long GPX5 and 3.8-kb-long CRISP-1 gene 5'-flanking regions could be used to target expression of genes of interest into the epididymis in transgenic mice. Of the two candidate promoters investigated, the CRISP-1 promoter-driven enhanced green fluorescent protein (EGFP) reporter gene was highly expressed in the tubular compartment of the testis in all stages of the seminiferous epithelial cycle between pachytene spermatocytes at stage VII to elongated spermatids at step 16. In contrast to CRISP-1, the 5.0-kb 5' region of the mouse GPX5 gene directed EGFP expression to the epididymis. In the various GPX5-EGFP mouse lines, strongest expression of EGFP mRNA was found in the epididymis, but low levels of reporter gene mRNA were detected in several other tissues. Strong EGFP fluorescence was found in the principal cells of the distal caput region of epididymis, and few fluorescent cells were also detected in the cauda region. No EGFP fluorescence was detected in the corpus region or in the other tissues analyzed. Hence, it is evident that the 5.0-kb 5'-flanking region of GPX5 promoter is suitable for directing the expression of structural genes of interest into the caput epididymidis in transgenic mice.

Late arrest of spermiogenesis and germ cell apoptosis in mice lacking the TBP-like TLF/TRF2 gene

Metazoan genomes encode two related proteins, TBP and the TBP-like factor (TLF/TRF2), sharing a highly conserved saddle-like domain. TLF is highly expressed in a finely regulated pattern in the mouse testis during spermatogenesis. The murine TLF gene has been inactivated using homologous recombination. TLF-/- mice are viable, but mutant male mice are sterile due to a late, complete arrest of spermiogenesis. In mutant animals, spermatogonia and spermatocytes develop normally, but round spermatids undergo apoptosis at step 7. Although the expression of the transcriptional activator CREM and many other postmeiotic genes was unaltered in TLF null mice, several spermiogenesis genes transcribed in late round spermatids appeared to be under TLF control. Hence, TLF is not required for embryonic development in the mouse but is essential for spermiogenesis.

Constitutive production of interleukin-1alpha mRNA and protein in the developing rat testis

Interleukin-1 (IL-1), a multifunctional cytokine produced mainly by activated macrophages, is also produced in the intact testis. Rat testicular IL-1 was found to be identical to IL-1alpha, judged by immunoneutralization of the bioactive protein and sequence comparison of cloned rat testicular and macrophage pro-IL-1alpha cDNA. Testicular IL-1alpha mRNA was first demonstrated on postnatal day 15, and the corresponding bioactive protein from day 20. IL-1alpha mRNA was still low on day 20, but then increased rapidly in parallel with the bioactive protein to establish a plateau level from day 25. In adult testes, IL-1alpha mRNA and immunoreactive protein were low in stage VII of the seminiferous epithelial cycle, whereas other stages showed a clearly detectable expression. In the adult testis, the concentration of IL-1alpha was 75 pg/mg testicular protein (approximately 200 pM). In conclusion, production of testicular IL-1alpha is developmentally and stage-dependently regulated, probably at the transcriptional level, emphasizing an important paracrine role in testicular function.

Regulation of acrosome formation in mice expressing green fluorescent protein as a marker

Transgenic mice expressing enhanced green fluorescent protein under acrosin promoter were used to study the role of the Golgi complex and of the cytoskeleton during early development of the acrosomic system in exactly defined stages of the seminiferous epithelial cycle during in vitro differentiation. First acrosin expression was found uniformly in the cytoplasm of stage IV pachytene spermatocytes. The steady-state level increased up to stage X pachytene spermatocytes, and in diakinetic primary spermatocytes, acrosin started to accumulate into the Golgi complex. During step 2 of spermiogenesis, several small fluorescent proacrosomic granules were seen in various parts of the Golgi complex, and they fused to a solid acrosomic system at step 3. In cultured stage I-III seminiferous tubule segments, nocodazole slowed down acrosin incorporation and increased the distance of the acrosomic system from the nucleus. Follicle stimulating hormone had an opposite effect by increasing density of the acrosomic system together with activation of the surrounding microtubule network. The observations suggest that microtubules have an important function during the early differentiation of the acrosomic system.

Stage-specific inhibition of deoxyribonucleic acid synthesis and induction of apoptosis by antracyclines in cultured rat spermatogenic cells

A rapid in vitro method has been developed to detect early effects of cytostatic drugs on rat spermatogenesis. The induction of programmed cell death (apoptosis) and changes in DNA synthesis induced by doxorubicin and idarubicin were measured in specific stages of the cycle of seminiferous epithelium including mitotic (stage V) and meiotic (stage VIII-IX) S-phase cells. The model was used to investigate the protective effect of an organic thiophosphate, amifostine, against the toxicity of antracyclines. Premitotic DNA synthesis was found to be more sensitive than premeiotic DNA synthesis to antracyclines. Idarubicin was more toxic than doxorubicin to germ cells in inducing apoptosis and suppressing DNA synthesis. Amifostine had no protective effect against doxorubicin- or idarubicin-induced inhibition of DNA synthesis. In contrast, a significant stimulation of DNA synthesis in premitotic cells by amifostine was found, suggesting that this compound may have a stimulative effect on spermatogenic stem cells. These data show that stage-specific dissection of the seminiferous tubules and their in vitro exposure to predetermined doses of drugs may give us a unique possibility to detect drug action and protection against the cytotoxicity of antineoplastic agents at the cellular level of the spermatogenic cycle.

Expression of green fluorescent protein under beta-actin promoter in living spermatogenic cells of the mouse: stage-specific regulation by FSH

Spermatogenic cells from a mouse strain expressing enhanced green fluorescent protein (EGFP) under chicken beta-actin promoter were studied under living conditions to analyse stage- and cell-specific expression and hormonal regulation of the transgene. The isolated seminiferous tubules were examined by transillumination and the live cell squashes by phase contrast and fluorescence microscopy. FSH effects were measured in whole seminiferous tubules comparing stages I-VI, VII-VIII and IX-XII of the cycle. Beta-actin was highly expressed in spermatogonia, but almost no expression was found at early meiosis (leptotene spermatocytes). A gradual increase in translation of beta-actin was found during later stages of meiosis and early spermiogenesis, with a maximum in elongating spermatids. FSH increased the translation of beta-actin after 4 h and 24 h of incubation at stages I-VI, after 24 h at stages VII-VIII but not at stages IX-XII of the cycle. The results support the view that beta-actin plays a role in the nuclear elongation of spermatids and that its expression is regulated by FSH in a stage-specific fashion. Techniques used in this study give us new insight to study temporal and hormonal regulation of gene products in living spermatogenic cells.

Lanosterol 14alpha-demethylase (CYP51), NADPH-cytochrome P450 reductase and squalene synthase in spermatogenesis: late spermatids of the rat express proteins needed to synthesize follicular fluid meiosis activating sterol

Lanosterol 14alpha-demethylase (CYP51) is a cytochrome P450 enzyme involved primarily in cholesterol biosynthesis. CYP51 in the presence of NADPH-cytochrome P450 reductase converts lanosterol to follicular fluid meiosis activating sterol (FF-MAS), an intermediate of cholesterol biosynthesis which accumulates in gonads and has an additional function as oocyte meiosis-activating substance. This work shows for the first time that cholesterogenic enzymes are highly expressed only in distinct stages of spermatogenesis. CYP51, NADPH-P450 reductase (the electron transferring enzyme needed for CYP51 activity) and squalene synthase (an enzyme preceding CYP51 in the pathway) proteins have been studied. CYP51 was detected in step 3-19 spermatids, with large amounts in the cytoplasm/residual bodies of step 19 spermatids, where P450 reductase was also observed. Squalene synthase was immunodetected in step 2-15 spermatids of the rat, indicating that squalene synthase and CYP51 proteins are not equally expressed in same stages of spermatogenesis. Discordant expression of cholesterogenic genes may be a more general mechanism leading to transient accumulation of pathway intermediates in spermatogenesis. This study provides the first evidence that step 19 spermatids and residual bodies of the rat testis have the capacity to produce MAS sterols in situ.

Estradiol acts as a germ cell survival factor in the human testis in vitro

The necessity of estrogens for male fertility was recently discovered in studies on both estrogen receptor alpha knockout and aromatase (cyp 19 gene) knockout mice. However, direct testicular effects of estrogens in male reproduction have remained unclear. Here we studied the protein expression of ERalpha and the recently described estrogen receptor beta in the human seminiferous epithelium and evaluated the role of 17beta-estradiol, the main physiological estrogen, in male germ cell survival. Interestingly, both estrogen receptors alpha and beta were found in early meiotic spermatocytes and elongating spermatids of the human testis. Furthermore, low concentrations of 17beta-estradiol (10(-9) and 10(-10) mol/L) effectively inhibited male germ cell apoptosis, which was induced in vitro by incubating segments of human seminiferous tubules without survival factors (i.e. serum and hormones). Dihydrotestosterone, which, in addition to estradiol, is an end metabolite of testosterone, was also capable of inhibiting testicular apoptosis, but at a far higher concentration (10(-7) mol/L) than estradiol. Thus, estradiol appears to be a potent germ cell survival factor in the human testis. The novel findings of the present study together with the previously reported indirect effects of estrogens on male germ cells indicate the importance of estrogens for the normal function of the testis.

Acute doxorubicin cardiotoxicity involves cardiomyocyte apoptosis

Despite well-documented cardiotoxic effects, doxorubicin remains a major anticancer agent. To study the role of myocardial apoptosis following doxorubicin administration, male Wistar rats were exposed to 1.25, 2.5, and 5 mg/kg of i.p. doxorubicin and terminated on days 1-7 in groups of five. Doxorubicin caused a significant (P < 0.001) and dose-dependent induction of cardiomyocyte apoptosis at 24-48 h after the injection. Repeated injections of 2.5 mg/kg given every other day resulted in peaks of apoptosis at 24 h after each injection. However, no additive effect of repeated dosing was noted. In histological samples, alterations in the cytoskeletal apparatus with focal loss of contractile elements were seen after a single injection. Myocyte necrosis was absent. Thus, acute doxorubicin-induced cardiotoxicity involves cardiomyocyte apoptosis, a potentially preventable form of myocardial tissue loss.

Neurturin, RET, GFRalpha-1 and GFRalpha-2, but not GFRalpha-3, mRNA are expressed in mice gonads

The gonads are known to produce numerous hormones and also neurotrophins and their receptors. Here we demonstrate expression of glial-cell-line-derived neurotrophic factor (GDNF) family ligands and related receptors in adult mice gonads by in situ hybridization. GDNF mRNA was expressed in the ovary, but was not detectable in testis. Neurturin (NTN), another ligand in this family, gave rise to strong mRNA hybridization signals in a mosaic pattern in the seminiferous tubules of the testis at stages IX-XII and I-II of the cycle. NTN mRNA signals were also found in uterus and the oviduct. In testis, the transducing receptor RET as well as GDNF receptor alpha-1 (GFR)alpha-1 and GFRalpha-2 were distributed in complementary and overlapping patterns, the former at stages XI-XII-I and the latter at stages VII and VIII. GFRalpha-3 could not be detected. Expression of these trophic molecules suggests involvement of GDNF family ligands and related receptor components in reproduction.

Regulation of cell fate decision of undifferentiated spermatogonia by GDNF

The molecular control of self-renewal and differentiation of stem cells has remained enigmatic. Transgenic loss-of-function and overexpression models now show that the dosage of glial cell line-derived neurotrophic factor (GDNF), produced by Sertoli cells, regulates cell fate decisions of undifferentiated spermatogonial cells that include the stem cells for spermatogenesis. Gene-targeted mice with one GDNF-null allele show depletion of stem cell reserves, whereas mice overexpressing GDNF show accumulation of undifferentiated spermatogonia. They are unable to respond properly to differentiation signals and undergo apoptosis upon retinoic acid treatment. Nonmetastatic testicular tumors are regularly formed in older GDNF-overexpressing mice. Thus, GDNF contributes to paracrine regulation of spermatogonial self-renewal and differentiation.

Partial oxygen pressure and mitochondrial permeability transition affect germ cell apoptosis in the human testis

During regular spermatogenesis, a number of testicular germ cells degenerate by an apoptotic process that is under hormonal control. Oxidative and mitochondrial changes have been proposed to play a role in apoptosis of many cell types. Previously, whether human germ cell survival is controlled by oxygen or by effectors of the mitochondrial permeability transition has not been investigated. In the present study, apoptosis was induced in human testicular germ cells by incubating segments of seminiferous tubules without survival factors (i.e. serum or hormones; 21% oxygen). Apoptosis was significantly suppressed in an inversely dose-dependent fashion at partial oxygen pressures below 10%, as detected by Southern blot analysis of DNA fragmentation, DNA labeling in situ, and electron microscopy. Cyclosporin A and its nonimmunosuppressive derivative N-methyl-Val4-cyclosporin A prevented cell death, suggesting a key role for the mitochondrial permeability transition in apoptosis. Apoptotic cells were identified as mainly spermatocytes and spermatids, the mitochondria of which underwent morphological changes during the apoptotic process. The present results imply that to improve germ cell viability in in vitro fertilization techniques, the partial oxygen pressure should be lowered.

Primary structure of a sperm cell anion exchanger and its messenger ribonucleic acid expression during spermatogenesis

Chloride/bicarbonate (Cl-/HCO(3)-) exchangers are a family of proteins (anion exchanger [AE] gene family) that regulate many vital cellular processes such as intracellular pH, cell volume, and Cl- concentration. They may also be involved in the regulation of sperm cell motility and acrosome reaction during fertilization, as these two phenomena are bicarbonate dependent, and we have previously shown that a polypeptide immunologically related to erythrocyte band 3 is expressed in mammalian sperm cells. We have now identified this putative sperm cell anion exchanger as the AE2 isoform of this gene family. First, we determined its complete primary structure from the human testis lambda gt 11 cDNA library. The cloned sequence was found to consist of 3896 base pairs (bp) with an open reading frame of 3726 bp, and to be almost identical to the previously published human genomic AE2 sequence. Only four amino acid disparities were found between these two sequences. Second, our in situ hybridization analyses showed that AE2 mRNA is expressed in developing sperm cells, indicating that the cloned sequence corresponds to the sperm cell AE. Our reverse transcription-polymerase chain reaction analyses suggested further that the expression of AE2 mRNA was variable to some extent during the epithelial cell cycle. Strongest expression was observed at stages VII-XIV except for stage X, i.e., when major structural and morphological changes take place. These results suggest that the full-length AE2 isoform regulates HCO(3)- transport in mature sperm cells and thus their motility in vivo.

Constitutive expression of interleukin-1alpha messenger ribonucleic acid in rat Sertoli cells is dependent upon interaction with germ cells

Interleukin-1 (IL-1), a proinflammatory cytokine originally isolated as a product of activated mononuclear phagocytes, consists of two distinct agonist proteins, IL-1alpha and IL-1beta, of which IL-1beta is the major inducible IL-1 protein produced by macrophages. We show here that mRNA of IL-1alpha, but not IL-1beta, is constitutively expressed by the intact rat testis and localize the transcript to Sertoli cells as confirmed by a novel squash technique. The expression is developmentally regulated and appears only after postnatal day 20 in the rat testis, corresponding to onset of puberty. IL-1alpha mRNA shows a stage-dependent expression pattern during the cycle of the seminiferous epithelium. It is low or absent in stage VII, but present in all other stages of the cycle. The same stage-dependent distribution was also observed at the protein level when bioactive IL-1 was measured in extracts of accurately defined one millimeter segments of seminiferous tubules. No IL-1alpha mRNA was detected in adult rat testes after germ cell depletion by fetal irradiation or cytostatic drug treatment. Because stage VII is the only segment of the seminiferous tubules lacking DNA replication, we propose that IL-1alpha is involved in this event during mitosis and meiosis of spermatogenesis and that its expression is dependent upon interactions between Sertoli cells and germ cells.

Cardiomyocyte apoptosis and progression of heart failure to transplantation

BACKGROUND

Cardiomyocyte apoptosis has been found in congestive heart failure, but its clinical significance has been difficult to study. We compared the occurrence of cardiomyocyte apoptosis in explanted hearts with the progression of severe heart failure until the need for transplantation.

DESIGN

Using the TUNEL assay, apoptotic cardiomyocytes were quantified in explanted failing hearts from patients with either idiopathic dilated cardiomyopathy (n = 21) or ischaemic heart disease (n = 14). The percentage was compared with the clinical severity and progression of endstage heart failure. Samples obtained at autopsy and during open heart surgery served as controls.

RESULTS

The number of apoptotic cardiomyocytes was significantly increased in failing hearts regardless of aetiology (medians 0.075% in ischaemic heart disease and 0.119% in dilated cardiomyopathy) compared with control myocardium. In patients with dilated cardiomyopathy, apoptotic cardiomyocytes were more numerous in subjects with a rapidly deteriorating clinical course (0.192%, n = 10) than in patients with intermediate (0.093%, n = 6, P = 0.03) or slow (0.026%, n = 5, P = 0.003) progression. No such association was observed in patients with ischaemic heart disease, in whom we found significantly increased cardiomyocyte apoptosis adjacent to scars of previous infarctions (0.576%) in contrast to the diffuse distribution seen in dilated cardiomyopathy. Expression of Bcl-2, an antiapoptotic protein, was increased in all failing hearts by immunohistochemistry.

CONCLUSION

Cardiomyocyte apoptosis is a consistent feature of end-stage heart failure in man and appears to be quantitatively related to the clinical severity of deterioration in dilated cardiomyopathy. Increased expression of Bcl-2 in cardiomyocytes indicates activation of an antiapoptotic response. These observations suggest that cardiomyocyte apoptosis is a clinically relevant and potentially modifiable pathophysiological phenomenon in severe heart failure.

Real-time observation of acrosomal dispersal from mouse sperm using GFP as a marker protein

We produced transgenic mouse lines that accumulate mutated green fluorescent protein (EGFP) in sperm acrosome, a membrane limited organelle overlying the nucleus. The sperm showed normal fertilizing ability and the integrity of their acrosome was easily examined in a non-invasive manner by tracing the GFP in individual 'live' sperm with fluorescent microscopy. The time required for the dispersal of acrosomal contents was demonstrated to be approximately 3 s after the onset of acrosome reaction.

Function of stem cell factor as a survival factor of spermatogonia and localization of messenger ribonucleic acid in the rat seminiferous epithelium

To address the possibility that stem cell factor (SCF) is a paracrine regulator of germ cell development in the adult rat testis, stage-specific distribution of SCF messenger RNA (mRNA) was investigated with Northern blot and in situ hybridization analyses. The highest levels of SCF mRNA were found in stages II-VI of the rat seminiferous epithelial cycle, whereas the lowest levels were in stages VII-VIII. Intermediate levels of SCF mRNA were detected in stages IX-XIV-I of the cycle. The expression of the SCF gene was found to be developmentally regulated, and the expression pattern followed the process of Sertoli cell proliferation and differentiation during postnatal life. The effect of mouse recombinant SCF on spermatogonial DNA synthesis was studied using an in vitro tissue culture system for stage-defined seminiferous tubules. A significant increase in DNA synthesis in spermatogonia could be detected when tubule segments from stage XII were cultured in the presence of 100 ng/ml SCF for 48 h (P < 0.05) and 72 h (P < 0.01). This observation was further confirmed with autoradiographic analyses; almost a 100-fold increase in thymidine incorporation in the SCF-treated (100 ng/ml) tubule segments was observed compared with that in untreated samples. The results of the present study suggest that SCF is a Sertoli cell-produced paracrine regulator and acts as a survival factor for spermatogonia in the adult rat seminiferous epithelium in a stage-specific manner.

Overexpression of VEGF in testis and epididymis causes infertility in transgenic mice: evidence for nonendothelial targets for VEGF

Vascular endothelial growth factor (VEGF) is a key regulator of endothelial growth and permeability. However, VEGF may also target nonendothelial cells, as VEGF receptors and responsiveness have been detected for example in monocytes, and high concentrations of VEGF have been reported in human semen. In this work we present evidence that overexpression of VEGF in the testis and epididymis of transgenic mice under the mouse mammary tumor virus (MMTV) LTR promoter causes infertility. The testes of the transgenic mice exhibited spermatogenic arrest and increased capillary density. The ductus epididymidis was dilated, containing areas of epithelial hyperplasia. The number of subepithelial capillaries in the epididymis was also increased and these vessels were highly permeable as judged by the detection of extravasated fibrinogen products. Intriguingly, the expression of VEGF receptor-1 (VEGFR-1) was detected in certain spermatogenic cells in addition to vascular endothelium, and both VEGFR-1 and VEGFR-2 were also found in the Leydig cells of the testis. The infertility of the MMTV-VEGF male mice could thus result from VEGF acting on both endothelial and nonendothelial cells of the male genital tract. Taken together, these findings suggest that the VEGF transgene has nonendothelial target cells in the testis and that VEGF may regulate male fertility.

Stage-specific apoptosis of male germ cells in the rat: mechanisms of cell death studied by supravital squash preparations

Apoptosis has been proposed as a mechanism by which testis germ cells are removed during normal and various pathological conditions. To establish a new rapid way to detect stage-specific apoptosis in male rat germ cells, their supravital morphology was examined from carefully squashed monolayers of living cells, after several established toxic treatments, using a phase contrast microscope. The results were compared with early detection of apoptosis using annexin V and propidium iodide (PI) stainings. The apoptosis of type-A spermatogonia and round spermatids proceeded in a similar way to somatic cells, while intermediate and type-B spermatogonia, and particularly the dividing spermatocytes, possessed characteristics not entirely typical for apoptosis. Death of elongated spermatids was difficult to assess owing to their compacted chromatin. As the first phases of degeneration seemed different in various germ cell classes, the final stage (karyopycnosis) was similar for most cells. Degenerating cells also showed positive reactions for annexin V and PI. The 'living cell method' provides rapid and accurate possibilities for analysis of stage-specific apoptosis during spermatogenesis. This method is not influenced by artefacts induced by fixation, embedding and sectioning. It may be developed further for routine analyses of the accurate stage-specific effects of various physical and chemical effects on mammalian and human spermatogenesis.

N-acetyl-L-cysteine inhibits apoptosis in human male germ cells in vitro

Antioxidant defenses play a critical role in the regulation of programmed cell death, even when death is induced by nonoxidative stimuli. During spermatogenesis, most of the testicular germ cells degenerate by an apoptotic process that is under hormonal control. However, the exact mechanisms by which hormonal signals are transduced within the cells to direct their life, and whether other effectors of the apoptotic pathway, for example antioxidants, take part in the control of human germ cell survival, are not known. In the present study, testosterone and N-acetyl-L-cysteine (NAC), which is an antioxidant, an inhibitor of apoptosis in several systems, and a survival factor in human semen, were found to suppress programmed cell death in human testicular germ cells in vitro. The samples came from adult men undergoing orchidectomy for prostate cancer. Germ cell death was induced by incubating segments of seminiferous tubules under serum-free culture conditions. This apoptosis, detected by Southern blot analysis of DNA fragmentation, by DNA labeling in situ, and by morphological analysis under the electron microscope, was significantly inhibited by testosterone at concentrations of 10(-6) and 10(-7) mol/L. NAC concentrations of 125, 100, 50, and 25 mmol/L suppressed germ cell death in a dose-dependent manner. This inhibition was effective during 4, 24, and 48 h of incubation. Apoptotic cells were identified mainly as spermatocytes and early spermatids. Programmed cell death was also demonstrated in late spermatids. We conclude that NAC, which is an antioxidant, plays an important role in germ cell survival in the human seminiferous tubules in vitro. We also suggest NAC as a possible new therapeutic factor for some men with idiopathic oligospermia.

Differential regulation of leucine-rich primary response gene 1 (LRPR1) mRNA expression in rat testis and ovary

In immature rat Sertoli cells, leucine-rich primary response gene 1 (LRPR1) represents a follicle stimulating hormone (FSH)-responsive gene; the function of the encoded protein is not yet known. LRPR1 mRNA expression is up-regulated very rapidly and specifically by FSH, both in cultured Sertoli cells and in vivo in regulation in more detail, in testis and ovary of fetal, immature, and adult rats. In addition, we have studied the expression of FSH receptor (FSHR) mRNA in relation to LRPR1 mRNA expression. In rat testis, LRPR1 mRNA and FSHR mRNA followed a similar expression pattern, during postnatal development and also at different stages of the spermatogenic cycle in the adult rat. Furthermore, after short-term challenge of the FSH signal transduction pathway in intact immature rats by injection with a relatively high dose of FSH, an inverse relationship between LRPR1 mRNA (up-regulation) and FSHR mRNA expression (down-regulation) was observed. Similar studies in the ovary provided completely different results. LRPR1 mRNA in the postnatal ovary is present well before expression of FSHR mRNA can be first detected. In addition, incubation of ovaries of immature rats with FSH or dibutyryl cyclic AMP (dbcAMP) did not result in up-regulation of LRPR1 mRNA expression. During fetal development, the LRPR1 mRNA expression pattern involved many more tissues, in contrast to the relatively tissue-specific expression of LRPR1 mRNA in gonads of 21 day old and adult rats. Moreover, LRPR1 mRNA expression could be detected as early as 12.5 days post-coitum, whereas FSHR mRNA is absent at this stage of fetal development. We concluded that the pronounced regulation of LRPR1 by FSH observed in the immature rat testis does not occur in the ovary. Furthermore, in the ovary LRPR1 mRNA expression does not appear to be dependent on FSH action. Finally, the LRPR1 gene product may play a general role during fetal development.

Histochemical tracing of zinc ions in the rat testis

To detect free zinc ions in the rat testes four rats were transcardially perfused with Na2S, and the seminiferous tubules from two other rats were incubated in Na2S. Sections from the two sources were autometallographically (AMG) developed, whereby zinc sulphide crystal lattices created in the tissue by the sulphide treatment were silver enhanced. Light microscopical analysis showed zinc ions in primary spermatogonia until the zygotene primary spermatocytes (stage I), in late pachytene spermatocytes (stages XII and XIII), and in late spermatids from step 15 to step 19 (stages I-VIII). The highest intensity of AMG grains was detected in the residual bodies and tails of step 19 spermatids. Grains were occasionally found in the cytoplasm of Leydig cells. Sections from animals treated with the chelator diethyldithiocarbamate prior to sulphide treatment showed a complete lack of AMG staining. At ultrastructural levels the AMG grains were found in smooth-surfaced endoplasmic reticulum of all spermatogonial stages, and in the acrosome, midpiece, and tail of late spermatids. The presence of zinc ions in preleptotene spermatocytes and cytoplasmic lobes of late spermatids suggests a specific role of free zinc at the onset of meiosis and at spermiation.

Elevated expression of lanosterol 14alpha-demethylase (CYP51) and the synthesis of oocyte meiosis-activating sterols in postmeiotic germ cells of male rats

Mammalian CYP51 encodes lanosterol 14alpha-demethylase (P45014DM) that is involved in the postsqualene part of cholesterol biosynthesis. This enzyme removes the 14alpha-methyl group from lanosterol and 24,25-dihydrolanosterol producing intermediates in cholesterol biosynthesis, the oocyte meiosis-activating sterols FF-MAS and MAS-412. Human and rat CYP51 messenger RNAs (mRNAs) are expressed in all tissues, with highest levels in the testis due to the presence of an additional shorter CYP51 transcript in this tissue. In situ hybridization shows the highest CYP51 mRNA levels in seminiferous tubules, with only background levels in Leydig cells. The rat testis-specific CYP51 mRNA arises from the use of an upstream polyadenylation site and is restricted to germ cells, being most abundant in elongating spermatids in stages VII-XIV, whereas somatic CYP51 transcripts are present in all cells. In contrast, the mRNA levels of squalene synthase are maximal in round spermatids, and no germ cell-specific transcript is observed. The rat male germ cell-specific CYP51 transcript is translated in vitro to two proteins of approximately 55 and 53.5 kDa. CYP51 activity is higher in protein extracts of testes and germ cells of sexually mature rats than in prepubertal animals, in which postmeiotic germ cells are not yet present. This shows increased capacity for the production of MAS sterols by male germ cells that have already completed meiosis, suggesting that they serve a role different from meiosis activation.

Stage-specific expression and cellular localization of the heat shock factor 2 isoforms in the rat seminiferous epithelium

Heat shock transcription factors (HSFs) are generally known as regulators of cellular stress response. The mammalian HSF1 functions as a classical stress factor, whereas HSF2 is active during certain developmental processes, including embryogenesis and spermatogenesis. In the present study, we examined HSF2 expression at specific stages of the rat seminiferous epithelial cycle. We found that expression of the alternatively spliced HSF2-alpha and HSF2-beta isoforms is developmentally regulated in a stage-specific manner. Studies on cellular localization demonstrated that HSF2 is present in the nuclei of early pachytene spermatocytes at stages I-IV and in the nuclei of round spermatids at stages V-VIIab. In contrast a strong HSF2 immunoreactivity was detected in small distinct cytoplasmic regions from zygotene spermatocytes to maturation phase spermatids. Immunoelectron microscopic analysis revealed that these structures are mainly cytoplasmic bridges between germ cells. Our results on cellular localization of HSF2 and stage-specific expression of the HSF2 isoforms indicate that HSF2, in addition to its function as a nuclear transcription factor, may be involved in other cellular processes during spermatogenesis, possibly in the sharing process of gene products between the germ cells.

The in vivo expression pattern of mouse Nek2, a NIMA-related kinase, indicates a role in both mitosis and meiosis

The human protein kinase Nek2 is related to the NIMA cell cycle regulatory kinase of Aspergillus nidulans. Whereas NIMA has been shown to be essential for cell cycle progression into mitosis in this fungus, the function of mammalian Nek2 remains to be elucidated. In this study, we isolated a cDNA coding for a mouse ortholog of human Nek2 and analyzed the expression of this kinase in different organs. RNase protection assays performed on RNAs from mouse adult organs showed very high expression of Nek2 in testis. Lower levels of transcripts were detected in intestine, thymus, and skin, three mitotically active organs, and whole-mount in situ hybridization performed on 10.5-day embryos allowed the detection of Nek2 transcripts in the brain. In situ hybridization analysis of testis sections revealed that the transcription of Nek2 occurred in a stage-specific manner during spermatogenesis. The strongest signals were seen in cells undergoing meiosis, but Nek2 transcripts could also be detected in haploid cells (stage I and II spermatids). Extending these results, in situ hybridization performed on ovary sections revealed strong signals in meiotically active oocytes. In addition, some Nek2 transcription was observed in actively dividing follicle cells surrounding the oocytes and in the oviduct. Finally, indirect immunofluorescence staining of testis sections with Nek2-specific antibodies confirmed that this kinase is highly expressed in spermatocytes and, to a lesser extent, in early spermatids. Taken together, these results indicate that Nek2 may play an important role not only during mitosis but also during meiosis.

Stage-specific degeneration of germ cells in the seminiferous tubules of non-obese diabetic mice

The cause of fertility problems in insulin-dependent diabetes is largely unknown. To evaluate the role of autoimmunity-associated phenomena in the testis as a possible cause of the derangement in spermatogenesis, the stage-specific apoptosis of germ cells in the insulitis phase of pre-diabetes was quantified in the testes of non-obese diabetic (NOD) mice. The seminiferous epithelium of normal BALB/c and NOD mice contained cells positive for in-situ end-labelling (ISEL) of DNA. ISEL-positive germ cells formed clusters in the seminiferous epithelium of the NOD mice in marked contrast to the seminiferous epithelium of the BALB/c mice, which contained only individual cells positive for ISEL. ISEL-positive cells were present in the basal and luminal compartments of the epithelium. Ultrastructural analysis and demonstration of externalized phosphatidyl serine confirmed that the cells were undergoing apoptosis. The ultrastructurally apoptotic cells included spermatogonia, spermatocytes and spermatids. In cytological squash preparations of segments of seminiferous tubules from NOD mice aged 17-20 weeks, the number of ISEL-positive cells/mm tubule was significantly lower in segments at stages I-II of the seminiferous epithelial wave but higher at stages III-IV in comparison to BALB/c mice. The numbers of ISEL-positive cells/mm tubule in the other stages were similar in the two strains of mice. Analysis of 32P-3'-end labelled DNA from the testes showed that the BALB/c mice had relatively more DNA fragmentation than did the NOD mice. These data suggest that autoimmune insulitis in the NOD mice is associated with increased amounts and abnormal stage distribution of apoptosis in the seminiferous epithelium, resulting in derangement of spermatogenesis.

Computer analysis of living cells: movements of the chromatoid body in early spermatids compared with its ultrastructure in snap-frozen preparations

Quantitative analyses of cytoplasmic and nuclear organelle movements in living interphase cells at defined stages of differentiation are few. By phase contrast videomicroscopy and digital imaging techniques, we have traced the path of the chromatoid body (CB) and analysed its rapidly changing positions in relation to the nuclear envelope, Golgi complex and nuclear pale chromatin areas in living early spermatids of the rat. The CB had intimate interactions with the nuclear envelope and moved both in parallel and perpendicular fashion in relation to it. It had successive short contacts with the Golgi complex and nuclear pale chromatin areas. It was also seen to scan between two pale chromatin areas and it had pinocytosis-like transient engulfments during interactions with the pale chromatin. In ultrastructural analysis of snap-frozen preparations, the CB had a large contact area with the nuclear envelope with several intermediate organelles that may be involved in nucleocytoplasmic material transport. It is evident that quantitative image analysis of living cells is a powerful guide for ultrastructural analyses. The snap-freezing technique gives new possibilities for studies of structures that are sensitive to conventional fixation procedures.

Testosterone regulates apoptosis in adult human seminiferous tubules in vitro

In the present study an in vitro model was developed and characterized for evaluation of the role of apoptosis in adult human testes. The samples came from adult men undergoing orchidectomy for prostate or testicular cancer. Segments of seminiferous tubules were isolated and incubated under serum-free conditions in the absence or presence of testosterone. Apoptosis was assessed by low mol wt DNA fragmentation (185-bp multiples) by use of 3'-end-labeled DNA, in situ end labeling, and morphological detection under light and electron microscopy. During the 4-h incubation, a 15-fold increase was seen in apoptotic DNA fragmentation. The extent of low mol wt DNA showed a time-dependent increase and reached a 20-fold intensity in 24 h of incubation compared to the level at 0 h. Apoptosis was significantly suppressed by testosterone concentrations of 10(-7) and 10(-6) mol/L during the first 4 h of incubation. Apoptotic cells were identified mainly as spermatocytes and occasionally as spermatids. We conclude that apoptosis is induced in human seminiferous tubules under serum-free conditions in vitro. That this apoptosis is suppressed by testosterone indicates that testosterone in the human male is a critical germ cell survival factor. The model created in the present study provides a valuable tool for further investigation of hormonal and gene regulation of human germ cell death and survival.

Apoptosis in human acute myocardial infarction

BACKGROUND

After reopening of the infarct-related coronary artery, cardiomyocytes continue to die during reperfusion. The mechanisms of cell death have been subject to debate. We studied whether an apoptotic type of cell death occurs in human acute myocardial infarction (AMI).

METHODS AND RESULTS

We studied myocardial samples of eight patients who died of AMI and had patent infarct-related arteries at autopsy. Six of the patients had received initially successful thrombolysis. Extensive formation of DNA strand breaks, the typical biochemical feature of apoptosis, was detected with the use of the in situ DNA end-labeling method. Apoptotic cardiomyocytes were observed particularly in the border zones of histologically infarcted myocardium, whereas very few apoptotic cells were present in the remote noninfarcted myocardium. Internucleosomal fragmentation was confirmed by agarose gel electrophoresis of DNA isolated from the representative myocardial areas.

CONCLUSIONS

This study provides evidence that in addition to overt necrosis, a subset of myocytes undergo apoptosis during ischemia-reperfusion injury. Apoptosis may provide a new target for cardioprotection during evolving AMI in humans.

The transcriptional and translational control of diazepam binding inhibitor expression in rat male germ-line cells

The diazepam binding inhibitor [DBI, also known as acyl-CoA-binding protein, (ACBP), or endozepine] is a 10-kD protein that has been suggested to be involved in the regulation of several biological processes such as acyl-CoA metabolism, steroidogenesis, insulin secretion, and gamma-aminobutyric acid type A (GABA(A))/benzodiazepine receptor modulation. DBI has been cloned from vertebrates, insects, plants, and yeasts. In mammals, DBI is expressed in almost all the tissues studied. Nevertheless, DBI expression is restricted to specific cell types. Here we have studied DBI gene expression in the germ-line cells of rat testis. The DBI gene was intensively transcribed in postmeiotic round spermatids from stages VI to VIII of the seminiferous epithelial cycle. A prominent, spermatid-specific upstream transcription initiation site was identified in addition to the multiple common transcriptional initiation sites found in the somatic tissues. However, no DBI protein was detected in round spermatids, suggesting that the DBI transcripts were translationally arrested. The DBI protein was detected in the late spermatogenic stages starting from elongating spermatids from step 18 (stage VI) onward. The DBI protein was also detected in mature spermatozoa and in ejaculated human sperms. The majority of DBI was located at the middle piece of the spermatozoons tail enriched with mitochondria. On the basis of this observation and the well-established role of DBI in acyl-CoA metabolism, we propose that DBI expression in spermatozoa reflects the usage of fatty acids as a primary energy source by spermatozoa. The biological function of DBI in spermatozoa could thus be related to the motility function of sperm.

Hormonal and developmental regulation of DAX-1 expression in Sertoli cells

Mutations in the human DAX-1 gene lead to X-linked adrenal hypoplasia congenita and hypogonadotropic hypogonadism. DAX-1 has been proposed to play a role in steroidogenesis because it is highly expressed in adrenocortical and testicular Leydig cells and because loss-of-function mutations lead to low serum levels of steroid hormones. Recent reports of DAX-1 expression in hypothalamus and pituitary, however, suggest additional functions for this protein. Here we demonstrate that DAX-1 is expressed in Sertoli cells of rat testis. This expression is regulated during spermatogenesis and peaks during the androgen-sensitive phase of the spermatogenic cycle. In addition, we show that DAX-1 expression in Sertoli cells is regulated developmentally. Maximum levels are present in the rat between postnatal days 20 and 30, during the first spermatogenic wave. Moreover, we show that activation of the cAMP-signaling pathway by the pituitary hormone FSH leads to a potent down-regulation of DAX-1 expression in cultured Sertoli cells. This down-regulation requires transcription and de novo protein synthesis. Taken together, these data indicate that DAX-1 expression in Sertoli cells may influence the development of spermatogenic cells in response to steroid and pituitary hormones.

Stage-specific expression of the FSH receptor gene in the prepubertal and adult rat seminiferous epithelium

Stage-specific expression of the FSH receptor (FSHR) gene in the rat seminiferous epithelium was studied. Using transillumination-assisted microdissection for sample preparation and Northern hybridization for analysis of total RNA, we first reassessed the stage specificity of the FSHR gene expression in the adult rat testis. Sixfold higher FSHR mRNA levels were found in stages XIII-I compared with stage VI of the seminiferous epithelial cycle, which had the lowest signal level (P < 0.01). The other stages had intermediate signal levels. In situ hybridization showed distribution of grains which confirmed the data obtained by Northern analysis. Prepubertal stage-specific FSHR gene expression was studied using in situ hybridization. Stage specificity could first be demonstrated at the age of 16 days when the average grain counts in stages I-IV were threefold higher than in stages VI-VII (P < 0.01). The present data are in agreement with earlier findings on stage-specific FSH binding and FSHR gene expression using both microdissected and stage-synchronized seminiferous tubules. The onset of stage-specific FSHR gene expression is concomitant with maturation of the Sertoli cell population and completion of the first generation of spermatocytes. This supports the hypothesis that spermatogonia and spermatocytes may be involved in the regulation of FSHR gene expression.

Stage-specific apoptosis in the rat seminiferous epithelium: quantification of irradiation effects

The effects of 3 Gy local X-irradiation on the adult rat testis were studied together with exact determination of the radiation dose distribution in the testis. Seminiferous tubule segments were isolated 8-66 hours postirradiation (p.i.), squashed between a microscope slide and a coverslip, and the exact stage of the seminiferous epithelial cycle was identified under a phase-contrast microscope. The squash preparations were subjected to in situ end labeling (ISEL) for visualization and quantification of apoptotic cells. In controls, the highest numbers of apoptotic cells were scored in stages XII-XIV and I. In situ end-label staining of cells was observed in A3-A4 spermatogonia, spermatocytes at zygotene, pachytene, and meiotic division phases, as well as in early spermatids. In irradiated testes, from 8 hours p.i. and onward, intermediate- and B-type spermatogonia were sensitive at stages II-VI. At 42 hours, in stage I, elevated numbers of degenerating spermatocytes were seen. Most of them had not undergone meiotic divisions at stage XIV and showed an apoptotic type of degeneration at stage I. At the time of irradiation, the cells were in stage XIII, suggesting that diakinetic spermatocytes are particularly sensitive to irradiation. Also, preleptotene-zygotene spermatocytes in stages VII-XII were sensitive to irradiation. Apoptotic-type of cell degeneration was confirmed by living cell squash preparations, electron microscopy, and DNA electrophoresis. In conclusion, irradiation may provide a useful model system for studying apoptosis, and its control in spermatogonia and meiotically dividing cells.

Variation in expression of hsp27 messenger ribonucleic acid during the cycle of the seminiferous epithelium and co-localization of hsp27 and microfilaments in Sertoli cells of the rat

The purpose of these studies was to define expression of hsp27 mRNA during the cycle of the seminiferous epithelium and to determine the distribution of hsp27 protein in the rat testis. To study hsp27 mRNA expression, a rat hsp27 cDNA was isolated and sequenced (GenBank no. M86389). The cDNA was used in Northern blot analysis to estimate the relative levels of hsp27 mRNA in rat seminiferous tubule segments selected for different stages of the cycle of the seminiferous epithelium. The level of hsp27 mRNA was low during stages IX-XII of the cycle of the seminiferous epithelium. Approximately 15-fold higher levels of hsp27 mRNA were expressed during stages II-VI, with intermediate levels being expressed during stages XIII-I and VII-VIII. No effect of FSH on hsp27 mRNA expression was detected in cultured Sertoli cells, suggesting that hsp27 synthesis in Sertoli cells is not directly regulated by FSH. The distribution of hsp27 was also studied by use of immunofluorescence in frozen sections of rat testis, in isolated seminiferous tubules, in primary cultures of Sertoli cells isolated from 19-26-day-old rats, in peritubular myoid cells from 26-day-old rats, and in several cell lines. Microfilaments were localized in similar preparations by using rhodamine-phalloidin or BODIPY-phallicidin (Molecular Probes, Eugene, OR). The hsp27 was co-localized with micro-filaments in Sertoli cells from 20-day-old and older rats, but not in Sertoli cells from younger rats. In other cell types, hsp27 was diffusely distributed throughout the cytoplasm. These results demonstrate that hsp27 expression varies with the cycle of the seminiferous epithelium and provide the first direct morphological evidence that hsp27 is associated with microfilaments in a normal, intact tissue. They also suggest that Sertoli cell micro-filaments, by virtue of their associated hsp27, may be different in composition and function from microfilaments of peritubular myoid cells and many other cell types.

Sequential expression of nucleoproteins during rat spermiogenesis

Transition proteins and protamines are highly basic sperm-specific nuclear proteins that serve to compact the DNA during late spermiogenesis. To understand their sequential role in this function, transition protein 1 (TP1), transition protein 2 (TP2), and protamine 1 (P1) were assayed by polyacrylamide gel electrophoresis in pools of microdissected, staged seminiferous tubule segments in the rat. The results were compared with immunocytochemical analyses of squash preparations from accurately identified stages of the epithelial cycle. TP2 was the first to appear as a faint band at stages IX-XI, followed by high levels at stages XII-XIV of the cycle. TP1 showed a low expression at stage XII of the cycle and peaked at stages XIII-I, whereas protamine 1 first appeared at stage I of the cycle and remained high throughout the rest of spermiogenesis. Immunocytochemical analyses and Western blots largely confirmed these results: TP2 in steps 9-14, TP1 in steps 12-15, and P1 from late step 11 to step 19 of spermiogenesis. We propose that TP2 is the first nucleoprotein that replaces histones from the spermatid nucleus, and its appearance is associated with the onset of nuclear elongation. TP1 shows up along with the compaction of the chromatin. The two transition proteins seem to have distinct roles during transformation of the nuclei and compaction of spermatid DNA.

Lipopolysaccharide induced apoptosis of rat pancreatic acinar cells

BACKGROUND

Bacterial lipopolysaccharide (LPS) has been proposed to participate in the pathogenesis of pancreatic inflammatory disease.

AIMS

This study investigated the role of endotoxaemia in the pathogenesis of pancreatic acinar cell injury.

METHODS

Sixty eight male Spraque-Dawley rats were used in the study. Escherichia coli LPS (5 mg/kg) was injected into the peritoneal cavity of the rats. The concentration of pancreatic phospholipase A2 (PLA2) in plasma was measured and pancreatic tissue examined by histology, in situ detection of free DNA 3'-ends, and electrophoretic DNA analysis.

RESULTS

The concentration of pancreatic PLA2 increased in plasma and the catalytic activity of PLA2 increased in pancreatic tissue after an LPS injection. Apoptosis in pancreatic acinar cells and fragmentation of DNA typical of apoptosis in pancreatic tissue was seen 24 hours after an LPS injection. Pancreatic acinar atrophy was seen 72 hours after the LPS injection.

CONCLUSIONS

These data show that LPS causes release of pancreatic PLA2 into blood plasma, activation of PLA2 in pancreatic tissue, and apoptosis of acinar cells.

In vitro, follicle-stimulating hormone prevents apoptosis and stimulates deoxyribonucleic acid synthesis in the rat seminiferous epithelium in a stage-specific fashion

The effects of FSH on stage-specific apoptosis and DNA synthesis in the adult rat seminiferous epithelium were studied in vitro. Seminiferous tubular segments from stages I, V, VIIa, and VIII-IX were cultured for 24, 48, and 72 h in different concentrations of FSH. Apoptotic cells were detected by in situ end labeling of DNA strands and quantified from squash preparations. After 48 h of culture, a FSH concentration of 2 ng/ml prevented apoptosis of early (steps 1-3) spermatids. In stage VIII-IX tubules cultured for 72 h, FSH decreased the apoptosis of pachytene spermatocytes. An apoptotic type of cell death of germ cells was confirmed by DNA laddering, electron microscopy, supravital acridine orange staining, and phase contrast microscopy of unstained living cells. The effects of FSH on stage-specific DNA synthesis were studied using the same culture system. FSH increased [3H]thymidine incorporation specifically at stages I and VIII-IX, and autoradiography confirmed stimulation of mitotic and meiotic DNA synthesis in type B spermatogonia and preleptotene spermatocytes, respectively. Increased thymidine incorporation also suggested that FSH stimulated DNA synthesis of type A and intermediate spermatogonia. Most effects exerted by FSH were seen in stages containing high levels of FSH receptors and FSH-stimulated cAMP production. In conclusion, the results suggest that FSH, probably acting via Sertoli cells, has a regulatory function in spermatogenic apoptosis and DNA synthesis in stages previously demonstrated to be preferentially dependent on FSH stimulation.

Microtubule-associated protein-2 in the rat testis: a novel site of expression

The testis is one of the most abundant sources of microtubule networks. These networks include mitotic and meiotic spindles, the spermatid manchette and axoneme, and the Sertoli cell cytoskeleton. Microtubules are composed of alpha- and beta-tubulin subunits that are polymerized and stabilized by a variety of microtubule-associated proteins (MAPs). One of these, MAP2, has been extensively characterized as a brain-specific protein with the capacity to bind tubulin, cAMP-dependent kinase, and calmodulin. MAP2 mRNA is processed into at least two variants encoding proteins designated MAP2a, MAP2b, and MAP2c. Of the 5.7 kb of coding sequence in the 9-kb mRNA that encodes MAP2a and MAP2b, a deletion of approximately 4 kb produces mRNA encoding MAP2c, which consists of only the N- and C- terminal regions of MAP2b. To determine whether MAP2 was present in the rat testis, microtubule preparations were isolated from adult rat testis and brain by means of taxol-mediated polymerization and analyzed by gel filtration, ELISA, and Western blotting using polyclonal and monoclonal antibodies reactive with MAP2. A 74-kDa protein corresponding to MAP2c was detected in the testis. These results were confirmed by Northern blot analysis of total RNA from adult rat brain and testis with cDNA probes that distinguish between the known MAP2 splice variants. The predominant mRNAs in testis of 6 kb and 2.5-3.5 kb corresponded to MAP2c. A single 6-kb mRNA with the potential to encode MAP2c was detected in enriched preparations of immature Sertoli cells and adult Leydig cells. Round spermatids contained at least two MAP2 mRNAs between approximately 2.5 and 3.5 kb in size that displayed a stage-specific pattern of expression. Immunohistochemistry showed a MAP2-like protein in both somatic and germ cells, with a particularly distinct localization within the cytoplasm of primary and secondary spermatocytes at stage XIV of the seminiferous cycle during meiotic metaphase. In addition to cytoplasmic staining, a novel localization of this protein was observed in the nucleus of many testicular cells.