Haemoglobin Etobicoke, an incidental finding in an Irish diabetic

It is well recognized that haemoglobin variants can be detected during the measurement of HbA1c by high-performance liquid chromatography (HPLC). A number of variants have been reported as compromising the quantification of HbA1c, a marker used in the assessment of glycaemic control in diabetes. We describe a case of haemoglobin Etobicoke, a rare alpha chain variant detected in an Irish diabetic during HbA1c analysis. Its identity was confirmed using a series of investigations. These included haemoglobin electrophoresis at alkaline and acid pH, isoelectric focusing and globin chain electrophoresis. Ultimately mass spectrometry isolated the mutation at position alpha 84 (F5). Haemoglobin Etobicoke, first described in Canada in 1969 has not previously been detected on HbA1c analysis. In the presence of this rare variant, HbA1c, a standard method using HPLC to assess glycaemic control in diabetes is unreliable and alternatives such as fructosamine need to be considered. HbA1c measured by automated HPLC will effectively screen populations where haemoglobin variants were not previously known. Precise identity of these variants when they are detected is crucial to the reliable interpretation of HbA1c analyses.

Differential expression of CCAAT/enhancer-binding protein-delta (c/EBPdelta) in rat androgen-dependent tissues and human prostate cancer

CCAAT/enhancer-binding protein delta (C/EBPdelta) is a nuclear transcription factor that regulates cellular growth and differentiation. In this study we demonstrate that C/EBPdelta gene expression is differentially regulated in rat androgen-dependent tissues and human prostate cancer. C/EBPdelta messenger RNA (mRNA) levels were very low in adult rat ventral prostate, epididymis, and testis. In ventral prostate and epididymis, expression of C/EBPdelta mRNA increased more than sixfold when testicular testosterone was eliminated by surgical castration or treatment with ethane-1,2-dimethanesulfonate (EDS). Testosterone replacement reduced C/EBPdelta mRNA levels to near control values in both tissues. CWR22 is a human prostate cancer xenograft that mimics biological characteristics of androgen-dependent and androgen-independent human prostate cancer. In androgen-dependent CWR22 tumors, expression of C/EBPdelta mRNA declined in response to castration. Both C/EBPdelta mRNA and protein levels increased following testosterone administration. However, C/EBPdelta mRNA and protein levels were variable in recurrent CWR22 tumors growing in the absence of testicular androgen for approximately 5 months. C/EBPdelta expression was also variable in androgen-independent human prostate carcinomas (n = 3), although mRNA levels were substantially lower than those in androgen-dependent tumors (n = 3). These studies demonstrate that androgen down-regulates C/EBPdelta levels in androgen-dependent rat tissues, but induces C/EBPdelta expression in androgen-dependent human prostate cancer. Deregulation of C/EBPdelta occurs when prostate cancer progresses to the androgen-independent state.

Predictable maxillary central incisor reconstruction: surgical and prosthetic case report

Replacing a maxillary incisor is a challenge from both a functional and esthetic standpoint. Techniques that strive to return the site to be reconstructed to its optimal state, thereby mimicking the natural dentition, must be employed. This case report serves to outline the steps necessary to reconstruct a commonly encountered maxillary prosthetic challenge. With a combination of surgical and prosthetic steps, an optimal prosthetic result can be achieved. This cooperation between general dentist, surgeon, and laboratory technician will serve to provide predictable and long-lasting return to a near-normal anatomic state, thereby offering our patients the highest level of care for prosthetic replacement.

Insulin-like growth factor-II/cation-independent mannose 6-phosphate receptor mediates paracrine interactions during spermatogonial development

The insulin-like growth factor-II/cation-independent mannose 6-phosphate (IGF-II/M6P) receptor transduces signals after binding IGF-II or M6P-bearing growth factors. We hypothesized that this receptor relays paracrine signals between Sertoli cells and spermatogonia in the basal compartment of the seminiferous epithelium. For these studies spermatogonia were isolated from 8-day-old mice with purity >95% and viability >85% after overnight culture. The IGF-II/M6P receptors were present on the surface of spermatogonia, as detected by indirect immunofluorescence. We determined that both IGF-II and M6P-glycoproteins in Sertoli cell conditioned medium (SCM) modulate gene expression in isolated spermatogonia. The IGF-II produced dose-dependent increases in both rRNA and c-fos mRNA. These effects were mediated specifically by IGF-II/M6P receptors, as shown by studies using IGF-II analogues that are specific agonists for either IGF-I or IGF-II receptors. The SCM treatment also induced dose-dependent increases in rRNA levels, and M6P competition showed that this response required interaction with IGF-II/M6P receptors. The M6P-glycoproteins isolated from SCM by IGF-II/M6P receptor affinity chromatography increased spermatogonial rRNA levels at much lower concentrations than required by SCM treatment, providing further evidence for the paracrine activity of Sertoli M6P-glycoproteins. These results demonstrate that Sertoli cells secrete paracrine factors that modulate spermatogonial gene expression after interacting with cell-surface IGF-II/M6P receptors.

Functional collaboration between different cyclin-dependent kinase inhibitors suppresses tumor growth with distinct tissue specificity

The presence of two families of seven distinct mammalian cyclin-dependent kinase (CDK) inhibitor genes is thought to mediate the complexity of connecting a variety of cellular processes to the cell cycle control pathway. The distinct pattern of tissue expression of CDK inhibitor genes suggests that they may function as tumor suppressors with different tissue specificities. To test this hypothesis, we have characterized two strains of double mutant mice lacking either p18(INK4c) and p27(KIP1) or p18(INK4c) and p21(CIP1/WAF1). Loss of both p18 and p27 function resulted in the spontaneous development by 3 months of age of at least eight different types of hyperplastic tissues and/or tumors in the pituitary, adrenals, thyroid, parathyroid, testes, pancreas, duodenum, and stomach. Six of these hyperplastic tissues and tumors were in endocrine organs, and several types of tumors routinely developed within the same animal, a phenotype reminiscent of that seen in combined human multiple endocrine neoplasia syndromes. The p18-p21 double null mice, on the other hand, developed pituitary adenomas, multifocal gastric neuroendocrine hyperplasia, and lung bronchioalveolar tumors later in life. G(1) CDK2 and CDK4 kinase activities were increased in both normal and neoplastic tissues derived from mice lacking individual CDK inhibitors and were synergistically stimulated by the simultaneous loss of two CDK inhibitors. This indicates that an increase in G(1) CDK kinase activity is a critical step during but is not sufficient for tumor growth. Our results suggest that functional collaborations between distinct CDK inhibitor genes are tissue specific and confer yet another level of regulation in cell growth control and tumor suppression.

Human glyceraldehyde 3-phosphate dehydrogenase-2 gene is expressed specifically in spermatogenic cells

Although the process of glycolysis is highly conserved in eukaryotes, several glycolytic enzymes have unique structural or functional features in spermatogenic cells. We previously identified and characterized the mouse complementary DNA (cDNA) and a gene for 1 of these enzymes, glyceraldehyde 3-phosphate dehydrogenase-s (Gapds). This gene is expressed only in spermatids. The enzyme appears to have an essential role in energy production required for fertilization, and it is reported to be susceptible to inhibition by certain environmental chemicals. We have now cloned and sequenced the cDNA for the human homologue of glyceraldehyde 3-phosphate dehydrogenase (GAPD2) and determined the structure of the gene. The messenger RNA (mRNA) was detected in testis, but not in 15 other human tissues analyzed by Northern blot technique. The deduced GAPD2 protein contains 408 amino acids and is 68% identical with somatic cell GAPD. GAPD2 has a 72-amino acid segment at the amino terminal end that is not present in somatic cell GAPD. This segment is proline-rich but contains smaller stretches of polyproline and is 30 amino acids shorter than the comparable segment of mouse GAPDS. The structure of the human GAPD2 gene was determined by polymerase chain reaction (PCR) to identify exon-intron junctions in a genomic clone and in total genomic DNA. The locations of these junctions in the GAPD2 gene corresponded precisely to those of the 11 exon-intron junctions in the mouse Gapds gene. Immunohistochemical studies found that GAPD2 is located in the principal piece of the flagellum of human spermatozoa, as are GAPDS in mouse and rat spermatozoa. GAPD2 extracted from human spermatozoa and analyzed by Western blot technique migrated with an apparent molecular weight of approximately 56,000, although the calculated molecular weight is 44 501. The conserved nature of the mouse, rat, and human enzymes suggests that they serve similar roles in these and other mammalian species.

Failure of spermatogenesis in mouse lines deficient in the Na(+)-K(+)-2Cl(-) cotransporter

The Na(+)-K(+)-2Cl(-) cotransporter (NKCC1) carries 1 molecule of Na(+) and K(+) along with 2 molecules of Cl(-) across the cell membrane. It is expressed in a broad spectrum of tissues and has been implicated in cell volume regulation and in ion transport by secretory epithelial tissue. However, the specific contribution of NKCC1 to the physiology of the various organ systems is largely undefined. We have generated mouse lines carrying either of 2 mutant alleles of the Slc12a2 gene, which encodes this cotransporter: a null allele and a mutation that results in deletion of 72 amino acids of the cytoplasmic domain. Both NKCC1-deficient mouse lines show behavioral abnormalities characteristic of mice with inner ear defects. Male NKCC1-deficient mice are infertile because of defective spermatogenesis, as shown by the absence of spermatozoa in histological sections of their epididymides and the small number of spermatids in their testes. Consistent with this observation, we show that Slc12a2 is expressed in Sertoli cells, pachytene spermatocytes, and round spermatids isolated from wild-type animals. Our results indicate a critical role for NKCC1-mediated ion transport in spermatogenesis and suggest that the cytoplasmic domain of NKCC1 is essential in the normal functioning of this protein.

Construction and preliminary characterization of a series of mouse and rat testis cDNA libraries

We have constructed a series of 23 cDNA libraries from mouse and rat testicular cells. These include libraries made from whole, intact adult testes; seminiferous tubule cells from adult testes; combined populations of primary spermatocytes from 18-day-old mouse testes; and isolated populations of primitive type A spermatogonia, type A spermatogonia, type B spermatogonia, preleptotene spermatocytes, leptotene plus zygotene spermatocytes, juvenile pachytene spermatocytes, adult pachytene spermatocytes, round spermatids, Sertoli cells from 6-, 8-, 17-, and 18-20-day-old mice, and peritubular cells from 18-20 day old mice, all recovered from outbred white Swiss (CD-1) mice. We also constructed libraries from whole adult testes from five other lines of mice: C57 Bl6/J, C3 HEB, BDF-1, Balb/c, and 129 Sv. Finally, there are two libraries made from populations of Sertoli cells and peritubular cells isolated from testes of 20-day-old Sprague-Dawley rats. Enzymatic dissociation, followed by gradient separation or plating/lysing techniques, was used to prepare populations of specific cell types in purities of 85-98%. cDNAs were synthesized from poly A+ mRNA primed with oligo dT and unidirectionally cloned into the lambda Uni-Zap XR expression vector from Stratagene. Primary titers ranged from 2.1 x 10(5) to 2.9 x 10(8) plaque-forming units, and insert sizes averaged 1.0-1.2 kb. These libraries have been amplified once and submitted to the American Type Culture Collection (ATCC) for distribution to interested investigators. ATCC accession numbers are provided.

Targeted intervention to improve compliance in an urban hemodialysis population

Noncompliance impacts the successful delivery of care to the "urban" ESRD population. It is our belief that noncompliance can be an extension of the dysfunctional coping mechanisms of patients who lack adequate psychosocial support. In this article, we have described a pilot program providing on-site, targeted intervention for patients identified at increased risk for poor clinical outcomes, based on failure to comply with the prescribed dialysis treatment prescription. This collaboration between our "nephrology practice," an outpatient "HD facility," and a "C-L psychiatry service" has resulted in extremely low no-show rates in an urban dialysis population. We have also discovered an opportunity for reducing hospitalizations. Targeted intervention can improve compliance and prove to be cost effective.

Hair bundle morphology on surviving hair cells of the chick basilar papilla exposed to intense sound

Exposure to intense sound produces a well-defined "patch" lesion on the chick basilar papilla in which 30-35% of the short hair cells are lost. The present study compares various aspects of sensory hair bundle morphology on surviving hair cells in the patch lesion with hair bundles from matched locations on nonexposed control papilla immediately after removal from the exposure and 12-days post exposure. The height and thickness of the hairs, the total number of hairs in the bundle, the width of the bundle, and the area and perimeter of the apical surface of the hair cell were quantified from scanning electron microscope photomicrographs. An attempt was also made to determine if there was a consistent microstructure to the pattern of hair cell loss within the lesion area. Similar observations in 12-day recovered ears are also presented. The results indicated that stereocilia height increased and width decreased on surviving hair cells in the exposed ear. The width of the hair bundle, the hair cell surface area, and perimeter also decreased. However, the number of hairs per cell remained unchanged, and there was no evidence of any consistent organization to the hair cell loss within the patch across a number of specimens. These observations indicated that the hair bundles on short hair cells underwent changes as a consequence of intense sound exposure. The results after 12 days of recovery were complicated by developmental changes on the papilla and incomplete maturation of the newly regenerated hair cells. It remains to be seen whether these changes were the result of cell sampling in the sound-damaged ear or were due to true structural alterations within the sensory hairs themselves.

Expression of germ cell nuclear factor (GCNF/RTR) during spermatogenesis

Germ cell nuclear factor (GCNF/RTR), a novel orphan receptor in the nuclear receptor superfamily of ligand-activated transcription factors, is expressed predominantly in developing germ cells. In several mammalian species two GCNF/RTR mRNAs are present in the testis, with the smaller 2.3-kb transcript generally expressed at higher levels than the larger 7.4- or 8.0-kb transcript. In both the mouse and rat, the 2.3- and 7.4-kb GCNF/RTR transcripts were detected in isolated spermatogenic cells, but not in Sertoli cells. Expression of these transcripts is differentially regulated, with the larger 7.4-kb mRNA appearing earlier during testicular development. The major 2.3-kb transcript is expressed predominantly in round spermatids in the mouse and rat. In situ hybridization studies in the rat demonstrated that GCNF/RTR transcripts reach maximal steady-state levels in round spermatids at stages VII and VIII of the spermatogenic cycle, and then decline abruptly as spermatids begin to elongate. RNase protection assays were used to predict the 3' termination site of the 2.3-kb transcript. An alternative polyadenylation signal (AGUAAA) was identified just upstream of this termination site. These studies suggest that GCNF/RTR may regulate transcription during spermatogenesis, particularly in round spermatids just prior to the initiation of nuclear elongation and condensation.

Angiotensin-converting enzyme and male fertility

The angiotensin-converting enzyme (ACE; EC 3.4.15.1) gene (Ace) encodes both a somatic isozyme found in blood and several other tissues, including the epididymis, and a testis-specific isozyme (testis ACE) found only in developing spermatids and mature sperm. We recently used gene targeting to disrupt the gene coding for both ACE isozymes in mice and reported that male homozygous mutants mate normally but have reduced fertility; the mutant females are fertile. Here we explore the male fertility defect. We demonstrate that ACE is important for achieving in vivo fertilization and that sperm from mice lacking both ACE isozymes show defects in transport within the oviducts and in binding to zonae pellucidae. Males generated by gene targeting that lack somatic ACE but retain testis ACE are normally fertile, establishing that somatic ACE in males is not essential for their fertility. Furthermore, male and female mice lacking angiotensinogen have normal fertility, indicating that angiotensin I is not a necessary substrate for testis ACE. Males heterozygous for the mutation inactivating both ACE isozymes sire wild-type and heterozygous offspring at an indistinguishable frequency, indicating no selection against sperm carrying the mutation.

Glyceraldehyde 3-phosphate dehydrogenase-S protein distribution during mouse spermatogenesis

The spermatogenic cell-specific isoform of glyceraldehyde 3-phosphate dehydrogenase (GAPD-S) may regulate glycolysis and energy production required for sperm motility. Although the steady-state level of Gapd-s mRNA is maximal at step 9 of mouse spermatogenesis, GAPD-S protein was not detected by immunohistochemistry until steps 12-13. This result suggests that Gapd-s is translationally regulated. Western blot analysis of isolated germ cells confirmed that GAPD-S is not detected in pachytene spermatocytes or round spermatids. A major immunoreactive protein migrating with a molecular weight (M(r)) of 69,200 was observed in condensing spermatids and cauda sperm. Additional minor proteins that migrated at M(r) 55,200, 32,500, and 27,500 were detected in sperm. The molecular weight of GAPD-S is higher than the predicted molecular weight of 47,445, apparently due to a proline-rich 105-amino acid domain at the N-terminus. Recombinant GAPD-S protein lacking the proline-rich region migrated at M(r) 38,250, comparably to somatic GAPD, which also lacks the proline-rich domain. Indirect immunofluorescence demonstrated that GAPD-S is restricted to the principal piece in the sperm flagellum. Western blot analysis indicated that GAPD-S is tightly associated with the fibrous sheath of the flagellum, consistent with a potential role in regulating sperm motility.

Gene expression during mammalian meiosis

The expression of a wide variety of genes is developmentally regulated during mammalian meiosis. Drawing mainly on studies in spermatogenesis, this review shows that some of these genes are transcribed exclusively in germ cells, while others are also transcribed in somatic cells. Some of the genes expressed exclusively in spermatogenic cells are unlike any expressed in somatic cells, while others are isologous to genes expressed in somatic cells and are in the same gene family. Some of the developmentally regulated genes also expressed in somatic cells produce spermatogenic cell-specific transcripts, while others produce transcripts that are apparently the same in somatic and germ cells. Possible answers to why so many genes have atypical patterns of expression during meiosis are that: (1) all cell types express certain genes that define their cell type and lineage, (2) spermatogenesis is a developmental process that progresses according to a genetic program directing the sequential and coordinate expression of specific genes, (3) some genes are expressed that encode proteins required for meiosis, (4) some genes are expressed that encode proteins not required until after meiosis, (5) some genes are expressed to compensate for other genes that become inactivated with X chromosome condensation, and (6) it has been suggested that regulation of gene expression becomes leaky during spermatogenesis due to changes in DNA organization, leading to production of irrelevant transcripts. However, it is largely unknown how extrinsic cues from the endocrine system and surrounding somatic cells interact with intrinsic mechanisms of germ cells to activate signal transduction processes regulating transcription during mammalian meiosis.

Overexpression of androgen-binding protein/sex hormone-binding globulin in male transgenic mice: tissue distribution and phenotypic disorders

The rat androgen-binding protein/sex hormone-binding globulin (ABP/SHBG) gene in transgenic mice was previously shown to be specifically expressed in the testes. This study verifies a Sertoli cell location of ABP and translation of testicular ABP mRNA in the transgenic mice by dihydrotestosterone (DHT)-binding assays and immunohistochemistry. DHT-binding activities in the testis and epididymis of the hemizygous transgenic mice were elevated 20-fold as compared to activity in the wild-type tissues. DHT-binding activities were also elevated in blood plasma at least 25- to 50-fold in the transgenic mice; binding was undetectable in the plasma from control mice. Immunohistochemical analysis revealed that the transgenic testicular ABP was primarily in the cytoplasm of Sertoli cells and lumen of the seminiferous tubules. In some tubules, intense staining also was associated with spermatids. After transport to the epididymis, there were large amounts of immunoreactive ABP internalized in the epithelium of the initial segment and proximal caput. The increased levels of plasma and testicular ABP had no effect on levels of testosterone; there was a 30-fold range of plasma and testicular testosterone levels in the wild-type and transgenic mice. Increased ABP levels in the transgenic mice were associated with structural and functional abnormalities in the testis. Abnormal spermatogenesis resulted in extensive structural changes in the transgenic testis; the degree of the defect varied from near normality to the loss of most germ cells. In the affected mice, seminiferous tubules had smaller diameters and decreased numbers of germ cells, particularly in the spermatid stages of differentiation. Pyknotic nuclei and multinucleated cells were associated with the spermatids in the defective tubules, but not in the wild-type tubules. Consequently, mice with the spermatogenic disorder had reduced epididymal sperm numbers. The variable spermatogenic disorder was associated with variable male fertility. The homozygous transgenic male and female mice also had a serious motor dysfunction affecting their hind limbs. This study demonstrates how the transgenic mouse model can be used to study ABP's function, and the data support several hypotheses on its function in the testis and epididymis.

Endoscopic repair of cerebrospinal fluid fistulae and encephaloceles

The authors review their experience with endoscopic repair of skull base defects associated with cerebrospinal fluid (CSF) rhinorrhea and/or encephaloceles involving the paranasal sinuses. Between January 1991 and December 1995, 51 patients were evaluated for anterior and middle cranial fossa defects at a tertiary care facility. Of these patients, 36 underwent endoscopic repair of skull base defects. Factors related to surgical success were analyzed. These factors included etiology, defect location, number of prior attempts at repair, type of graft(s) used, fluorescein use, complications, durations of lumbar drain placement, and duration of CSF leakage prior to repair. During the first attempt, successful endoscopic repair was accomplished in 34 (94.4%) of the 36 patients. The mean duration of follow-up was 24.6 months, with a range of 2 to 57 months. The authors conclude that an endoscopic approach provides a safe and effective means for repairing many skull base defects.

Boar proacrosin expressed in spermatids of transgenic mice does not reach the acrosome and disrupts spermatogenesis

Transgenic mice that express boar proacrosin were produced to examine mechanisms for targeting hydrolytic enzymes to the acrosome. A 2.3 kb transgene was constructed by ligating the cDNA for boar preproacrosin with the mouse protamine 2 promoter region. Six founder mice that incorporated the transgene were identified by polymerase chain reaction and Southern blot analysis. Northern blots indicated that the two male founders (Ac.2 and Ac.5) and male progeny from three female founders (Ac.3, Ac.4, Ac.6) expressed the transgene mRNA in testis, but not in somatic tissues. In these transgenic animals boar proacrosin was detected by immunohistochemistry in condensing spermatids, but was not localized in the acrosome. This acrosomal targeting defect of the transgene product may result from its delayed expression during the later steps of haploid differentiation. Furthermore, both male founders and all Ac.4 and Ac.6 males were infertile, as determined by multiple matings for at least 2 months. Ac.3 males were either infertile or rarely transmitted the transgene to their offspring. The infertile males mated, produced copulatory plugs, and had seminal vesicle weights and testosterone levels within the normal range. However, they produced significantly fewer spermatozoa and had lower testis weights than controls. Although the mitotic and meiotic phases of spermatogenesis appeared normal by histological criteria, condensing spermatids were missing from most tubules, and multinucleated cells were present in the lumen of seminiferous tubules and in the epididymis. We hypothesize that boar proacrosin which fails to reach the acrosome is activated in these transgenic mice, and that its proteolytic activity disrupts spermatogenesis during spermatid formation.

Stage-specific expression of B cell translocation gene 1 in rat testis

B Cell translocation gene 1 (BTG1) is a member of a new family of putative antiproliferative factors. They are characterized by their rapid, but transient, expression in response to factors that induce growth arrest and subsequent differentiation. In immature rat Sertoli cell cultures, BTG1 messenger RNA (mRNA) increases rapidly after FSH stimulation. We obtained the full-length coding sequence of rat BTG1 complementary DNA for Northern blot analysis and in situ hybridization to determine the temporal expression and spatial distribution of BTG1 mRNA in the rat testis. Northern analysis of isolated adult germ cells and in situ hybridization analysis of adult seminiferous epithelium demonstrated that BTG1 expression was first evident in late primary spermatocytes. The level of BTG1 mRNA was also elevated in secondary spermatocytes, but was maximal in postmeiotic round spermatids where levels were 5 times the background. BTG1 mRNA was not detectable in cells in the M phase of meiosis or spermatids undergoing nuclear elongation and condensation. The oscillation of BTG1 expression from the late prophase of the first meiotic division through spermatozoa release suggests BTG1 involvement in spermatogenesis. High levels of BTG1 mRNA at entry into terminal spermatid differentiation suggests a role consistent with that proposed for the BTG1 family of antiproliferative factors.

Identification of a unique mu-class glutathione S-transferase in mouse spermatogenic cells

The fibrous sheath is a major cytoskeletal structure in the principal piece of the mammalian sperm flagellum. Two peptide sequences obtained from a tryptic digest of mouse fibrous sheath proteins exhibited high homology with mu-class glutathione S-transferases (GSTs). Using a DNA probe amplified from degenerate polymerase chain reaction (PCR) primers predicted from these two peptide sequences, a approximately 1.1 kb cDNA clone for fibrous sheath component 2 (Fsc2) was isolated which had 84% nucleic acid and 89% amino acid sequence identity with a previously reported mu-class human GST gene (hGSTM3; Campbell et al., 1990: J Biol Chem 265:4188-9193). Sequences corresponding to those of the two fibrous sheath peptides were present in the protein encoded by the Fsc2 cDNA. Northern analysis with the full length Fsc2 cDNA detected a approximately 1.1 kb mRNA in 12 of 15 somatic tissues examined, as well as in testis and isolated spermatogenic cells. However, 5'(nt--96 to 12) or 3'(nt 637 to 808) Fsc2 probes, containing mostly noncoding sequences, detected a approximately 1.1 kb mRNA abundant in testis and isolated spermatogenic cells, but absent or present at low levels in somatic tissues. Northern analysis with RNA from testes of mice of different postnatal ages and purified spermatogenic cell populations indicated that this transcript is first present during the meiotic phase of germ cell development. These results suggest that a previously unreported mu-class GST gene (mGSTM5.) is expressed at a specific time during the development of spermatogenic cells in the mouse. Immunoblot analysis indicated that a mu-class GST protein is associated with the fibrous sheath, suggesting that it becomes an integral part of the mouse sperm cytoskeleton.

Sertoli cell-spermatogenic cell interaction: the insulin-like growth factor-II/cation-independent mannose 6-phosphate receptor mediates changes in spermatogenic cell gene expression in mice

The insulin-like growth factor (IGF)-II/cation-independent mannose 6-phosphate receptor (CI-MPR) is a multifunctional receptor with distinct binding sites for IGF-II and mannose 6-phosphate (M6P)-bearing glycoproteins. We used the immediate-early response gene c-fos to assay early changes in gene expression in spermatogenic cells in response to ligands for this receptor that are present in the seminiferous epithelium. We confirmed that c-fos behaves as an immediate-early response gene in spermatogenic cells after stimulation of protein kinase C with phorbol ester or after intercellular calcium levels are raised with calcium ionophore. After determining that IGF-II mRNA is present in Sertoli cells, we treated spermatogenic cells with this growth factor and found that it increased c-fos mRNA levels in a dose-dependent manner. Similarly, Sertoli cell-conditioned medium (SCM) caused a dose-dependent increase in c-fos levels in spermatogenic cells isolated from adult mice. This effect was inhibited in the presence of 5 mM M6P, demonstrating that this change in c-fos gene expression was mediated by the IGF-II/Cl-MPR. In addition, SCM treatment of purified pachytene spermatocytes and round spermatids caused a dose-dependent increase in 18S rRNA levels that was completely abolished in the presence of M6P. Our results provide direct evidence that IGF-II/Cl-MPR ligands secreted by Sertoli cells can modulate gene expression in spermatogenic cells and strongly suggest that they are important in the regulation of spermatogenesis.

Cloning of the gene encoding the murine orphan receptor TAK1 and cell-type-specific expression in testis

We have cloned the gene encoding the mouse homologue of the orphan receptor, TAK1, a member of the nuclear receptor superfamily, from a mouse testis cDNA library. The amino acid sequence of mouse TAK1 (mTAK1) is highly homologous to that of human TAK1, with an overall identity of 98%. Northern blot analysis using RNA from different testicular cell types showed that the mTAK1 transcript is predominantly expressed in pachytene spermatocytes at a low level in round spermatids, but not in germ cells at earlier phases of spermatogenesis or in Sertoli cells. Southern analysis using genomic DNA prepared from a panel of hamster/human and mouse/human hybrid cell lines indicated that the TAK1 gene is located on human chromosome 3.

Male-female differences in fertility and blood pressure in ACE-deficient mice

Angiotensin-converting enzyme (ACE) is a dipeptidyl carboxy-peptidase that generates the vasoconstricting peptide angiotensin II and inactivates the vasodilating peptide bradykinin. The gene encoding ACE is composed of two homologous regions and codes for both a somatic and testis isoenzyme. Experiments with hypertensive rats and some, but not other, studies of humans suggest that sequences at or linked to the gene influence blood pressure. The testis-specific form of ACE has its own promoter within intron 12 (ref. 14), is encoded by the 3' region of the gene, and is found only in postmeiotic spermatogenic cells and sperm. Its function is unknown. Here we investigate the role of the Ace gene in blood pressure control and reproduction using mice generated to carry an insertional mutation that is designed to inactivate both forms of ACE. All homozygous female mutants were found to be fertile, but the fertility of homozygous male mutants was greatly reduced. Heterozygous males but not females had blood pressures that were 15-20 mm Hg less than normal, although both male and female heterozygotes had reduced serum ACE activity.

RTR: a new member of the nuclear receptor superfamily that is highly expressed in murine testis

We have identified and cloned a novel member of the nuclear receptor superfamily from murine testis, referred to as retinoid receptor-related testis-associated receptor or RTR. Degenerate PCR primers homologous to two conserved regions of the DNA-binding domain of members of this superfamily were employed to identify this gene. The amino-acid sequence of RTR is most closely related to that of the mouse RXRs with an overall identity of 32-34%; the highest similarity (61%) is observed in the DNA-binding domain. Northern blot analysis using RNA from multiple tissues showed that RTR is predominantly expressed in the testis. Northern blot analysis using RNA from different testicular cell types showed that RTR mRNA is not expressed in early germ cells or Sertoli cells but is most abundant in round spermatids. Our observations suggest that this putative transcription factor plays a role in the regulation of gene expression particularly during the post-meiotic phase of spermatogenesis.

Characterization of Fsc1 cDNA for a mouse sperm fibrous sheath component

The fibrous sheath is a major cytoskeletal structure in the principal piece of the mammalian sperm flagellum. We have cloned a cDNA and used it to characterize the expression of mRNA for a mouse sperm fibrous sheath protein. Peptides from a tryptic digest of fibrous sheath proteins were separated by HPLC and a 31 amino acid sequence was obtained from one of the peptides. Through the use of degenerate oligonucleotide polymerase chain reaction (PCR) primers predicted from this sequence, an 80-bp product was amplified from mouse testis first-strand cDNA. This was utilized as a probe to isolate a 2.9-kb cDNA clone from a mouse round spermatid cDNA library. Sequence analysis of the cDNA clone showed that it encodes a protein with an open reading frame of 849 amino acids and includes the original peptide sequence. The predicted protein has a molecular weight of 93,795 and contains 32 cysteine residues and 32 potential phosphorylation sites. It has no significant homology with other known cytoskeletal proteins. Northern blot analysis detected an mRNA of approximately 3 kb that was abundant in round spermatids of the mouse and in testes from six other mammalian species, but not in twelve somatic tissues from the mouse. In situ hybridization analysis indicated that the mRNA is first detected in step 1-6 spermatids, is most abundant in step 8-12 spermatids, and decreases in amount in step 13-15 spermatids, suggesting that expression of the mRNA occurs in the postmeiotic phase of spermatogenesis.(ABSTRACT TRUNCATED AT 250 WORDS)

Genomic organization of a mouse glyceraldehyde 3-phosphate dehydrogenase gene (Gapd-s) expressed in post-meiotic spermatogenic cells

The Gapd-s gene encodes an isoform of the glyceraldehyde 3-phosphate dehydrogenase enzyme expressed only in post-meiotic spermatogenic cells. Two clones containing the Gapd-s gene were isolated from a mouse genomic library. Sequencing and restriction enzyme analysis demonstrated that this single-copy gene contains 11 exons and spans 9596 base pairs. The locations of Gapd-s exons and introns are conserved when compared to the corresponding portions of the chicken and human somatic Gapd genes. The promoter region contains no TATA box, although there is a potential SP1 recognition site within exon 1. Like other TATA-less genes, primer extension analysis reveals some heterogeneity in the site of transcription initiation with Gapd-s transcripts initiating from three discrete sites. Northern analysis demonstrated that a 1.5-kb Gapd-s mRNA is expressed in the testis in at least three mammalian orders, indicating that the Gapd-s gene appeared early in mammalian evolution. Using GAPD-deficient bacteria, mouse GAPD-S was shown to be capable of functioning as a glycolytic enzyme. Since GAPD has been proposed to be a key enzyme regulating glycolysis in spermatogenic cells, GAPD-S may represent a potential target for toxicological or contraceptive agents affecting fertility by interfering with glycolysis.

Expression of mannose 6-phosphate receptor messenger ribonucleic acids in mouse spermatogenic and Sertoli cells

Spermatogenic and Sertoli cells isolated from the mouse synthesize different proportions of the two mannose 6-phosphate receptors (MPR) during overnight culture periods (O'Brien et al., Endocrinology 1989; 125:2973). To determine the relative expression of MPR mRNAs in these cells, poly(A)+ RNAs were examined by Northern blot analysis using cDNA probes specific for the cation-independent (CI) and cation-dependent (CD) MPRs. A single CI-MPR transcript, approximately 10 kb in size, was present in all tissues and cell types examined. Like the CI-MPR protein, this transcript was more abundant in Sertoli cells than in spermatogenic cells isolated from adult testes. The CD-MPR is the predominant MPR synthesized by pachytene spermatocytes or round spermatids. Multiple CD-MPR transcripts were detected in these cells, including a 2.4-kb CD-MPR mRNA that was indistinguishable from CD-MPR transcripts in somatic tissues and Sertoli cells. Smaller CD-MPR mRNAs of approximately 1.4 and 1.6 kb were prominent in pachytene spermatocytes and round spermatids, respectively, but were faint or undetectable in somatic tissues. These smaller CD-MPR mRNAs did not hybridize with an 0.9-kb restriction fragment derived from the CD-MPR 3' untranslated region (UTR), suggesting that alternate polyadenylation signals are used to produce multiple CD-MPR transcripts in spermatogenic cells. When poly(A) tracts were selectively removed from germ cell RNAs by ribonuclease H treatment, identical 1.3-kb CD-MPR mRNAs were detected in pachytene spermatocytes and round spermatids, indicating that the size difference between the 1.4- and 1.6-kb transcripts is due to variations in poly(A) tail length.(ABSTRACT TRUNCATED AT 250 WORDS)

Autologous fibrin adhesive in mandibular reconstruction with particulate cancellous bone and marrow

Displacement of bone graft particles during their placement, neck flap closure, and insertion of the freeze-dried mandibular crib housing the graft to the glenoid fossa is a commonly encountered problem during major mandibular reconstruction with autogenous particulate cancellous bone and marrow. Autologous fibrin adhesive proved to be a solution as demonstrated in a series of 33 cases. In addition to adhesive and hemostatic properties, it helped the remodeling process begin about 50% earlier by providing the substratum for migration of mesenchymal cells, accelerating revascularization and migration of fibroblasts, stimulating the growth of both fibroblasts and osteoblasts, and slowing the multiplication of microorganisms. Bony incorporation and remodeling were detected radiographically at the fourth postoperative week compared with the eighth week in bone grafts without autologous fibrin adhesive.

Sertoli cell and germ cell cystatin C: stage-dependent expression of two distinct messenger ribonucleic acid transcripts in rat testes

Sertoli cells were shown to synthesize and secrete cystatin C, a potent inhibitor of cysteine proteases. The evidence for this observation was obtained from protein sequencing. Western analysis using antiserum specific to cystatin C, and immunoprecipitation of 35S protein secreted by cultured cells. The Western analysis with an antiserum to human cystatin C showed that cultured Sertoli cells secrete three previously reported immunoreactive forms of cystatin C: a predominant pair of proteins at 13-14 kDa and a less abundant 20-kDa protein. Immunohistochemical localization of cystatin C in sections of rat testes showed intense staining in Sertoli cells; no immunoreactivity was observed in spermatogonia or spermatocytes. A cDNA fragment for rat cystatin C was obtained by use of the polymerase chain reaction and was used as a probe in Northern analyses to examine the steady-state levels of cystatin C mRNA in intact testes and in Sertoli and spermatogenic cells. Sertoli cells contained a 700-nucleotide cystatin C transcript, and a mixed population of spermatids and spermatocytes contained a 550-nucleotide transcript. Analysis of RNA from purified spermatogenic cells revealed that round and condensing spermatids contained the 550-nucleotide transcript, while pachytene spermatocytes contained a smaller 500-nucleotide transcript. The 700-nucleotide transcript was present in testes isolated from rats of 5-79 days of age, the 500-nucleotide transcript was detected initially in testes from 24-day-old rats, and the 550-nucleotide transcript was detected initially at 35 days of age. Both the 500- and 550-nucleotide transcripts increased in abundance until 50 days of age. RNA from stage-synchronized testes showed that steady-state levels of both the 550- and 700-nucleotide transcripts were lowest in stages VI-VII of the cycle. These data suggest that the role of cystatin C in the testis may be to inhibit the proteolytic activity of the cysteine protease cathepsin L in all stages except stages VI-VII.

Mouse Sertoli cells secrete mannose 6-phosphate containing glycoproteins that are endocytosed by spermatogenic cells

Sertoli cells were isolated from prepubertal mice and cultured in serum-free medium to determine whether they secrete glycoproteins containing mannose 6-phosphate (M6P). Assays of the conditioned medium for lysosomal enzyme precursors, which typically bear the M6P recognition marker, indicated that Sertoli cells selectively secreted beta-N-acetylhexosaminidase and alpha-mannosidase, but not beta-glucuronidase or beta-galactosidase. Sertoli cells were labeled metabolically with [35S]methionine and the conditioned medium was fractionated on a cation-independent M6P receptor affinity column. Most of the secreted proteins did not bind to the column (peak A); however, approximately 10% of the radioactivity eluted as a low-affinity fraction (peak B), and 5-11% of the recovered cpm bound to the column and were eluted with 2.5 mM M6P (peak C). The radiolabeled proteins in each fraction were analyzed by one- and two-dimensional electrophoresis and fluorography. Two protein bands with molecular weights of 30,000 and 35,000 were present in peak B. Peak C contained at least ten M6P-containing glycoproteins with molecular weights between 30,000 and 135,000 and isoelectric points < 6.5. The 35,000-molecular-weight constituent prominent both in peaks B and C was identified as procathepsin L by immunoprecipitation with a specific antibody. When pachytene spermatocytes and round spermatids were cultured overnight in the presence of peak C glycoproteins radiolabeled with 125I, both germ cell types accumulated these Sertoli M6P-glycoproteins by a receptor-mediated process that was specifically inhibited by M6P. The Sertoli M6P-glycoproteins taken up by germ cells were processed to lower molecular weight forms. These results provide evidence that M6P receptors on the surface of spermatogenic cells endocytose secrete glycoproteins that are likely to be present in the seminiferous epithelium.

Unique hexokinase messenger ribonucleic acids lacking the porin-binding domain are developmentally expressed in mouse spermatogenic cells

We have identified cDNAs representing three hexokinase mRNAs (Hk1-sa, Hk1-sb, Hk1-sc) by screening mouse spermatogenic cell cDNA libraries with a mouse hepatoma cell line hexokinase (Hk1) cDNA [Arora KK, Fanciulli M, Pederson PL. J Biol Chem 1990; 265:6481-6488]. Although all three cDNAs show 99% identity to the somatic Hk1 cDNA sequence throughout most of their coding region, they differ from this sequence at the 5' end. They contain a common spermatogenic cell-specific sequence and a sequence unique to each cDNA immediately 5' to the common domain. However, they lack the porin-binding domain (PBD) present in this region of Hk1, used for binding to a pore-forming protein in the outer mitochondrial membrane. These observations appear to support a model proposed by others for hexokinase gene evolution in mammals. In addition, we found that Hk1-sb has an internal sequence that is not present in Hk1, Hk1-sa, or Hk1-sc. Moreover, Hk1-sa and Hk1-sb transcripts are developmentally expressed in mouse spermatogenic cells. Hk1-sa mRNA is first expressed during meiosis and continues to be present in postmeiotic germ cells, while the more abundant Hk1-sb mRNA is detected only in postmeiotic germ cells. These and other findings suggest that enzymes encoded by Hk1-sa, Hk1-sb, and Hk1-sc are present only in spermatogenic cells.

Analysis of the promoter and regulatory sequences of an oxygen-regulated bch operon in Rhodobacter capsulatus by site-directed mutagenesis

The biosynthesis of pigments (carotenoids and bacteriochlorophylls) in the photosynthetic bacterium Rhodobacter capsulatus is regulated by the oxygen concentration in the environment. However, the mechanism of this regulation has remained obscure. In this study, transcriptional fusions of the bchCXYZ promoter region to lacZ were used to identify the promoter and regulatory sequences governing transcription of these bacteriochlorophyll biosynthesis genes. The promoter region was identified in vivo by making deletions and site-directed mutations. The 50 bp upstream of the promoter region was shown to be required for the oxygen-dependent transcriptional regulation of bchCXYZ. A previously described palindrome sequence is also likely involved in the regulation. A gel mobility shift assay further defined the interaction of transcription regulators with these DNA sequence elements in vitro and demonstrated that a DNA-protein complex is formed at this promoter region. Since the suggested promoter sequence and the palindrome sequence are found upstream of several other bch and crt operons, these sequences may be responsible for regulating oxygen-dependent pigment biosynthesis at the level of transcription in R. capsulatus. In addition, these cis-acting DNA elements are not found upstream of puh and puf operons, which encode the structural polypeptides of the reaction center and light-harvesting I complexes. This observation supports the model of different regulatory mechanism for the pigment biosynthesis enzymes and structural polypeptides required for the production of the photosynthetic apparatus.

Characterization of laminin receptor messenger ribonucleic acid and protein expression in mouse spermatogenic cells

A cDNA proposed to encode the mouse laminin receptor (MLR) was isolated from a mouse round spermatid expression library. The cDNA contained complete coding and 3' untranslated regions but was missing the first 42 bases from the 5' untranslated region. Northern blot analysis using a 3' EcoRI fragment of the cDNA identified a 1.2-kb transcript in mouse testes and all somatic tissues tested. Additional transcripts of 1.3 and 0.9 kb were present in round spermatids isolated from mouse testes. Northern blots using ribonuclease (RNase) H-treated poly(A)+ RNA indicated that the difference in the size of 1.3-kb round spermatid transcripts and 1.2-kb transcripts was due to differing poly(A)+ tail lengths. The 0.9-kb round spermatid transcript hybridized to all but the 5' end of the 1.2-kb MLR cDNA, suggesting that an alternate start site is used or that transcript processing occurs in these cells. Immunoblot analysis identified proteins in spermatogenic cells corresponding to the 67-70-kDa MLR and its 43-kDa precursor. In addition, ligand binding studies and affinity chromatography procedures indicated that spermatogenic cell proteins of these sizes bind laminin. However, spermatocytes and spermatids are spatially isolated from laminin in the testes, and MLR may have other functions in these cells.

In vitro expression and activity of lycopene cyclase and beta-carotene hydroxylase from Erwinia herbicola

The cyclisation of lycopene to beta-carotene and the hydroxylation of beta-carotene to zeaxanthin are common enzymatic steps in the biosynthesis of carotenoids in a wide range of bacteria, fungi, and plants. We have individually expressed in E. coli the two genes coding for these enzymatic steps in Erwinia herbicola. The cyclase and hydroxylase enzymes have apparent molecular weights of 43 kDa and 22 kDa, respectively, as determined by SDS-PAGE. Hydroxylase in vitro activity was obtained only in the cytoplasmic fraction. Cyclase also demonstrated enzyme activity in a crude cell-free lysate, although to a lesser extent.

Functional expression of zeaxanthin glucosyltransferase from Erwinia herbicola and a proposed uridine diphosphate binding site

Erwinia herbicola, a nonphotosynthetic bacterium, is yellow colored due to the accumulation of unusually polar carotenoids, primarily mono- and diglucosides of zeaxanthin. We have cloned and expressed the gene for the enzyme that catalyzes the glucosylation of zeaxanthin. The enzyme has an apparent molecular mass of 45 kDa on an SDS/polyacrylamide gel, which is consistent with its calculated molecular mass. In vitro enzymatic activity was demonstrated using UDP-[14C]glucose and zeaxanthin as substrates. The product zeaxanthin diglucoside and its intermediate monoglucoside were identified by thin layer chromatography. The optimum pH and temperature ranges of the enzyme are 7.0-7.5 and 32-37 degrees C, respectively. A hydropathy plot indicates no apparent membrane-spanning regions, and biochemical experiments suggest that the enzyme is weakly membrane-associated. The amino acid sequence derived from the zeaxanthin glucosyltransferase gene shows a small region of high similarity with other glucuronosyl- and glucosyltransferases that use either UDP-activated glucuronic acid or a sugar as one of their substrates. Based on these similarities, we propose that this conserved sequence is part of the UDP binding site.

Unique adenosine 3',5' cyclic monophosphate phosphodiesterase messenger ribonucleic acids in rat spermatogenic cells: evidence for differential gene expression during spermatogenesis

Four cAMP phosphodiesterase (cAMP-PDE) genes (ratPDE1, ratPDE2, ratPDE3, and ratPDE4) are expressed in the rat testis (Swinnen et al., PNAS USA 1989; 86:5325). Since multiple ratPDE1 and ratPDE2 mRNAs were present in male germ cells, their developmental expression was investigated by using purified spermatogenic cell populations. RatPDE1 mRNAs (4.0 and 2.8 kb) were found to be abundant in pachytene spermatocytes. RatPDE1 mRNA levels were decreased in round spermatids and absent from condensing spermatids/residual bodies. However, multiple ratPDE2 mRNAs (4.0, 3.5, 3.1, 2.8, and 2.4 kb) were abundant in round spermatids, and lower amounts were present in condensing spermatids/residual bodies. Transcripts related to ratPDE2 were also present in mouse round spermatids. Chromatography of germ cell cytosol identified two peaks of cAMP-PDE activity. Whereas peak A was evident in all germ cell populations examined, peak B was present in pachytene spermatocytes and round spermatids, but was at the limit of detection in condensing spermatids/residual bodies. The large decrease in peak B activity in condensing spermatids/residual bodies may be related to the drop in ratPDE1 mRNA levels observed during spermatogenesis. The sustained peak A activity in condensing spermatids/residual bodies coincides with the presence of ratPDE2 mRNA in these cells and suggests that the ratPDE2 enzyme may function during spermiogenesis and in spermatozoa.

Expression of a glyceraldehyde 3-phosphate dehydrogenase gene specific to mouse spermatogenic cells

A cDNA clone encoding a putative glyceraldehyde 3-phosphate dehydrogenase (GAPD-S) protein specific to spermatogenic cells was isolated from a mouse spermatogenic cell expression library. The Gapd-s cDNA contained 1451 bp of transcribed sequence, including an ATG initiation codon and a poly(A) addition signal. The location of the Gapd-s initiation codon differed from that of other Gapd sequences, resulting in a germ cell GAPD-S protein predicted to contain 105 additional residues at the amino terminus. While GAPD is constitutively expressed in somatic tissues, Northern blot analysis demonstrated that a Gapd-s probe hybridized to a 1.5-kb transcript present only in the testis. The Gapd-s mRNA was first detected during postnatal development in the testes of 20-day-old mice, suggesting that gene expression begins shortly after the appearance of haploid round spermatids. Northern analysis of RNA from isolated mouse pachytene spermatocytes and spermatids confirmed that Gapd-s expression is confined to post-meiotic germ cells. GAPD has been previously proposed to be the key enzyme regulating glycolysis in isolated round spermatids. We hypothesize that the GAPD-S enzyme plays an important role in regulating the switch between different pathways for energy production during spermiogenesis and in the spermatozoon.

Identification of the gene for the developmentally expressed 70 kDa heat-shock protein (P70) of mouse spermatogenic cells

Mouse spermatogenic cells synthesize a 70-kDa protein (P70) closely related to the major heat-shock protein (hsp70) of mammalian cells (R. L. Allen, D. A. O'Brien, and E. M. Eddy, Mol. Cell. Biol. 8, 828-832, 1988). Expression of P70 is developmentally regulated while hsp70 is induced in response to stress, suggesting that P70 is the product of a unique member of the Hsp70 multigene family transcribed in spermatogenic cells. A strong candidate for this gene was the Hsp70.2 gene (Z. F. Zakeri, D. J. Wolgemuth, and C. R. Hunt, Mol. Cell. Biol. 8, 2925-2932, 1988). A DNA segment from the 5' region of Hsp70.2 hybridized to a 2.7-kb transcript with a temporal pattern of expression in mouse spermatogenic cells similar to the P70 protein. We used a polyclonal antiserum generated against a synthetic peptide predicted from the Hsp70.2 sequence to characterize its protein product and to isolate cDNA clones from a pachytene spermatocyte expression library. The antiserum reacted specifically with meiotic and postmeiotic spermatogenic cells on sections of mouse testis. It recognized the P70 protein on Western blots of two-dimensional gels and did not bind to other heat-shock proteins of spermatogenic or somatic cells. The cDNAs hybridized to a 2.7-kb mRNA that was abundant in unstressed pachytene spermatocytes and round spermatids but was not detected in other cell types. Two cDNAs were sequenced and found to be 99% homologous to the 3' end of the Hsp70.2 gene. These data strongly supported the hypothesis that P70 is the expressed product of the Hsp70.2 gene in mouse spermatogenic cells.

Mannose 6-phosphate receptors: potential mediators of germ cell-Sertoli cell interactions

These studies have demonstrated that mouse pachytene spermatocytes, round spermatids, and Sertoli cells synthesize mannose 6-phosphate receptors and that the proportions of the CI- and CD-MPRs vary markedly between cell types. Isolated spermatogenic cells synthesize predominantly the CD-MPR and lower levels of the CI-MPR. In contrast, cultured Sertoli cells selectively synthesize the CI-MPR, even though transcripts for the CD-MPR have been detected in these cells. These striking differences in the expression of MPRs suggest that these receptors may serve multiple roles during germ cell differentiation. We have hypothesized that MPRs in the seminiferous epithelium mediate interactions between germ cells and Sertoli cells, and participate in the targeting of hydrolytic enzymes to the acrosome. In support of the first hypothesis, we have shown that functional MPRs are localized on the surface of spermatogenic cells and Sertoli cells where they mediate the endocytosis of M6P-containing ligands. As in other somatic cells, the CI-MPR is likely to be responsible for M6P receptor-mediated endocytosis in the seminiferous epithelium. Recent studies have shown that Sertoli cells in culture synthesize and secrete at least ten M6P-containing glycoproteins. Furthermore, pachytene spermatocytes and round spermatids endocytose these Sertoli M6P-glycoproteins and process them to lower molecular weight forms that persist during 17 h culture periods. The identification of relevant ligands for mannose 6-phosphate receptors in the seminiferous epithelium may help define new regulatory mechanisms in cell differentiation. Current efforts to determine if Sertoli M6P-glycoproteins modulate germ cell function should confirm the significance of surface MPRs and clarify their roles in signal transduction and/or the endocytosis of Sertoli cell products.

Helicopter transport of trauma victims: does a physician make a difference?

We studied the impact of physician presence on helicopter transportation of trauma victims during two periods; when physicians were part of the flight team and when they were not. Our data failed to demonstrate that physician participation in flights had an impact on patient outcome. The groups were comparable in average distance traveled, initial Trauma Scores, number of organ systems injured, and the final Injury Severity Scores. Each group showed an improved survival over that predicted by comparison with the Multiple Trauma Outcome Study cohort. No difference was found in the number of procedures performed at the scene, en route, or on arrival at the hospital. Untreated injuries were slightly higher in the physician-present group. It appears that experienced nurses and paramedics, operating with well-established protocols, can provide aggressive care that yields equal outcome results compared with those of a flight team that includes a physician.

Receptor-mediated endocytosis and differential synthesis of mannose 6-phosphate receptors in isolated spermatogenic and sertoli cells

Mannose 6-phosphate (Man 6-P) receptors participate in the targeting of both newly synthesized and extracellular acid hydrolases to lysosomes, and also may mediate the effects of a number of growth factors. In this study, Man 6-P receptors were isolated from [35S]methionine-labeled germ cells and Sertoli cells by phosphomannan-Sepharose affinity chromatography and were analyzed by polyacrylamide gel electrophoresis and autoradiography. Mouse pachytene spermatocytes and round spermatids isolated by unit gravity sedimentation synthesized predominantly the 46,000 mol wt (Mr) cation-dependent Man 6-P receptor and only low levels of the 270,000 Mr cation-independent Man 6-P receptor. In contrast, Sertoli cells synthesized substantial amounts of the cation-independent Man 6-P receptor, but little of the cation-dependent receptor. To determine if these receptors function on the cell surface, we have monitored Man 6-P receptor-mediated endocytosis in isolated germ cells and Sertoli cells. In pachytene spermatocytes and round spermatids, [125I]Man 6-P-bearing ligands were internalized and processed to lower Mr forms by an endocytic mechanism that was time dependent, proportional to cell number, and inhibited by Man 6-P. Like germ cells, Sertoli cells in primary culture endocytosed radiolabeled Man 6-P-bearing ligands at levels that were about 10% of the endocytic activity measured for 3T3 fibroblasts. This low endocytic activity correlates with the levels of the cation-independent Man 6-P receptor synthesized by germ cells, but not with the higher levels synthesized by Sertoli cells. Membrane binding assays verified the high steady state levels of the cation-independent Man 6-P receptor in Sertoli cells, suggesting that the low endocytic activity detected in these cells may result from restricted expression of the cation-independent receptor on the cell surface. These results indicate that both spermatogenic and Sertoli cells have surface Man P-6 receptors capable of mediating endocytosis. However, these cells exhibit marked differences in the expression of the cation-independent and -dependent Man 6-P receptors, perhaps reflecting differential roles of these receptors in protein trafficking and/or intercellular communication during germ cell differentiation.

Heat-shock cognate protein (hsc71) and related proteins in mouse spermatogenic cells

A monoclonal antibody (13D3) has been developed that recognizes a 71 kilodalton (71 kDa) protein on two-dimensional immunoblots of proteins extracted from a mixture of mouse spermatogenic cells (mainly pachytene spermatocytes and spermatids). This protein was shown by immunoblotting and adenosine triphosphate (ATP)-binding characteristics to be identical to a 71 kDa mouse heat-shock cognate (hsc) protein, hsc71, present in 3T3 cells. Along with a 70 kDa heat-shock inducible protein (hsp70), and a 74 kDa heat-shock cognate protein (hsc74), hsc71 is a product of the mouse HSP70 multigene family. Although antibody 13D3 reacted strongly with hsc71, it reacted only faintly with hsp70 in 3T3 cells, and not at all with hsc74 or a germ cell-specific hsp70-like protein (P70) on immunoblots of mixed germ cells. Antibody 13D3 is unique among known antibodies in its pattern of reaction with these heat-shock proteins. In immunofluorescence studies on isolated germ cells, 13D3 reacted uniformly with the cytoplasm of pachytene spermatocytes, round spermatids, and residual bodies, but only with the midpiece of spermatozoa. Antibody 13D3 recognizes other proteins in addition to hsc71 on two-dimensional immunoblots of condensing spermatids and spermatozoa. Two of the proteins (70 kDa/pI 6.4 and 70 kDa/pI 6.5) were present in condensing spermatids and spermatozoa, and another protein (69 kDa/pI 7.0) was detected only in spermatozoa. The new proteins also were recognized by monoclonal antibody 7.10, which reacts specifically with hsp70, hsc71, hsc74, and P70. Although [35S]methionine was incorporated into the new proteins in condensing spermatids, hsc71, hsc74, and P70 were not labeled. These results suggest that unique heat-shock proteins are synthesized late in spermatogenesis.

Differential activity and synthesis of lactate dehydrogenase isozymes A (muscle), B (heart), and C (testis) in mouse spermatogenic cells

Spermatogenic cells isolated from adult and prepubertal mice by unit gravity sedimentation were used to examine enzyme activities and synthesis of the lactate dehydrogenase (LDH) isozymes during spermatogenesis. The synthesis and activity of LDH-C4, the germ cell-specific isozyme, was detected earliest in isolated preleptotene and leptotene/zygotene spermatocytes prior to the mid-pachytene stage of meiosis reported previously. The LDH-C4 isozyme was prominent in pachytene spermatocytes, round spermatids, and condensing spermatids, whereas spermatozoa contained only the LDH-C4 isozyme. In addition, somatic-type LDH isozymes consisting primarily of LDH-B subunits were present in germ cells throughout spermatogenesis. This is in contrast to a previous report that the LDH-B subunit was not synthesized in germ cells. Sertoli cells were further shown to exhibit comparable amounts of five tetrameric LDH isozymes formed by combination of muscle-type LDH-A and heart-type LDH-B subunits.

Antigens recognized by monoclonal antibody to mouse acrosomal components differ in guinea pig spermatogenic cells and sperm

Monoclonal antibody 1D4 reacts with a glycoconjugate antigen of the developing mouse spermatid acrosome until the terminal steps of spermiogenesis. Although 1D4 does not label the acrosome of mouse epididymal spermatozoa, it does bind to the acrosomal region of guinea pig epididymal sperm. Here we report that the antigens recognized in extracts of guinea pig spermatogenic cells and sperm are different from those detected in mouse spermatids. Three major bands of reactivity with apparent molecular weights (Mr) of 97,000-145,000, 180,000, and greater than 200,000 were detected in extracts of guinea pig sperm. Soluble antigens with the same molecular weights were released after the acrosome reaction was induced with ionophore A23187. On two-dimensional immunoblots, 1D4 recognized a microheterogeneous population of molecules in guinea pig sperm extracts. The molecules recognized by this antibody are not major Concanavalin A receptors and do not react strongly with periodic acid-Schiff's stain or periodic acid-dansylhydrazine. However, comparisons of immunoblots of sperm extracts indicate that 1D4 reacted with antigens having similar molecular weights to glycoconjugates recognized by antibodies J1 and C6. Immunofluorescent labeling of guinea pig germ cells showed that 1D4 reacted only with the acrosomes of developing spermatids and sperm, and occasionally with the juxtanuclear region of spermatocytes. In general, staining was associated with the periphery of the acrosome and not with the acrosomal granule. Immunoblots of extracts of guinea pig spermatocytes, round spermatids, condensing spermatids, and sperm demonstrated that the antigens change during germ cell differentiation. Thus, 1D4 can be used as a marker of the developing acrosome for studies of the synthesis, structure, and assembly of the sperm organelle.

Expression of heat shock proteins by isolated mouse spermatogenic cells

Proteins of the hsp70 family are abundant in mouse spermatogenic cells. These cells also synthesize relatively large amounts of a 70,000-molecular-weight protein (P70) that appears to be a cell-specific isoform of hsp70, the major heat-inducible protein (R.L. Allen, D.A. O'Brien, and E.M. Eddy, Mol. Cell. Biol. 8:828-832, 1988). In this study, proteins of unstressed and heat-stressed spermatogenic cells consisting of purified preparations of preleptotene, leptotene-zygotene, pachytene spermatocytes, and round spermatids were analyzed by two-dimensional polyacrylamide gel electrophoresis. Unstressed preleptotene and leptotene-zygotene spermatocytes contained little P70, whereas relatively large amounts of P70 were present in pachytene spermatocytes and round spermatids. Labeling studies showed that P70 was synthesized primarily in pachytene spermatocytes and that little synthesis occurred in round spermatids or in preleptotene and leptotene-zygotene stages of spermatogenesis. Synthesis of hsp70 was not detectable in unstressed cells but was induced in all stages of isolated germ cells following heat stress. These results indicate that P70 is expressed in a stage-specific manner during cell differentiation, whereas hsp70 is synthesized in response to stress in all populations of isolated spermatogenic cells examined.

Acrosomal constituents identified with a monoclonal antibody are modified during late spermiogenesis in the mouse

Monoclonal antibody 1D4, a mouse immunoglobulin M raised against CD-1 mouse spermatogenic cell membranes, recognizes acrosomal constituents in the mouse, rabbit, and guinea pig. In the mouse, acrosomes of round and condensing spermatids were labeled with 1D4 by indirect immunofluorescence on isolated cells and by immunohistochemistry on paraffin sections. During the terminal steps of spermiogenesis, however, acrosomal labeling in mouse germ cells was lost. Little or no 1D4 immunoreactivity was detected by enzyme-linked immunosorbent assays in prepubertal testes, Sertoli cells, or several somatic tissues. To identify antigens recognized by 1D4, mouse spermatogenic cell proteins were separated by one- (1D) and two-dimensional (2D) polyacrylamide gel electrophoresis, transferred to nitrocellulose, and immunostained. Multiple antigens larger than 200,000 relative molecular weight (Mr) were resolved on 1D immunoblots from round and condensing spermatids isolated by sedimentation velocity at unit gravity. A smaller antigen (Mr 85,000 isoelectric point approximately 5.7) was also detected on 1D and 2D immunoblots of round spermatid proteins. These antigens can be labeled biosynthetically with [3H] glucosamine and immunoprecipitated, suggesting that they are a set of glycoconjugates that share a common epitope recognized by 1D4. This determinant is no longer detectable in late spermatids, indicating that biochemical modifications of acrosomal constituents occur during the terminal steps of germ cell differentiation.

A novel hsp70-like protein (P70) is present in mouse spermatogenic cells

Mouse spermatogenic cells contain relatively large amounts of a 70-kilodalton protein (P70) that is closely related to hsp70, the major inducible heat shock protein. When hsp70 from spermatogenic cells is heat induced, it migrates to the same location as does P70 on two-dimensional polyacrylamide gels, indicating that it has an apparently identical mass and isoelectric point. P70 reacts strongly and specifically with an anti-Drosophila hsp70 monoclonal antibody that is specific for products of the hsp70 gene family. Both P70 and hsp70 are also ATP-binding proteins and are purified by using ATP-affinity chromatography. However, P70 and hsp70 are unique proteins on the basis of peptide map analysis and are regulated differently in germ cells. P70 appears to be a novel heat shock protein of spermatogenic cells which is synthesized in association with germ cell differentiation.

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.