Impaired spermatogenesis in the finch hybrid L. castaneothorax by L. punctulata: Transmission electron microscopy and genetic analysis

As part of a project to determine whether there is any correlation between the form of hybrid sterility and the genetic relatedness of the parental species, we studied a male intrageneric hybrid between two finch species (Lonchura custaneothorax × L. punctuluta), and compared the ultrastructural basis of hybrid sterility in this species with that reported by Swan [1985] for an intergeneric bird hybrid. In the latter study the sterility appeared to have an autoimmune basis, due to lack of Sertoli-Sertoli tight junctions. In the hybrid examined in the present study, lanthanum tracing showed that the junctions were tight. There was no testicular immune reaction; the parental species were almost identical in chromosomal constitution, having only a small inversion difference on chromosome 5, and only two structural protein differences could be detected through examination of the variation at 38 protein loci. Nevertheless, the hybrid appeared sterile and had the following ultrastructural testicular features. Intercellular bridges where present were usually abnormal in structure; centrioles in a centriole pair were arranged in parallel. Many spermatocytes and spermatids degenerated and were phagocytosed by Sertoli cells. Some spermatids progressed to mature testicular spermatozoa in sperm bundles, but commonly had multiple (2–4) axonemes or disrupted doublets and accessory fibers. The multiple axonemes present in most spermatids inserted separately into the base of the nucleus and the multiple centrioles were capable of organizing separate neck structures. We conclude that these cytological abnormalities were caused by genic effects and discuss why they appeared to be restricted to the germ line.     

Activité aromatase dans les cellules germinales mâles: quelle signification fonctionnelle?

The ability of the male gonad to convert androgens into estrogens is well known. According to age, aromatase activity has been already measured in immature and mature rat Leydig cells as well as in Sertoli cells. Recently, in different studies, a cytochrome P450_arom has even been immunolocalized not only in Leydig cells but also in germ cells of mouse, brown bear and rooster whereas in pig, ram and human the aromatase is mainly present in Leydig cells. Our purpose was to investigate the testicular cell distribution of cytochrome P450_arom mRNA in adult rat using RT-PCR. With 2 highly specific primers located on exons 8 and 9, we have been able to amplify a 289 bp aromatase fragment not only in Leydig cells and Sertoli cells but more importantly in highlyenriched preparations of pachytene spermatocytes, round spermatids and testicular spermatozoa. These amplified products showed 100% homology with the corresponding fragment of the rat ovary cDNA. In parallel, using an anti-human cytochrome P450_arom antibody we have demonstrated the presence of a 55 kDa protein in seminiferous tubules and crude germ cell (pachytene spermatocytes and round spermatids) preparation of the mature rat. After incubation with tritiated androstenedione, the aromatase activities in the microsomal fractions were 3.12±0.19 pmoles/mg/h in the testis, 1.25±0.13 in the seminiferous tubules and 1.53±0.15 in the crude germ cells. In purified testicular spermatozoa the aromatase activity was 2.96±0.69 pmoles/mg/h and found to be 5-fold higher when compared to that of either purified pachytene spermatocytes or round spermatids. Using a quantitative RT-PCR method with a standard cDNA 29 bp shorter, we have compared the amount of cytochrome P450_arom mRNA in mature rat Leydig cells and Sertoli cells. In purified Leydig cells from 90 day-old rats the P450_arom mRNA level was: 36.2±3.4×10^?3 amoles/μg RNA whereas in Sertoli cells the mRNA level was 10 fold lower. In pachytene spermatocytes, round spermatids and testicular spermatozoa the P450_arom mRNA levels were re pectively 367.2±76.6, 117.6±22.0 and <1×10^?3 amole/μg RNA. In conclusion we have demonstrated that the P450 aromatase is present not only in Sertoli cells and Leydig cells from mature rat testis but a biologically active aromatase exists also in germ cells (pachytene spermatocytes, round spermatids and spermatozoa). The existence of an additional source of estrogens within the genital tract of the male is now well documented and that suggests a putative role for these hormones during the male germ cell development.     

Diversity of Sertoli cells in the testis of Saduria entomon L. (Crustacea,Isopoda)

Summary

The present paper is the first to give a comprehensive and detailed characterization of Sertoli cells in the isopod, Saduria entomon, based on transmission electron microscopy. Two types of Sertoli cells, A and B, were distinguished which clearly differ in their location in the wall of the testicular tubule, and in their morphology, ultrastructure, and function. Their occurrence is closely connected with the characteristic arrangement of germ cells inside the tubule. Sertoli A cells occupy only the part of the tubule containing spermatogonia and primary spermatocytes and they are associated with these cells by means of numerous ramified processes running in many directions. They are irregular in shape, but their shape and the ultrastructure are stable during maturation of the germ cells. Sertoli B cells, which compose most of the testicular tubule wall, form a columnar epithelium. They send long processes into the lumen of the tubule by means of which they make contact with maturing spermatids. The cytoarchitecture of the processes is highly variable and reflects their role in spermiogenesis and the formation of sperm bundles. After spermiation, when the apical part of the Sertoli cells has become flattened, they phagocytoze the residual cytoplasmic masses of spermatids, which undergo degradation in heterophagic vacuoles. Simultaneously, numerous autophagic vesicles appear.     

Rat testicular germ cells and sertoli cells release different types of bioactive transforming growth factor beta in vitro

Several in vivo studies have reported the presence of immunoreactive transforming growth factor-β's (TGF-β's) in testicular cells at defined stages of their differentiation. The most pronounced changes in TGF-β₁ and TGF-β₂ immunoreactivity occurred during spermatogenesis. In the present study we have investigated whether germ cells and Sertoli cells are able to secrete bioactive TGF-β's in vitro, using the CCl64 mink lung epithelial cell line as bioassay for the measurement of TGF-β. In cellular lysates, TGF-β bioactivity was only observed following heat-treatment, indicating that within these cells TGF-β is present in a latent form. To our surprise, active TGF-β could be detected in the culture supernatant of germ cells and Sertoli cells without prior heat-treatment. This suggests that these cells not only produce and release TGF-β in a latent form, but that they also release a factor which can convert latent TGF-β into its active form. Following heat-activation of these culture supernatant's, total TGF-β bioactivity increased 6- to 9-fold. Spermatocytes are the cell type that releases most bioactive TGF-β during a 24 h culture period, although round and elongated spermatids and Sertoli cells also secrete significant amounts of TGF-β. The biological activity of TGF-β could be inhibited by neutralizing antibodies against TGF-β₁ (spermatocytes and round spermatids) and TGF-β₂ (round and elongating spermatids). TGF-β activity in the Sertoli cell culture supernatant was inhibited slightly by either the TGF-β₁ and TGF-β₂ neutralizing antibody.These in vitro data suggest that germ cells and Sertoli cells release latent TGF-β's. Following secretion, the TGF-β's are converted to a biological active form that can interact with specific TGF-β receptors. These results strengthen the hypothesis that TGF-β's may play a physiological role in germ cell proliferation/differentiation and Sertoli cell function.     

Molecular cloning and localization of a CEACAM2 isoform,CEACAM2‐L,expressed in spermatids in mouse testis

Carcinoembryonic antigen (CEA) family, a subgroup of the immunoglobulin (Ig) superfamily, is divided into two sub‐families: the CEA‐related cell adhesion molecules (CEACAM) and the pregnancy‐specific glycoproteins. The isoform CEACAM2 is expressed in mouse testis; in this study, we identified a novel isoform of Ceacam2, Ceacam2‐Long (Ceacam2‐L). CEACAM2‐L is different from CEACAM2 in that it has much longer cytoplasmic tail region. Ceacam2‐L starts to appear faintly in mouse testis after 3 weeks of postnatal development, and its expression level increased after 5 weeks. Immunoblot analysis confirmed the expression of CEACAM2‐L in the seminiferous epithelium of mouse testis. Immunohistochemical data showed that CEACAM2‐L was not observed on spermatogonia, spermatocytes, round spermatids, or Sertoli cells, but was seen at the plasma membrane of elongating spermatids in contact with extended cytoplasmic processes of Sertoli cells. CEACAM2‐L was not detected at the head region of elongating spermatids, where the apical ectoplasmic specialization is constructed. These data suggest that CEACAM2‐L might be a novel adhesion molecule contributing to cell‐to‐cell adhesion between elongating spermatids and Sertoli cells within the seminiferous epithelium. Mol. Reprod. Dev. 79: 843–852, 2012. © 2012 Wiley Periodicals, Inc.     

Male sterility in mice lacking retinoic acid receptor alpha involves specific abnormalities in spermiogenesis

The severe degeneration of the germinal epithelium and subsequent male sterility observed in mice null for the retinoic acid receptor alpha (RARalpha) gene suggested its critical role in spermatogenesis, although the etiology and progression of these abnormalities remain to be determined. Previous studies have revealed that elongated spermatids in RARalpha(-/-) testes were improperly aligned at the tubular lumen and did not undergo spermiation at stage VIII(*). We now report a distinctive failure of step 8-9 spermatids to orient properly with regard to the basal aspect of Sertoli cells, resulting in stage VIII(*)-IX(*) tubules with randomly oriented spermatids. By in situ terminal deoxynucleotidyltransferase-mediated deoxy-UTP nick end labeling (TUNEL), we noted that elongating spermatids frequently underwent apoptosis. Immunohistochemical analysis revealed that while activated caspase-3, the primary effector caspase in the apoptotic cell death machinery, was detected in the nuclei of primary spermatocytes in the first wave of spermatogenesis and occasionally in spermatogonia of both normal and mutant testes, it was not involved in the death of elongating spermatids in RARalpha(-/-) testes. Thus, sterility in RARalpha(-/-) males was associated with specific defects in spermiogenesis, which may correlate with a failure in both spermatid release and spermatid orientation to the basal aspect of Sertoli cells at stage VIII(*) in young adult RARalpha(-/-) testis. Further, the resulting apoptosis in elongating spermatids appears to involve pathways other than that mediated by activated caspase-3.     

CHROMOSOMAL REARRANGEMENTS AND THE GENETICS OF REPRODUCTIVE BARRIERS IN MIMULUS (MONKEY FLOWERS)

Chromosomal rearrangements may directly cause hybrid sterility and can facilitate speciation by preserving local adaptation in the face of gene flow. We used comparative linkage mapping with shared gene‐based markers to identify potential chromosomal rearrangements between the sister monkeyflowers Mimulus lewisii and Mimulus cardinalis, which are textbook examples of ecological speciation. We then remapped quantitative trait loci (QTLs) for floral traits and flowering time (premating isolation) and hybrid sterility (postzygotic isolation). We identified three major regions of recombination suppression in the M. lewisii × M. cardinalis hybrid map compared to a relatively collinear Mimulus parishii × M. lewisii map, consistent with a reciprocal translocation and two inversions specific to M. cardinalis. These inferences were supported by targeted intraspecific mapping, which also implied a M. lewisii‐specific reciprocal translocation causing chromosomal pseudo‐linkage in both hybrid mapping populations. Floral QTLs mapped in this study, along with previously mapped adaptive QTLs, were clustered in putatively rearranged regions. All QTLs for male sterility, including two underdominant loci, mapped to regions of recombination suppression. We argue that chromosomal rearrangements may have played an important role in generating and consolidating barriers to gene flow as natural selection drove the dramatic ecological and morphological divergence of these species.     

Cytological changes in the testes of vitamin-A-deficient rats. II. Ultrastructural study of the seminiferous tubules.

Ultrastructural study confirmed that, in rats, vitamin A deficiency initially caused the sloughing of some spermatids and spermatocytes into the lumina of the seminiferous tubules around day 3 following the initial decrease of body weight. From days 5 to 10, a considerable number of spermatocytes and spermatids, which still remained in the epithelium, underwent necrosis. Several stages of dying spermatocytes and abnormal spermatids were observed. The latter were distinguished by the presence of chromatin aggregating along the nuclear envelopes and highly vacuolated mitochondria. These cells range from single to multinucleate forms. They were incapable of differentiating further into spermatozoa and ultimately degenerated. Within the same period, Sertoli cells exhibited numerous darkly stained lysosome-like inclusions, and the upper part of their cytoplasm appeared as irregular processes, some of which were broken off and resulted in the thinning of the epithelium. From days 10 to 20, the remaining germ cells comprised mainly spermatogonia and few abnormal spermatocytes. The latter appeared enlarged and were very lightly stained. Their nuclei exhibited unusual blocks of heavily condensed chromatin amidst very highly dispersed chromatin fibers. Though their number was reduced, most of the spermatogonia appeared unaltered. Processes of Sertoli cells became even more irregular and were interrupted at certain sites by large empty spaces. Darkly stained inclusions in their cytoplasm were fewer than observed earlier.     

Actin-related intercellular adhesion junctions in the germinal compartment of the testis in the hagfish (Eptatretus stouti) and lamprey (Lampetra tridentatus)

The germinal epithelium of male vertebrates consists of Sertoli cells and spermatogenic cells. Intercellular junctions formed by Sertoli cells assume critical roles in the normal functions of this epithelium. While Sertoli cell junctions have been well characterized in mammals, similar junctions in nonmammalian vertebrates have received little attention. We examined the intercellular junctions found within the germinal epithelium of the hagfish (Eptatretus stouti) and lamprey (Lampetra tridentatus). Ultrastructurally, Sertoli cells were seen to form filament-associated junctions in both species. Adjacent Sertoli cells formed microfilament-related junctions near their apices. Filaments of these junctions were arranged in loose networks and were not associated with cisterns of endoplasmic reticulum. In fixed, frozen sections of hagfish testis, similar areas labeled with rhodamine phalloidin, indicating the filament type is actin. In the lamprey, desmosomes were observed immediately below the microfilament-related junctions. In appearance and location, the Sertoli cell junctions observed in these species resembled those of the typical junctional complex of other epithelial cell types. No junctions were observed between Sertoli cells and elongating spermatids. In the hagfish, but not the lamprey, an additional zone of microfilaments occurred near the base of Sertoli cells in areas of association with the basal lamina. Our observations are consistent with the proposal that the unique forms of intercellular attachment found in the testes of higher vertebrates evolved from a typical epithelial form of intercellular junction.     

Expression characterization of genes for CMS-C in maize

Cytoplasmic male sterility (CMS)-C is one of the most attractive sources of male sterility in the production of hybrid maize. However, the abortion mechanism of CMS-C is currently unknown. The major aim of this work was to characterize the expression of genes and proteins during pollen abortion. The materials assayed included CMS-C line C48-2, its maintainer line N48-2, and fertile F₁ (C48-2?×?18 white). A total of 20 unique genes and 25 proteins were identified by suppression subtractive hybridization and 2-D electrophoresis, respectively. Most of the genes and proteins identified are closely related to energy metabolism, stress responses, molecular chaperones, and cell death, which are generally considered to be essential to pollen development. Based on the function of these identified genes and proteins, reactive oxygen species in isolated mitochondria and DNA fragments were analyzed. The results from this study indicate that the oxidative stress which was associated with the specific expression patterns of some genes may be the physiological cause for the abortion of premature microspores in the maize CMS-C line.     

Testicular involution following optic enucleation

Summary The testes of adult male Syrian hamsters underwent involution within six weeks after optic enucleation. The diameter of the seminiferous tubules was 39% less than controls. Sertoli cells, spermatogonia, and primary spermatocytes were still present, but all steps of spermatids were completely absent from the involuted testes. Lipid droplets filled the Sertoli cell cytoplasm and often encroached upon the nucleus. Sertoli cells had sparse mitochondria and smooth endoplasmic reticulum, but Golgi cisternae were abundant. Typical SertoliSertoli junctions attached contiguous Sertoli cells. With lanthanum tracers it was demonstrated that these junctions were impenetrable; therefore, the bloodtestis barrier was deemed intact. Irregularly shaped protrusions often arose from the peritubular tissue and extended inward toward the seminiferous epithelium, often displacing the cytoplasm of the Sertoli cells and spermatogonia. The core of these protrusions consisted of irregular extensions of myoid cell cytoplasm surrounded by the myoid cells' basal lamina. External to the myoid cell basal lamina were bundles of collagen filaments with the basal lamina of the seminiferous epithelium forming the outermost layer of these protrusions. The apices of the Sertoli cells gave rise to numerous leaf-like processes that extended into and obliterated the lumen of the tubules. The Sertoli cell basal cytoplasm often contained phagocytized degenerating germ cells that appeared to give rise to the lipid droplets that filled the Sertoli cell cytoplasm. Acid phosphatase rich lysosome-like organelles were seen fusing with the degenerating germ cells and lipid droplets. The degenerating germ cells also were shown to contain acid phosphatase activity.     

Ultrastructural evidence for Sertoli-like cells in the testis of the asteroid,Luidia clathrata (Say) (Echinodermata: Platyasterida)

Non-germinal cells arise adjacent to the basal lamina and extend between the numerous germinal celli. Nuclei of these non-germinal cells may be positioned near the basal lamina or more peripherally between the spermatocytes. Thin cytoplasmic processes extend between the spermatocytes to the spermatids. These cytoplasmic processes vary in electron density from the cytoplasm of the germinal cells. These non-germinal cells closely resemble the vertebrate Sertoli cell.     

Receptor-mediated endocytosis of testicular transferrin by germinal cells of the rat testis

Summary The present study examines events of the Sertoli cell iron delivery pathway following the secretion of diferric testicular transferrin (tTf) into the adluminal compartment of the rat seminiferous epithelium. The unidirectional secretion of tTf by Sertoli cells was verified, in vivo, and it was shown that this protein is internalized by adluminal germ cells. It was further determined by Scatchard analysis that this internalization was mediated by high affinity transferrin binding sites on the surface of round spermatids, numbering 1453/cell and displaying a K_d=0.6×10^-9 M. Northern blot analysis of RNA isolated from adluminal germ cells, namely spermatocytes, round spermatids and elongating spermatids, indicated that these cells expressed Tf receptor mRNA and ferritin mRNA in levels inversely related to their stage of maturation. Finally it was determined that following binding and internalization in round spermatids, Tf became associated with the endosomal compartment and was recycled back to the cell surface. This study illustrates the immediate fate of tTf once it is secreted by the Sertoli cell. Thus, diferric tTf binds of Tf receptor on the surface of adluminal germ cells, is internalized by receptor-mediated endocytosis and the apo Tf-Tf receptor complex is recycled back to the cell surface where apotTf is released into the adluminal fluid.     

La spermatide, cette méconnue

The use of microinsemination of round or elongated spermatids into ovocytes, in certain cases of male infertility, requires re-examination of the sequence of morphological and functional changes that occur throughout spermiogenesis. This paper reviews essential findings on morphogenesis of spermatids, genome expression during sperm differentiation and cellular interactions between spermatids themselves and between spermatids and Sertoli cells. Round and elongated spermatids appear to represent two classes of structuraly and functionnaly different cells. One question remains: on what criteria can one claim that a round spermatid functions normally when spermiogenesis is blocked or impaired?     

Identification of RAPD markers linked to the ps gene and their usefulness for purity determination of breeding lines and F1 tomato hybrids

The functional male sterility controlled by ps gene proved to be a useful tool in hybrid tomato varieties breeding in Poland. The climat conditions such as excessive temperature and high humidity have a bad effect on the expression and stability of functional male sterility. Using the RAPD methods we have identified two RAPD markers linked to the ps gene. The markers OPW 13₁₂₃₀ and OPAX 10₇₈₀ were generated by 5′CACAGCGACA 3′ and 5′CCAGGCTGAC 3′ decamers respectively in F₂ population of combination 24/29 × G-1.     

A Novel Mouse Chromosome 17 Hybrid Sterility Locus: Implications for the Origin of T Haplotypes

The effects of heterospecific combinations of mouse chromosome 17 on male fertility and transmission ratio were investigated through a series of breeding studies. Animals were bred to carry complete chromosome 17 homologs, or portions thereof, from three different sources-Mus domesticus, Mus spretus and t haplotypes. These chromosome 17 combinations were analyzed for fertility within the context of a M. domesticus or M. spretus genetic background. Two new forms of hybrid sterility were identified. First, the heterospecific combination of M. spretus and t haplotype homologs leads to complete male sterility on both M. spretus and M. domesticus genetic backgrounds. This is an example of symmetrical hybrid sterility. Second, the presence of a single M. domesticus chromosome 17 homolog within a M. spretus background causes sterility, however, the same combination of chromosome 17 homologs does not cause sterility within the M. domesticus background. This is a case of asymmetrical hybrid sterility. Through an analysis of recombinant chromosomes, it was possible to map the M. domesticus, M. spretus and t haplotype alleles responsible for these two hybrid sterility phenotypes to the same novel locus (Hybrid sterility-4). Previous structural studies had led to the hypothesis that the ancestral t haplotype originated through an introgression event from M. spretus or a related species. If this were true, one might expect that (1) M. spretus homologs would be transmitted at a non-Mendelian ratio within the M. domesticus background, and (2) t haplotypes would be transmitted at a ratio closer to Mendelian within the M. spretus background.(ABSTRACT TRUNCATED AT 250 WORDS)     

Spermatogenesis in Animals as Revealed by Electron Microscopy : VIII. Relation between the Nutritive Cells and the Developing Spermatids in a Pond Snail, Cipangopaludina malleata Reeve

This paper deals with spermatogenesis in Cipangopaludina malleata Reeve, with special regard to the relation between the nutritive cells and the developing spermatids. The nutritive cell gives rise to numerous, slender or broad, elongate pseudopodia which extend from its surface toward the seminiferous lumen. They are characteristically provided with rows of circular, oval, and elongate profiles identical in form and position with the profiles of the endoplasmic reticulum. As the elongate pseudopodia increase in number, they become more slender and more closely packed until they coalesce into a continuous sheet circumferentially disposed around the nucleus and the full length of the middle piece of the typical spermatid. Thus the mantle of the typical spermatozoon of the pond snail is formed by a thin fold of the cytoplasm of the nutritive cells. This wrapping appears to contain 16 to 18 elements of the smooth surfaced endoplasmic reticulum, which run parallel and helically (50 to 100 mµ apart). It is suggested that these constitute a conductor system for nutritional supply from the nutritive cells to the developing typical spermatids. The mantle is assumed to be a transient structure which disappears when the sperms are detached. The atypical spermatids develop while lodged in deep indentations of the surface of the nutritive cells.