High-resolution scanning electron microscopic study of the mouse submandibular salivary gland.

The submandibular gland of the mouse was studied by high-resolution scanning electron microscopy, using the osmium-dimethylsulfoxide-osmium method. The three-dimensional structures of the intracellular membranous organelles of acinar cells were clearly revealed. The luminal surface of cisterns of the granular endoplasmic reticulum and Golgi apparatus exhibited particles of 8-15 nm in diameter. The secretory canaliculi presented short microvilli which were irregularly arranged. The striated duct cells were characterized by rich mitochondria arranged vertically in the basal portion. The lamellar mitochondrial cristae were noted in three-dimensional images. The luminal surface extended short microvilli, while that of the excretory duct cell presented complicated microplicae. The capillary endotheliocytes showed a few short microvilli, and their fenestrated areas were bordered by cytoplasmic crests. Fenestrae were 50-80 nm in diameter and showed a plug in their center. The basement membranes of the acini and capillaries showed a spongy structure with various strands and meshes. Collagenous fibrils crisscrossed on their surface.     

Action of mitomycin C on mouse spermatogonia

The induction of chromosome aberrations in mouse spermatogonia and bone marrow cells by treatment with Mitomycin (MC) was tested. The following dosages were used: 3.5; 1.75; 0.35; and 0.035 mg/kg body weight. Chromatid interchanges and terminal deletions were induced in both tissues. Regarding the chromosome damage, spermatogonia seemed to be more sensitive to the test substance than bone marrow cells.The aberrations observed were considered to represent the cause of dominant lethals induced in spermatocytes after treatment with MC by others. The squash technique adapted for examination of mitoses of mouse spermatogonia proved to be a useful tool in testing potential chemical mutagens.     

Cytogenetic effects of cyclophosphamide on mouse spermatogonia

Summary NMRI mice were treated with single doses of cyclophosphamide (Cytoxan) and spermatogonia were analysed for chromosome aberrations at various time intervals after treatment.The maxima of aberrations were found 24 hrs p.i. Chromatid type aberrations were observed exclusively. About half of the aberrations consisted of chromatid interchanges, 92% of which exchanging short arm fragments close to the centromeric region.The lack of meiotic multivalents in diakinesis-metaphase I after treatment of spermatogonia stem cells with cyclophosphamide in the study of leonard and Linden (1972) is discussed.

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Zusammentassung NMRI-Mäuse erhielten einmalig eine Applikation von Endoxan in verschieden hoher Dosierung. Zu verschiedenen Zeiten nach der Behandlung wurden Tiere getötet und die Spermatogonien analysiert.Das Maximum der induzierten Effekte lag bei 24 Std p.i. Es gelangten ausschließlich Chromatidentypaberrationen zur Beobachtung, die annähernd zur Hälfte aus Chromatidenaustauschen bestanden. Dabei handelte es sich überwiegend (92%) um Segmentaustausche im zentromernahen Bereich.Der fehlende Nachweis von Multivalenten in der Diakinese-Metaphase I nach Behandlung spermatogonialer Stammzellen mit Cyclophosphamid (Leonard u. Linden, 1972) wird diskutiert.

     

Strain differences in the radiosensitivity of mouse spermatogonia

The radiosensitivity of spermatogonia was found to be greater by up to a factor of 2 in C3H mice than in B6D2F1 mice, whether assessed for the highly sensitive spermatogonia (types A2 to In) or the much more resistant clonogenic spermatogonia which repopulate tubules. The latter were similarly resistant in the B6D2F1 hybrid and in the DBA2 parent, but were much more sensitive in the C57BL parent strain. A difference in sensitivity by up to a factor of 2 results in a variation by a factor of 10 or more in the level of survival of clonogenic cells after high doses. This variation is also observed when comparing data in the literature from different authors using various strains of mice. Using the radiosensitizer misonidazole, it was shown that hypoxia did not play a major role in the lesser sensitivity demonstrated in B6D2F1 mice. The variation in sensitivity is similar to the range reported in the literature for reciprocal translocations.     

Determinants of retroviral-mediated gene delivery to mouse spermatogonia

Spermatogonia represent a new route to transgenesis in mice and potentially in some commercially important domesticated animals. In addition, these cells are also a potential target for viral integration in patients receiving somatic cell gene therapy. But the factors influencing retroviral transduction into spermatogonia are not well understood. Because retroviral transduction is affected in part by the proliferative status of the host cell, we developed an improved cell culture system in which spermatogonia survive and proliferate for several days. We used this system to test the ability of a variety of murine and avian retroviruses to infect spermatogonia. We investigated the factors influencing retroviral transduction of spermatogonia, including the proliferative status of the infected cell, the type of viral envelope, the type of retroviral long terminal repeat, and the method of viral delivery. Here we show that many of the widely used retroviral vector systems can be used to successfully transduce spermatogonia at high efficiency. Moreover, we show that retroviral delivery of MDM2, the major downregulator of p53, promotes spermatogonial survival in culture, suggesting that p53 plays a role in regulating spermatogonial apoptosis induced by growth factor deprivation. These results further demonstrate the usefulness of this novel system of targeting substances of interest to the testis. These data have important implications for improving animal transgenesis and for understanding the risks associated with somatic cell gene therapy.     

Cytogenetic effects of cyclophosphamide on mouse spermatogonia.

NMRI mice were treated with single doses of cyclophosphamide (Cytoxan) and spermatogonia were analysed for chromosome aberrations at various time intervals after treatment. The maxima of aberrations were found 24 hrs p.i. Chromatid type aberrations were observed exclusively. About half of the aberrations consisted of chromatid interchanges, 92% of which exchanging short arm fragments close to the centromeric region. The lack of meiotic multivalents in diakinesis-metaphase I after treatment of spermatogonia stem cells with cyclophosphamide in the study of Leonard and Linden (1972) is discussed.     

The staining of the synaptonemal complex for light microscopic study in the mouse

Demonstration of the synaptonemal complex for light microscopy has until now been based on staining with silver. After fixation at pH 9-10 it is also possible to visualize synaptonemal complexes with several nonspecific protein stains such as Coomassie brilliant blue, Giemsa, fast green, light green and Stains All. Although staining with silver gives the best contrast between synaptonemal complexes and the background, the other dyes have a number of advantages, such as more even staining, easy extractability, and lower cost than silver.     

The sensitivity to X rays of mouse spermatogonia that are committed to differentiate and of differentiating spermatogonia.

In the CBA mouse the radiosensitivity of the undifferentiated spermatogonia that are committed to differentiate was determined by counting their more developed descendants 10 days after graded doses of X rays. Decreasing D0 values were found when these differentiating spermatogonia were derived from undifferentiated spermatogonia that were located in all likelihood in chains of increasing length. In stages IX and X of the epithelial cycle the radiosensitivity of these undifferentiated spermatogonia was characterized by a D0 of 2.2 Gy. This D0 value most likely belongs to the Asingle spermatogonia that form repopulating colonies which give rise to differentiating spermatogonia within the same epithelial cycle. In stages XII/I, where a D0 of 1.0 Gy was found, the dose-response curve is likely dominated by the Apaired spermatogonia present in these stages. In stages III to VII, the Aaligned spermatogonia transforming into A1 spermatogonia determine the radiosensitivity. During this period the D0 decreased from 0.7 to 0.4 Gy. Differentiating A1 to A3 and B spermatogonia had rather similar radiosensitivities of 0.4 to 0.5 Gy.     

High-resolution cytogenetic characterization of the L5178Y TK+/- mouse lymphoma cell line

High-resolution chromosome preparations from L5178Y TK+/- 3.7.2C mouse lymphoma cells were obtained using acridine orange in the cell harvest procedure. With this technique it is possible to visualize over 500 bands in elongated mouse lymphoma cell chromosomes as compared to the approximately 230 bands visualized in metaphase preparations. High-resolution lymphoma cell chromosomes are described, and chromosome rearrangements carried in the cell line are characterized by ideograms representing the position, number, size, and relative staining intensity of the G-band patterns. Use of elongated chromosomes of mouse lymphoma TK+/- mutants should facilitate analysis of the cytogenetic effects associated with TK+/- ----TK-/- mutagenesis.     

The pluripotency factor LIN28 marks undifferentiated spermatogonia in mouse

Background  

Life-long production of spermatozoa depends on spermatogonial stem cells. Spermatogonial stem cells exist among the most primitive population of germ cells – undifferentiated spermatogonia. Transplantation experiments have demonstrated the functional heterogeneity of undifferentiated spermatogonia. Although the undifferentiated spermatogonia can be topographically divided into A_s (single), A_pr (paired), and A_al (aligned) spermatogonia, subdivision of this primitive cell population using cytological markers would greatly facilitate characterization of their functions.     

Distribution of type A spermatogonia in the mouse is not random

The distribution of type A spermatogonia was studied using drawings of cross-sectioned tubules at various stages of the spermatogenic cycle of perfusion-fixed, epoxy-embedded mouse testis. Spermatogonia were classified as either positioned opposite the interstitium or opposite the region where two tubules make contact or in a defined, intermediate region at which the two tubules diverged. At stage V, the population of type A spermatogonia, comprised of A(s) through A(al) cells, is randomly positioned around the periphery of the seminiferous tubule. The A(s) through A(al) population becomes nonrandomly distributed beginning at stage VI, being located primarily in regions where the tubule opposes the interstitium, and remains nonrandom through stage III of the next cycle. The A(1) spermatogonia of stage VII, derived from most A(pr) and A(al) spermatogonia, and the A(2) spermatogonia of stage IX, derived from the A(1) spermatogonia, are also nonrandomly positioned opposing the interstitium. However, the A(3) population of stage XI becomes randomly distributed around the tubule. To our knowledge, these are the first data to show that the more primitive spermatogonial types (A(s) to A(al)) move to specific sites within the seminiferous tubule. Division of the regularly spaced, more primitive spermatogonia (A(s) to A(al)) leads to the spread of their progeny (A(1) to A(4)) laterally along the base of the seminiferous tubule. The lateral spread from more or less evenly spaced foci ensures that spermatogenesis is conducted uniformly around the entire tubule. The data also suggest that the position of a seminiferous tubule in the mouse is stabilized in relationship to other seminiferous tubules.     

Cytogenetic effects of fractionated or unfractionated X-ray exposures to mouse spermatogonia

The induction of chromosomal aberrations in mouse spermatogonia was studied, after single (50 and 100 rad) and fractionated doses (50 + 50 rad spaced 24 h apart), a short time after irradiation, by analysis of mitotic stages. From 17 to 21 h after the second fraction of the dose, the recorded frequencies of chromosomal deletions and exchanges were fully additive when compared with single “control” doses. Thus there was no suggestion of any sensitization effect of the first exposure. Possible reasons for this are discussed.     

Effect of testicular extracts on proliferation of spermatogonia in the mouse

Two intraperitoneal injections with an interval of 4 h between them, of rat testicular extract into adult male mice causes a decrease in the production of A spermatogonia in the compartment of undifferentiated A (As, Apr and Aal) spermatogonia. A significant decrease in the total number of A spermatogonia in stages VII and VIII of the cycle of the seminiferous epithelium was found at 2, 4 and especially 5, 7 and 8 days after treatment. Extracts of rat liver and rat spleen were without effect. In addition, an extract of rat testis containing very few spermatogonia had no effect. It was concluded that the active substance in the extract is synthesized and/or specifically accumulated in the spermatogonial compartment of the testis. Thus the active substance is tissue-specific but not species-specific, since extracts of both rat and bull testes were effective after injection into mice. It is inferred from the data that the effect of injection of testicular extracts is unlikely to be due to cytotoxicity, hormonal changes in the tubular environment or to an immunologic reaction, but is probably due to a spermatogonial chalone. This chalone partially inhibits proliferation of early type A spermatogonia in the normal mouse testis.     

Chromosomal rearrangements induced in mouse spermatogonia by 14.5-MeV neutrons

Inbred CBA male mice were irradiated with 14.5-MeV neutrons. Three acute doses, 75, 150 and 250 rad, and one chronic dose, 250 rad, were given. The percentages of affected spermatocytes as counted from reciprocal translocations which had been induced in spermatogonia were 0.7, 0.8 and 1.6 respectively for the acute series and 2.2 after chronic exposure. The data could be fitted to a linear or concave curvilinear regression line. There seemed to be a slight increase of damage with dose, even if the percentages were generally lower than those reported earlier for fast neutrons with energies around 1 MeV. The existence of dose-rate effects is discussed, and the conclusion drawn so far is that there seems to be no such effect either for 1-MeV fast neutrons or 14.5-MeV high energy neutrons. The term “reversed dose-rate effect”, as used earlier, relates to another phenomenon. The difference between the point estimates for the chronic and acute 250 rad series is not significant. The effectiveness of neutrons with energies around 14 MeV versus neutrons with energies around 1 MeV is discussed.     

Comparative cytogenetic study after treatment of mouse spermatogonia with mitomycin C

Male (101 × C₃H)F₁ hybrid mice, 10–12 weeks old, were injected i.p. with single doses of 2.5, 3.75 or 5.0 mg/kg of mitomycin C (MC). Spermatogonia were sample for mitotic chromosome analyses 6, 18 or 24 h after treatment. Spermatocytes were sample for meiotic chromosome analyses 50 or 60 days after treatment.The maximal yield of chromatid-type aberrations induced in spermatogonia was found 24 h after treatment with 5.0 mg/kg of MC. More than 50% of the cells carried at least one chromatid exchange. The majority (90%) of these were whole-arm exchanges derived from breaks in the centromeric heterochromatin.No translocation multivalents were found in spermatocytes analysed 50 or 60 days after treatment. The discrepancy between the presence of many symmetrical exchanges in spermatogonia and the absence of translocation multivalents in primary spermatocytes may be result of insensitivity of the stem cell spermatogonia against exchange induction by MC or of complete germinal selection against induced translocations before and/or during early meiosis. However, the possibility of missing translocations due to whole-arm exchanges in acrocentric chromosomes during the analysis of diakineses-metaphases I is also discussed.It is emphasized that comparisons of chromatid exchange frequencies in spermatogonia with the yield of translocation multivalents in spermatocytes descended from these spermatogonia as opposed to those from stem cells might provide an estimate of pre-diakinesis germinal selection against chromatid exchanges or the resulting translocations. This estimate is important for the quantitative evaluation of the genetic risk from environmental mutagens.