scholarly journals DNA analysis and sorting of viable mouse testis cells.

1981 ◽  
Vol 29 (6) ◽  
pp. 738-746 ◽  
Author(s):  
W M Grogan ◽  
W F Farnham ◽  
J M Sabau
Keyword(s):  
Dna Content ◽  
Adult Mouse ◽  
Dna Analysis ◽  
Cell Types ◽  
Mouse Testis ◽  
Spermatogenic Cells ◽  
Hoechst 33342 ◽  
Cell Sorter ◽  
Pachytene Spermatocytes

The dye Hoechst 33342 and a 2-parameter cell sorter have been used to measure DNA content in viable testis cells and to sort pachytene spermatocytes and round spermatids from adult mouse testis to virtually 100% homogeneity. Early diploid spermatogenic cells were enriched to 90%, a 10-fold purification. The capability for viable sorting of most testis cell types to homogeneity in numbers suitable for many biochemical applications is demonstrated.

218. Expression of Wsb2 in the mouse testis

2005 ◽  
Vol 17 (9) ◽  
pp. 84
Author(s):  
M. Sarraj ◽  
P. J. McClive ◽  
K. L. Loveland ◽  
A. H. Sinclair
Keyword(s):  
Sertoli Cells ◽  
Leydig Cells ◽  
Adult Mouse ◽  
In Situ Hybridisation ◽  
Mouse Testis ◽  
Male Gonad ◽  
Whole Mount ◽  
Mantle Layer ◽  
Pachytene Spermatocytes

We present a detailed study on the expression pattern of Wsb2 in the mouse foetal and adult gonad. Wsb2 expression was analysed during mouse embryogenesis by whole-mount, section in situ hybridisation and immunohistochemistry. Wsb2 was found to be expressed in the developing mouse gonads from 11.5 dpc to 16.5 dpc. Expression is initially equal in both sexes from 10.5 dpc until 12.0 dpc, then it persists in the male gonad. Wsb2 expression was confined to the cords in both Sertoli cell and germ cells. Other sites of Wsb2 embryonic expression were the somites, dorsal root ganglia and the lateral mantle layer of the neural tube. mRNA encoding Wsb2 and Wsb2 protein has been detected in the newborn testis in both gonocytes and Sertoli cells. Wsb2 mRNA in the adult mouse testis was observed in Sertoli cells, spermatogonia, spermatocytes and the corresponding Wsb2 protein expression was in pachytene spermatocytes, round and elongated spermatids, Sertoli cells and Leydig cells. The differential expression of Wsb2 in male versus female embryonic gonads suggests it may play a role in mammalian sex determination during embryonic development and its expression in the first wave of spermatogenesis and in the adult suggests a later role in spermatogenesis.

scholarly journals Spermatogenic cells of the prepuberal mouse: isolation and morphological characterization

1977 ◽  
Vol 74 (1) ◽  
pp. 68-85 ◽  
Author(s):  
AR Bellve ◽  
JC Cavicchia ◽  
CF Millette ◽  
DA O'Brien ◽  
YM Bhatnagar ◽  
...  
Keyword(s):  
Sertoli Cells ◽  
Morphological Characteristics ◽  
Type A ◽  
Cell Types ◽  
Specific Cell ◽  
Spermatogenic Cells ◽  
Type B ◽  
Primitive Type ◽  
Pachytene Spermatocytes ◽  
Type A Spermatogonia

A procedure is described which permits the isolation from the prepuberal mouse testis of highly purified populations of primitive type A spermatogonia, type A spermatogonia, type B spermatogonia, preleptotene primary spermatocytes, leptotene and zygotene primary spermatocytes, pachytene primary spermatocytes and Sertoli cells. The successful isolation of these prepuberal cell types was accomplished by: (a) defining distinctive morphological characteristics of the cells, (b) determining the temporal appearance of spermatogenic cells during prepuberal development, (c) isolating purified seminiferous cords, after dissociation of the testis with collagenase, (d) separating the trypsin-dispersed seminiferous cells by sedimentation velocity at unit gravity, and (e) assessing the identity and purity of the isolated cell types by microscopy. The seminiferous epithelium from day 6 animals contains only primitive type A spermatogonia and Sertoli cells. Type A and type B spermatogonia are present by day 8. At day 10, meiotic prophase is initiated, with the germ cells reaching the early and late pachytene stages by 14 and 18, respectively. Secondary spermatocytes and haploid spermatids appear throughout this developmental period. The purity and optimum day for the recovery of specific cell types are as follows: day 6, Sertoli cells (purity>99 percent) and primitive type A spermatogonia (90 percent); day 8, type A spermatogonia (91 percent) and type B spermatogonia (76 percent); day 18, preleptotene spermatocytes (93 percent), leptotene/zygotene spermatocytes (52 percent), and pachytene spermatocytes (89 percent), leptotene/zygotene spermatocytes (52 percent), and pachytene spermatocytes (89 percent).

Past, present and future perspectives on sexing sperm

2003 ◽  
Vol 83 (3) ◽  
pp. 375-384 ◽  
Author(s):  
D. L. Garner ◽  
G. E. Seidel Jr.
Keyword(s):  
Flow Cytometry ◽  
Key Words ◽  
Sex Chromosomes ◽  
Dna Content ◽  
Sex Chromosome ◽  
Future Perspectives ◽  
Hoechst 33342 ◽  
Cell Sorter ◽  
Mammalian Sperm ◽  
Bovine Sperm

Development of flow cytometry for sorting mammalian sperm according to their sex chromosomes began in the late 1970s and early 1980s. This technology, which has recently been commercialized for bovine sperm, is based on the differences in DNA content between X- and Y-chromosome-bearing sperm. Under ideal conditions, 5000 live bovine sperm of each sex can be sorted per second at 90% accuracy. Pregnancy rates of 50% have been achieved routinely in well-managed heifers with sex-sorted, cryopreserved bovine sperm compared to 60–80% with unsexed control sperm. About 90% of offspring have been of the selected sex. Sorting sperm according to sex chromosome content is similarly successful in many other mammals including exotic species, but sorting efficiencies are somewhat less for sperm from some species. Key words: Mammals, sex chromosomes, flow cytometer, cell sorter, DNA content, X and Y sperm, Hoechst 33342

scholarly journals Fluorescence polarization and pulse width analysis of chromosomes by a flow system.

1979 ◽  
Vol 27 (1) ◽  
pp. 445-453 ◽  
Author(s):  
L S Cram ◽  
D J Arndt-Jovin ◽  
B G Grimwade ◽  
T M Jovin
Keyword(s):  
Dna Content ◽  
Pulse Width ◽  
Flow System ◽  
Chinese Hamster ◽  
Hoechst 33342 ◽  
Cell Sorter ◽  
Emission Anisotropy ◽  
Simple Theoretical Model ◽  
Rigid Rods ◽  
Computer Controlled

Isolated Chinese hamster chromosomes have been analyzed using a multiparameter computer-controlled cell sorter to obtain information about unique properties of individual chromosomes. Parameters other than DNA content were sought that would further aid in distinguishing among chromosomes. The polarized emission of the DNA-specific bis-benzimidazole dye Hoechst 33342 was measured for each class of chromosomes identified by a distinct peak, i.e., differeing in DNA content. The emission anisotropy values for all chromosome classes was constant (emission anisotropy = 0.30), and the same value was obtained for purified DNA in solution. Pulse width was found to be a good parameter for resolving chromosomes as a function of total emission in the case of the smaller chromosomes and orientation (i.e., arm length) for large chromosomes. A simple theoretical model for predicting the pulse shapes generated by arbitrarily oriented, thin, rigid rods was developed and applied to the evaluation of the experimental data.

Annulate lamellae in the Sertoli cells of guinea pig testis after unilateral torsion of the spermatic cord

1984 ◽  
Vol 42 ◽  
pp. 196-197
Author(s):  
J. Chakraborty ◽  
A. P. Sinha Hikim ◽  
J. S. Jhunjhunwala
Keyword(s):  
Sertoli Cells ◽  
Guinea Pigs ◽  
Spermatic Cord ◽  
Present Report ◽  
Cell Types ◽  
Annulate Lamellae ◽  
Spermatogenic Cells ◽  
Electron Microscopic ◽  
Structural Details ◽  
First Time

Although the presence of annulate lamellae was noted in many cell types, including the rat spermatogenic cells, this structure was never reported in the Sertoli cells of any rodent species. The present report is based on a part of our project on the effect of torsion of the spermatic cord to the contralateral testis. This paper describes for the first time, the fine structural details of the annulate lamellae in the Sertoli cells of damaged testis from guinea pigs.One side of the spermatic cord of each of six Hartly strain adult guinea pigs was surgically twisted (540°) under pentobarbital anesthesia (1). Four months after induction of torsion, animals were sacrificed, testes were excised and processed for the light and electron microscopic investigations. In the damaged testis, the majority of seminiferous tubule contained a layer of Sertoli cells with occasional spermatogonia (Fig. 1). Nuclei of these Sertoli cells were highly pleomorphic and contained small chromatinic clumps adjacent to the inner aspect of the nuclear envelope (Fig. 2).

scholarly journals Dynamics of intracellular calcium induced by lactate and glucose in rat pachytene spermatocytes and round spermatids

Reproduction ◽  
2002 ◽  
pp. 701-710 ◽  
Author(s):  
JG Reyes ◽  
E Herrera ◽  
L Lobos ◽  
K Salas ◽  
N Lagos ◽  
...  
Keyword(s):  
Intracellular Calcium ◽  
Carbohydrate Metabolism ◽  
Adenine Nucleotides ◽  
Differential Modulation ◽  
Glycolytic Metabolism ◽  
Spermatogenic Cells ◽  
Lactate Metabolism ◽  
The Media ◽  
Hexose Phosphorylation ◽  
Pachytene Spermatocytes

Glycolytic metabolism in meiotic and post-meiotic spermatogenic cells shows differentiation-related changes. The developmental and physiological significance of these metabolic changes is not known. The aim of the present study was to test the hypothesis that glucose and lactate metabolism can modulate intracellular calcium [Ca2+](i) in spermatogenic cells in an opposing and dynamic manner. Fluorescent probes were used to measure [Ca2+](i) and pH(i), and HPLC was used to measure intracellular adenine nucleotides and mitochondrial sensing of ATP turnover. [Ca2+](i) in pachytene spermatocytes and round spermatids was modulated by changes in lactate and glucose concentrations in the media. The kinetics and magnitude of the [Ca2+](i) changes induced by lactate and glucose were different in meiotic and post-meiotic spermatogenic cells. The presence of glucose in the medium induced a decrease in pH(i) in spermatogenic cells. This glucose-induced pH(i) decrease occurred later than the changes in [Ca2+](i), which were also observed when the pH(i) decrease was inhibited, indicating that the glucose-induced [Ca2+](i) increase was not a consequence of pH(i) changes. Hexose phosphorylation in glycolysis was part of the mechanism by which glucose metabolism induced a [Ca2+](i) increase in spermatogenic cells. The sensitivity of [Ca2+](i) to carbohydrate metabolism was higher in round spermatids than in pachytene spermatocytes. Thus, differentiation-related changes in carbohydrate metabolism in spermatogenic cells determine a dynamic and differential modulation of their [Ca2+](i) by glucose and lactate, two substrates secreted by the Sertoli cells.

Alteration of nuclear architecture in male germ cells of chromosomally derived subfertile mice

2001 ◽  
Vol 114 (24) ◽  
pp. 4429-4434
Author(s):  
Silvia Garagna ◽  
Maurizio Zuccotti ◽  
Alan Thornhill ◽  
Raul Fernandez-Donoso ◽  
Soledad Berrios ◽  
...  
Keyword(s):  
Sertoli Cells ◽  
Spatial Organization ◽  
Nuclear Architecture ◽  
Spatial Arrangement ◽  
Cell Types ◽  
Condensed State ◽  
Germ Cell Differentiation ◽  
Y Chromosomes ◽  
Dual Colour ◽  
Pachytene Spermatocytes

The mammalian cell nucleus consists of numerous compartments involved in the regular unfolding of processes such as DNA replication and transcription, RNA maturation, protein synthesis and cell division. Knowledge is increasing of the relationships between high-order levels of chromatin organization and its spatial organization, and of how these relationships contribute to the various functions carried out in the nucleus. We have studied the spatial arrangement of mouse telocentric chromosomes 5, 11, 13, 15, 16 and 17, some of their metacentric Robertsonian derivatives, and X and Y chromosomes by whole chromosome painting in male germ (spermatogonia, pachytene spermatocytes and spermatids) and Sertoli cells of homozygous and heterozygous individuals. Using dual-colour fluorescence in situ hybridization we found that these chromosomes occupy specific nuclear territories in each cell type analysed. When chromosomes are present as Robertsonian metacentrics in the heterozygous state, that is, as Robertsonian metacentrics and their homologous telocentrics, differences in their nuclear positions are detectable: heterozygosity regularly produces a change in the nuclear position of one of the two homologous telocentrics in all the cell types studied. In the Robertsonian heterozygotes, the vast majority of the Sertoli cells show the sex chromosomes in a condensed state, whereas they appear decondensed in the Robertsonian homozygotes. As the Robertsonian heterozygosities we studied produce a chromosomally derived impairment of male germ-cell differentiation, we discuss the possibility that changes in chromosome spatial territories may alter some nuclear machinery (e.g., synapsis, differential gene expression) important for the correct unfolding of the meiotic process and for the proper functioning of Sertoli cells.

Differential RA responsiveness among subsets of mouse late progenitor spermatogonia

Reproduction ◽  
2021 ◽  
Author(s):  
Shinnosuke Suzuki ◽  
John R. McCarrey ◽  
Brian P Hermann
Keyword(s):  
Stem Cells ◽  
Retinoic Acid ◽  
Single Cell ◽  
Adult Mouse ◽  
Retinoic Acid Receptor ◽  
Mouse Testis ◽  
Rna Seq ◽  
Reporter Expression ◽  
Acid Receptor ◽  
Whole Mount

Initiation of spermatogonial differentiation in the mouse testis begins with the response to retinoic acid (RA) characterized by activation of KIT and STRA8 expression. In the adult, spermatogonial differentiation is spatiotemporally coordinated by a pulse of RA every 8.6 days that is localized to stages VII-VIII of the seminiferous epithelial cycle. Dogmatically, progenitor spermatogonia that express retinoic acid receptor gamma (RARG) at these stages will differentiate in response to RA, but this has yet to be tested functionally. Previous single-cell RNA-seq data identified phenotypically and functionally distinct subsets of spermatogonial stem cells (SSCs) and progenitor spermatogonia, where late progenitor spermatogonia were defined by expression of RARG and Dppa3. Here, we found late progenitor spermatogonia (RARGhigh KIT-) were further divisible into two subpopulations based on Dppa3 reporter expression (Dppa3-ECFP or Dppa3-EGFP) and were observed across all stages of the seminiferous epithelial cycle. However, nearly all Dppa3+ spermatogonia were differentiating (KIT+) late in the seminiferous epithelial cycle (stages X-XII), while Dppa3- late progenitors remained abundant, suggesting that Dppa3+ and Dppa3- late progenitors differentially responded to RA. Following acute RA treatment (2-4hr), significantly more Dppa3+ late progenitors induced KIT, including at the midpoint of the cycle (stages VI-IX), than Dppa3- late progenitors. Subsequently, single-cell analyses indicated a subset of Dppa3+ late progenitors expressed higher levels of Rxra, which we confirmed by RXRA whole-mount immunostaining. Together, these results indicate RARG alone is insufficient to initiate a spermatogonial response to RA in the adult mouse testis and suggest differential RXRA expression may discriminate responding cells.

Biochemical and immunocytochemical analysis of a histone H1 variant from the mouse testis

1989 ◽  
Vol 94 (1) ◽  
pp. 61-71
Author(s):  
B.K. Rasheed ◽  
E.C. Whisenant ◽  
R.D. Ghai ◽  
V.E. Papaioannou ◽  
Y.M. Bhatnagar
Keyword(s):  
Leydig Cells ◽  
Random Distribution ◽  
Primary Spermatocyte ◽  
Cell Types ◽  
Mouse Testis ◽  
Seminiferous Tubules ◽  
Developmental Studies ◽  
Somatic Tissues ◽  
Early Primary

An H1 histone variant, H1a, has been isolated and purified from the mouse testis. Biochemical and amino acid analyses indicate its similarity with the rat testis H1a. Specific antibodies against the purified H1a have been generated in rabbits and used to study its tissue and species distribution using protein blotting procedures. We have also used the immunocytochemical technique to determine in situ distribution of H1a in spermatogenic cells and somatic tissues of the mouse. A non-random distribution of H1a has been noted in the nuclei of certain somatic cell types such as Sertoli cells, Leydig cells and neurons. By contrast, hepatocyte nuclei lacked detectable levels of H1a. In adult seminiferous tubules, the early primary spermatocyte nuclei displayed a greater level of immunoreactivity relative to other cell types. Developmental studies indicate its initial expression in the 7-day-old mouse testis concomitant with the appearance of intermediate and type B spermatogonia.

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