A study of meiosis in chimeric mouse fetal gonads

Development ◽  
1990 ◽  
Vol 109 (1) ◽  
pp. 37-40
Author(s):  
S. Dolci ◽  
M. De Felici
Keyword(s):  
Germ Cells ◽  
Mouse Embryos ◽  
Chimeric Mouse ◽  
Male Germ Cells ◽  
Meiotic Progression ◽  
Opposite Sex ◽  
A Cell ◽  
Fetal Ovary ◽  
Host Tissues

The influence of somatic environment on the onset and progression of meiosis in fetal germ cells was studied in chimeric gonads produced in vitro by dissociation-reaggregation experiments. Germ cells isolated from testes or ovaries of 11.5-13.5 days post coitum (dpc) CD-1 mouse embryos were loaded with the fluorescent supravital dye 5–6 carboxyfluorescein diacetate succinimyl ester (CFSE) and mixed with a cell suspension obtained by trypsin-EDTA treatment of gonads of various ages and of the same or opposite sex. Whereas 11.5 dpc donor germ cells appeared unable to survive in the chimeric gonads obtained, about 76% of the CFSE-labeled female germ cells obtained from 12.5 dpc donor embryos (premeiotic germ cells) found viable within host ovarian tissues showed a meiotic nucleus. In contrast, a smaller number (about 19%) were in meiosis in chimeric testes. None or very few of donor male germ cells entered meiosis in testes or ovarian host tissues. Aggregation of meiotic 13.5 dpc female germ cells with testis tissues from 13.5 to 14.5 dpc embryos resulted in inhibition of meiotic progression and pyknosis in most donor germ cells. These results support the existence of a meiosis-preventing substance or a factor causing oocyte degeneration in the fetal mouse testis, but not of a meiosis-inducing substance in the fetal ovary.

scholarly journals O-062. In-vitro maturation of human male germ cells: a new treatment for maturation arrest at the primary spermatocyte stage

1999 ◽  
Vol 14 (Suppl_3) ◽  
pp. 33-34
Author(s):  
J. Tesarik ◽  
C. Mendoza ◽  
M. Bahceci ◽  
C. Özcan ◽  
E. Greco ◽  
...  
Keyword(s):  
Germ Cells ◽  
In Vitro Maturation ◽  
Primary Spermatocyte ◽  
Male Germ Cells ◽  
Maturation Arrest ◽  
Human Male ◽  
New Treatment

scholarly journals Localization of primordial germ cells or their precursors in stage X blastoderm of chickens and their ability to differentiate into functional gametes in opposite-sex recipient gonads

Reproduction ◽  
2001 ◽  
pp. 547-552 ◽  
Author(s):  
M Naito ◽  
A Sano ◽  
Y Matsubara ◽  
T Harumi ◽  
T Tagami ◽  
...  
Keyword(s):  
Germ Cells ◽  
Marginal Zone ◽  
Primordial Germ Cells ◽  
Donor Cell ◽  
Same Sex ◽  
White Leghorn Chicken ◽  
Central Disc ◽  
Opposite Sex ◽  
A Cell ◽  
Blastodermal Cells

This study was performed to determine the distribution of primordial germ cells and their precursors in stage X blastoderm of chickens. The blastoderm (Barred Plymouth Rock chickens) isolated from the yolk was separated into three portions: the central disc, the marginal zone and the area opaca. The dissociated blastodermal cells derived from the central disc, marginal zone and area opaca were transferred into a recipient blastoderm (White Leghorn chicken) from which a cell cluster was removed from the centre of the central disc. The manipulated embryos were cultured in host eggshells until hatching. The chicks were raised until sexual maturity and test mated with Barred Plymouth Rock chickens to assess the donor cell contribution to the recipient germline. Germline chimaeric chickens were produced efficiently (46.7%, 7/15) when the blastodermal cells derived from the central disc were transferred into recipient embryos of the same sex, whereas no germline chimaeric chickens were produced when the blastodermal cells derived from the marginal zone or area opaca were transferred into recipient embryos of the same sex (0/12). Germline chimaeric chickens were also produced by transfer of blastodermal cells derived from the central disc (6.7%, 1/15), marginal zone (10.0%, 1/10) or area opaca (11.1%, 1/9) into recipient embryos of the opposite sex. It is concluded that primordial germ cells are induced during or shortly after stage X and that the cells derived from the central disc have the highest potential to give rise to germ cells. Cells derived from the marginal zone and area opaca can also give rise to germ cells, although the frequency is low.

scholarly journals Expression of Arf Tumor Suppressor in Spermatogonia Facilitates Meiotic Progression in Male Germ Cells

PLoS Genetics ◽  
2011 ◽  
Vol 7 (7) ◽  
pp. e1002157 ◽  
Author(s):  
Michelle L. Churchman ◽  
Ignasi Roig ◽  
Maria Jasin ◽  
Scott Keeney ◽  
Charles J. Sherr
Keyword(s):  
Tumor Suppressor ◽  
Germ Cells ◽  
Male Germ Cells ◽  
Meiotic Progression

scholarly journals Generation of male germ cells from induced pluripotent stem cells (iPS cells): an in vitro and in vivo study

2012 ◽  
Vol 14 (4) ◽  
pp. 574-579 ◽  
Author(s):  
Yong Zhu ◽  
Hong-Liang Hu ◽  
Peng Li ◽  
Shi Yang ◽  
Wei Zhang ◽  
...  
Keyword(s):  
Stem Cells ◽  
Induced Pluripotent Stem Cells ◽  
Germ Cells ◽  
Pluripotent Stem Cells ◽  
Ips Cells ◽  
In Vivo Study ◽  
Male Germ Cells ◽  
Induced Pluripotent

scholarly journals Rho family GTPase Rnd2 interacts and co-localizes with MgcRacGAP in male germ cells

2003 ◽  
Vol 372 (1) ◽  
pp. 105-112 ◽  
Author(s):  
Nathalie NAUD ◽  
Aminata TOURÉ ◽  
Jianfeng LIU ◽  
Charles PINEAU ◽  
Laurence MORIN ◽  
...  
Keyword(s):  
Germ Cells ◽  
In Vitro Model ◽  
Cell Types ◽  
Glutathione S Transferase ◽  
Rac Gtpase ◽  
Male Germ Cells ◽  
Rho Family ◽  
Vitro Model ◽  
Null Mutant Mice

The male-germ-cell Rac GTPase-activating protein gene (MgcRacGAP) was initially described as a human RhoGAP gene highly expressed in male germ cells at spermatocyte stage, but exhibits significant levels of expression in most cell types. In somatic cells, MgcRacGAP protein was found to both concentrate in the midzone/midbody and be required for cytokinesis. As a RhoGAP, MgcRacGAP has been proposed to down-regulate RhoA, which is localized to the cleavage furrow and midbody during cytokinesis. Due to embryonic lethality in MgcRacGAP-null mutant mice and to the lack of an in vitro model of spermatogenesis, nothing is known regarding the role and mode of action of MgcRacGAP in male germ cells. We have analysed the expression, subcellular localization and molecular interactions of MgcRacGAP in male germ cells. Whereas MgcRacGAP was found only in spermatocytes and early spermatids, the widespread RhoGTPases RhoA, Rac1 and Cdc42 (which are, to various extents, in vitro substrates for MgcRacGAP activity) were, surprisingly, not detected at these stages. In contrast, Rnd2, a Rho family GTPase-deficient G-protein was found to be co-expressed with MgcRacGAP in spermatocytes and spermatids. MgcRacGAP was detected in the midzone of meiotic cells, but also, unexpectedly, in the Golgi-derived pro-acrosomal vesicle, co-localizing with Rnd2. In addition, a stable Rnd2–MgcRacGAP molecular complex could be evidenced by glutathione S-transferase pull-down and co-immunoprecipitation experiments. We conclude that Rnd2 is a probable physiological partner of MgcRacGAP in male germ cells and we propose that MgcRacGAP, and, quite possibly, other RhoGAPs, may participate in signalling pathways involving Rnd family proteins.

scholarly journals Identification of regulatory elements required for Stra8 expression, in fetal ovarian germ cells of the mouse

Development ◽  
2021 ◽  
pp. dev.194977
Author(s):  
Chun-Wei Feng ◽  
Guillaume Burnet ◽  
Cassy M. Spiller ◽  
Fiona Ka Man Cheung ◽  
Kallayanee Chawengsaksophak ◽  
...  
Keyword(s):  
Retinoic Acid ◽  
Germ Cells ◽  
Regulatory Element ◽  
Regulatory Elements ◽  
Egfp Expression ◽  
Spatiotemporal Regulation ◽  
Targeted Mutation ◽  
Fetal Ovary

In mice, the entry of germ cells into meiosis critically depends on the expression of stimulated by retinoic acid gene 8 (Stra8). Stra8 is expressed specifically in pre-meiotic germ cells of females and males, at fetal and postnatal stages respectively, but the mechanistic details of its spatiotemporal regulation are yet to be defined. In particular, there has been considerable debate regarding whether retinoic acid is required, in vivo, to initiate Stra8 expression in the mouse fetal ovary. We show that the distinctive anterior-to-posterior pattern of Stra8 initiation, characteristic of germ cells in the fetal ovary, is faithfully recapitulated when 2.9 kb of the Stra8 promoter is used to drive eGFP expression. Using in vitro transfection assays of cut-down and mutant constructs we identified two functional retinoic acid responsive elements (RAREs) within this 2.9 kb regulatory element. We also show that the transcription factor DMRT1 enhances Stra8 expression, but only in the presence of RA and the most proximal RARE. Finally, we used CRISPR/Cas9-mediated targeted mutation studies to demonstrate that both RAREs are required for optimal Stra8 expression levels, in vivo.

scholarly journals Partial Sperm beta1 Integrin Subunit Deletion Proves Its Involvement in Mouse Gamete Adhesion/Fusion

2020 ◽  
Vol 21 (22) ◽  
pp. 8494
Author(s):  
Virginie Barraud-Lange ◽  
Côme Ialy-Radio ◽  
Céline Chalas ◽  
Isabelle Holtzmann ◽  
Jean-Philippe Wolf ◽  
...  
Keyword(s):  
Western Blot ◽  
Germ Cells ◽  
Blot Analysis ◽  
Integrin Subunit ◽  
Perivitelline Space ◽  
Male Germ Cells ◽  
Beta1 Integrin ◽  
First Time

We have previously shown, using antibodies, that the sperm alpha6beta1 integrin is involved in mouse gamete fusion in vitro. Here we report the conditional knockdown of the sperm Itgb1 gene. It induced a drastic failure of sperm fusogenic ability with sperm accumulation in the perivitelline space of in vitro inseminated oocytes deleted or not for the Itgb1 gene. These data demonstrate that sperm, but not oocyte, beta1 integrin subunit is involved in gamete adhesion/fusion. Curiously, knockdown males were fertile in vivo probably because of the incomplete Cre-mediated deletion of the sperm Itgb1 floxed gene. Indeed, this was shown by Western blot analysis and confirmed by both the viability and litter size of pups obtained by mating partially sperm Itgb1 deleted males with females producing completely deleted Itgb1 oocytes. Because of the total peri-implantation lethality of Itgb1 deletion in mice, we assume that sperm that escaped the Itgb1 excision seemed to be preferentially used to fertilize in vivo. Here, we showed for the first time that the deletion, even partial, of the sperm Itgb1 gene makes the sperm unable to normally fertilize oocytes. However, to elucidate the question of the essentiality of its role during fertilization, further investigations using a mouse expressing a recombinase more effective in male germ cells are necessary.

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