• Title/Summary/Keyword: Germ cell differentiation

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Supplementation of retinoic acid alone in MSC culture medium induced germ cell-like cell differentiation

  • Kuldeep Kumar;Kinsuk Das;Ajay Kumar;Purnima Singh;Madhusoodan A. P.;Triveni Dutt;Sadhan Bag
    • Journal of Animal Reproduction and Biotechnology
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    • v.38 no.2
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    • pp.54-61
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    • 2023
  • Background: Germ cells undergo towards male or female pathways to produce spermatozoa or oocyte respectively which is essential for sexual reproduction. Mesenchymal stem cells (MSCs) have the potential of trans-differentiation to the multiple cell lineages. Methods: Herein, rat MSCs were isolated from bone marrow and characterized by their morphological features, expression of MSC surface markers, and in vitro differentiation capability. Results: Thereafter, we induced these cells only by retinoic acid supplementation in MSC medium and, could able to show that bone marrow derived MSCs are capable to trans-differentiate into male germ cell-like cells in vitro. We characterized these cells by morphological changes, the expressions of germ cell specific markers by immunophenotyping and molecular biology tools. Further, we quantified these differentiated cells. Conclusions: This study suggests that only Retinoic acid in culture medium could induce bone marrow MSCs to differentiate germ cell-like cells in vitro. This basic method of germ cell generation might be helpful in the prospective applications of this technology.

Expression of Cyclin D3 Transcripts in the Postmeiotic Male Germ Cells of the Mouse

  • Sun, Woong-Sun;Geum, Dong-Ho;Choi, Wan-Sung;Kim Kwon, Yun-Hee;Rhee, Kun-Soo;Kim, Kyung-Jin
    • Animal cells and systems
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    • v.2 no.4
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    • pp.495-500
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    • 1998
  • D-type G1 cyclins are known to be crucial for the progression of mitotic cell cycle in mammals. Although many studies have been performed to elucidate the roles of D-type cyclins, it is largely unknown whether D-type cyclins are directly involved in the regulation of meiotic germ cell development. In the present study, we examined the expression patterns of D-type cyclins (cyclin D1 and D3) during male germ cell development by northern blot and in situ Hybridization analyses. In the adult testes, we detected a 4.2 kb cyclin D1 mRNA and two different sizes (2.3 kb and 1.8 kb) of cyclinD3 mRNAs. The short form of the cyclin D3 transcript was testis-specific. Along with the testicular development, expression of cyclin D3 mRNA was increased whereas cyclin D1 mRNA was gradually decreased. in situ hybridization study also revealed that the expression of cyclin D3 was restricted to the postmeiotic germ cells. Furthermore, the 2.3 kb transcript was highly expressed in the round spermatids and decreased in the elongated spermatids/residual bodies, while the 1.8 kb transcript was expressed in elongated spermatids/residual bodies more abundantly. Sucrose-gradient separation of polysomal RNA fractions demonstrated that some portions of the 2.3 kb transcript are translationally active, while the 1.8 kb transcript is likely to be inactive. Taken together, the present data suggest a functional importance of cyclin D3 expression in the differentiated postmeiotic male germ cells.

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Differentiation of human male germ cells from Wharton's jelly-derived mesenchymal stem cells

  • Dissanayake, DMAB;Patel, H;Wijesinghe, PS
    • Clinical and Experimental Reproductive Medicine
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    • v.45 no.2
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    • pp.75-81
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    • 2018
  • Objective: Recapitulation of the spermatogenesis process in vitro is a tool for studying the biology of germ cells, and may lead to promising therapeutic strategies in the future. In this study, we attempted to transdifferentiate Wharton's jelly-derived mesenchymal stem cells (WJ-MSCs) into male germ cells using all-trans retinoic acid and Sertoli cell-conditioned medium. Methods: Human WJ-MSCs were propagated by the explant culture method, and cells at the second passage were induced with differentiation medium containing all-trans retinoic acid for 2 weeks. Putative germ cells were cultured with Sertoli cell-conditioned medium at $36^{\circ}C$ for 3 more weeks. Results: The gene expression profile was consistent with the stage-specific development of germ cells. The expression of Oct4 and Plzf (early germ cell markers) was diminished, while Stra8 (a premeiotic marker), Scp3 (a meiotic marker), and Acr and Prm1 (postmeiotic markers) were upregulated during the induction period. In morphological studies, approximately 5% of the cells were secondary spermatocytes that had completed two stages of acrosome formation (the Golgi phase and the cap phase). A few spermatid-like cells that had undergone the initial stage of tail formation were also noted. Conclusion: Human WJ-MSCs can be transdifferentiated into more advanced stages of germ cells by a simple two-step induction protocol using retinoic acid and Sertoli cell-conditioned medium.

Transgenesis and Nuclear Transfer Using Porcine Embryonic Germ Cells

  • Ahn, Kwang-Sung;Yoon, Ji-Young;Yang, Hong-Seok;Hosup Shim
    • Proceedings of the KSAR Conference
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    • 2004.06a
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    • pp.192-192
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    • 2004
  • Embryonic germ (EG) cells are undifferentiated stem cells isolated from cultured primodial germ cells (PGC). These cells share many characteristics with embryonic stem cells including their morphology and pluripotency. Undifferentiated porcine EG cell lines demonstrating capacities of both in vitro and in vivo differentiation have been established. (omitted)

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Comparative Analysis for In Vitro Differentiation Potential of Induced Pluripotent Stem Cells, Embryonic Stem Cells, and Multipotent Spermatogonial Stem Cells into Germ-lineage Cells

  • Go, Young-Eun;Kim, Hyung-Joon;Jo, Jung-Hyun;Lee, Hyun-Ju;Do, Jeong-Tae;Ko, Jung-Jae;Lee, Dong-Ryul
    • Development and Reproduction
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    • v.15 no.1
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    • pp.41-52
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    • 2011
  • In the present study, embryoid bodies (EBs) obtained from induced pluripotent stem cells (iPSCs) were induced to differentiate into germ lineage cells by treatment with bone morphogenetic protein 4 (BMP4) and retinoic acid (RA). The results were compared to the results for embryonic stem cells (ESCs) and multipotent spermatogonial stem cells (mSSCs) and quantified using immunocytochemical analysis of germ cell-specific markers (integrin-${\alpha}6$, GFR-${\alpha}1$, CD90/Thy1), fluorescence activating cell sorting (FACS), and real time-RT-PCR. We show that the highest levels of germ cell marker-expressing cells were obtained from groups treated with 10 ng/$m{\ell}$ BMP4 or 0.01 ${\mu}M$ RA. In the BMP4-treated group, GFR-${\alpha}1$ and CD90/Thy-1 were highly expressed in the EBs of iPSCs and ESCs compared to EBs of mSSCs. The expression of Nanog was much lower in iPSCs compared to ESCs and mSSCs. In the RA treated group, the level of GFR-${\alpha}1$ and CD90/Thy-1 expression in the EBs of mSSCs Induced pluripotent stem cells, Mouse embryonic stem cells, Multipotent spermatogonial stem cells, Germ cell lineage, Differentiation potential. was much higher than the levels found in the EBs of iPSCs and similar to the levels found in the EBs of ESCs. FACS analysis using integrin-${\alpha}6$, GFR-${\alpha}1$, CD90/Thy1 and immunocytochemistry using GFR-${\alpha}1$ antibody showed similar gene expression results. Therefore our results show that iPSC has the potential to differentiate into germ cells and suggest that a protocol optimizing germ cell induction from iPSC should be developed because of their potential usefulness in clinical applications requiring patient-specific cells.

Establishment of Mouse Pluripotent Stem Cells Generated from Primordial Germ Cells

  • Shim, Sang-Woo;Song, Sang-Jin;Hosup Shim;Lee, Bo-Yon;Huh, Choo-Yup;Hyuk Song;Chung, Kil-Saeng;Lee, Hoon-Taek
    • Proceedings of the KSAR Conference
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    • 2004.06a
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    • pp.276-276
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    • 2004
  • Pluripotent stem cells have been generated from two embryonic sources. ES cells are generated from ICM of blastocyst stage embryos, and embryonic germ (EG) cells are generated from primordial germ cells (PGCs). Both ES and EG cells are pluripotent and present important characteristics such as high levels of alkaline phosphatase (AP) activity, multi-cellular colony formation, normal and stable karyotypes, continuously passaging ability, and the capability of differentiation into all three embryonic germ layers. (omitted)

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The capabilities of migration and differentiation of female primordial germ cells after transferring to male embryos

  • Lee, Young-Mok;Kim, Mi-Ah;Shin, Sang-Su;Park, Tas-Sub;Park, Hyun-Jeong;Han, Jae-Yong
    • Proceedings of the Korea Society of Poultry Science Conference
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    • 2001.11a
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    • pp.74-76
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    • 2001
  • Comparing to mammals, male bird has the homozygote ZZ and female has the heterozygote n. Therefore, the sex of fertilized eggs is defined by female chromosome constitution. Although this cytological observation had been established, the molecular and cellular mechanism of germ cell differentiation are essentially unknown in aves. Especially, the differentiation of germ cells in mixed-sex chimeras has not yet been clearly elucidated. Primordial germ cells, which are the progenitors of sperm or egg after sexual maturity, firstly arise in the epiblast and migrate to embryonic gonads through the blood vessel. During the embryo development, these PGCs differentiate in the pathway of mate or female, respectively and develop the sperm or egg cells after sexual maturity. In this paper, we confirmed that the female PGCs could migrate into the recipient male gonads after transferring and differentiate into germ cells in the embryonic stages. The primordial germ cells were isolated from the female embryonic gonads of 5.5-day-old incubation and re-injected into the male recipient embryos of 2-day-old incubation, which produced mixed-sex chimera in the germline. The finding in this study demonstrated the ability of migration and differentiation of gonadal primordial germ cells in mixed-sex chicken.

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Ultrastructural Study on the Differentiation of the Rat Testis (흰쥐 정소(精巢)의 분화(分化)에 관한 미세구조적(微細構造的) 연구(硏究))

  • Deung, Young-Kun;Kim, Wan-Jong;Chung, In-Duk
    • Applied Microscopy
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    • v.16 no.2
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    • pp.75-91
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    • 1986
  • Differentiation of the rat testis was studied by light and electron microscope from the fetal stage up to the newborn or adult stage. The purpose of the present study is to investigate the ultrastructural changes of seminiferous tubules and interstitial tissue during the developmental process. The results were as follows: the seminiferous tubule diameter began to increase from birth and was fully developed at 30 to 40 days of age through intratubular cell proliferations. Basement membrane and myoid cells lining the seminiferous tubules were differentiated at 17 days gestation. At the fetal stage, seminiferous tubules were primarily composed of Sertoli cells and the differentiation of Sertoli and germ cells progressed from the newborn stage. Spermatids and immature spermatozoa are appeared at 40 days of age, so from this time, spermatogenesis occurred actively until the adult stage. Sertoli cells aided germ cell differentiation and phagocytosed the parts of the spermatid cytoplasm. Leydig ce]] development follows a biphasic pattern: a fetal phase and then an adult phase from 20 days of age. In conclusion, the rat testis is already developed to some extent by the fetal stage and is functional after 50 days of age. Therefore, these findings indicate that differentiation of Sertoli and Leydig cells precedes the onset of spermatogenesis.

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Artificial gametes from stem cells

  • Moreno, Inmaculada;Miguez-Forjan, Jose Manuel;Simon, Carlos
    • Clinical and Experimental Reproductive Medicine
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    • v.42 no.2
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    • pp.33-44
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    • 2015
  • The generation of artificial gametes is a real challenge for the scientific community today. In vitro development of human eggs and sperm will pave the way for the understanding of the complex process of human gametogenesis and will provide with human gametes for the study of infertility and the onset of some inherited disorders. However, the great promise of artificial gametes resides in their future application on reproductive treatments for all these people wishing to have genetically related children and for which gamete donation is now their unique option of parenthood. This is the case of infertile patients devoid of suitable gametes, same sex couples, singles and those fertile couples in a high risk of transmitting serious diseases to their progeny. In the search of the best method to obtain artificial gametes, many researchers have successfully obtained human germ cell-like cells from stem cells at different stages of differentiation. In the near future, this field will evolve to new methods providing not only viable but also functional and safe artificial germ cells. These artificial sperm and eggs should be able to recapitulate all the genetic and epigenetic processes needed for the correct gametogenesis, fertilization and embryogenesis leading to the birth of a healthy and fertile newborn.