Ring-opening metathesis polymerization of dicyclopentadiene and tricyclopentadiene

Spermatogenesis is a complex process that originates in a small population of spermatogonial stem cells. Here we report the in vitro culture of spermatogonial stem cells that proliferate for long periods of time. In the presence of glial cell line-derived neurotrophic factor, epidermal growth factor, basic fibroblast growth factor, and leukemia inhibitory factor, gonocytes isolated from neonatal mouse testis proliferated over a 5-month period (>10(14)-fold) and restored fertility to congenitally infertile recipient mice following transplantation into seminiferous tubules. Long-term spermatogonial stem cell culture will be useful for studying spermatogenesis mechanism and has important implications for developing new technology in transgenesis or medicine.

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Generation of Pluripotent Stem Cells from Neonatal Mouse Testis

Kanatsu-Shinohara

Inoue

Lee

et al. 2004

Cell

742

683

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Although germline cells can form multipotential embryonic stem (ES)/embryonic germ (EG) cells, these cells can be derived only from embryonic tissues, and such multipotent cells have not been available from neonatal gonads. Here we report the successful establishment of ES-like cells from neonatal mouse testis. These ES-like cells were phenotypically similar to ES/EG cells except in their genomic imprinting pattern. They differentiated into various types of somatic cells in vitro under conditions used to induce the differentiation of ES cells and produced teratomas after inoculation into mice. Furthermore, these ES-like cells formed germline chimeras when injected into blastocysts. Thus, the capacity to form multipotent cells persists in neonatal testis. The ability to derive multipotential stem cells from the neonatal testis has important implications for germ cell biology and opens the possibility of using these cells for biotechnology and medicine.

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Structure and Chromosomal Localization of the Human Stromal Cell-Derived Factor 1 (SDF1) Gene

Shirozu

Nakano²,

Inazawa³

et al. 1995

Genomics

556

427

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β₁- and α₆-integrin are surface markers on mouse spermatogonial stem cells

Shinohara

Avarbock²,

Brinster³

1999

Proc. Natl. Acad. Sci. U.S.A.

522

419

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Although spermatogenesis is essential for reproduction, little is known about spermatogonial stem cells. These cells provide the basis for spermatogenesis throughout adult life by undergoing self-renewal and by providing progeny that differentiate into spermatozoa. A major impediment to our understanding of the biology of these stem cells is the inability to distinguish them from spermatogonia that are committed to differentiation. We made use of the known association of stem cells with basement membranes and our spermatogonial transplantation assay system to identify specific molecular markers on the stem cell surface. Selection of mouse testis cells with anti-␤ 1 -or anti-␣ 6 -integrin antibody, but not anti-c-kit antibody, produced cell populations with a significantly enhanced ability to colonize recipient testes and generate donor cell-derived spermatogenesis. We demonstrate spermatogonial stem cell-associated antigens by using an assay system based on biological function. Furthermore, the presence of surface integrins on spermatogonial stem cells suggests that these cells share elements of a common molecular machinery with stem cells in other tissues.

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Spermatogonial stem cell enrichment by multiparameter selection of mouse testis cells

Shinohara

Orwig²,

Avarbock³

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

358

271

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The spermatogonial stem cell initiates and maintains spermatogenesis in the testis. To perform this role, the stem cell must self replicate as well as produce daughter cells that can expand and differentiate to form spermatozoa. Despite the central importance of the spermatogonial stem cell to male reproduction, little is known about its morphological or biochemical characteristics. This results, in part, from the fact that spermatogonial stem cells are an extremely rare cell population in the testis, and techniques for their enrichment are just beginning to be established. In this investigation, we used a multiparameter selection strategy, combining the in vivo cryptorchid testis model with in vitro fluorescence-activated cell sorting analysis. Cryptorchid testis cells were fractionated by fluorescence-activated cell sorting analysis based on light-scattering properties and expression of the cell surface molecules ␣6-integrin, ␣v-integrin, and the c-kit receptor. Two important observations emerged from these analyses. First, spermatogonial stem cells from the adult cryptorchid testis express little or no c-kit. Second, the most effective enrichment strategy, in this study, selected cells with low side scatter light-scattering properties, positive staining for ␣6-integrin, and negative or low ␣v-integrin expression, and resulted in a 166-fold enrichment of spermatogonial stem cells. Identification of these characteristics will allow further purification of these valuable cells and facilitate the investigation of molecular mechanisms governing spermatogonial stem cell self renewal and hierarchical differentiation.

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Takashi Shinohara

Long-Term Proliferation in Culture and Germline Transmission of Mouse Male Germline Stem Cells1

Generation of Pluripotent Stem Cells from Neonatal Mouse Testis

Structure and Chromosomal Localization of the Human Stromal Cell-Derived Factor 1 (SDF1) Gene

β₁- and α₆-integrin are surface markers on mouse spermatogonial stem cells

Spermatogonial stem cell enrichment by multiparameter selection of mouse testis cells

Contact Info

Product

Resources

About

Takashi Shinohara

Long-Term Proliferation in Culture and Germline Transmission of Mouse Male Germline Stem Cells1

Generation of Pluripotent Stem Cells from Neonatal Mouse Testis

Structure and Chromosomal Localization of the Human Stromal Cell-Derived Factor 1 (SDF1) Gene

β1- and α6-integrin are surface markers on mouse spermatogonial stem cells

Spermatogonial stem cell enrichment by multiparameter selection of mouse testis cells

Contact Info

Product

Resources

About

β₁- and α₆-integrin are surface markers on mouse spermatogonial stem cells