Bang‐Jin Kim scite author profile

Development of techniques to isolate, culture, and transplant human spermatogonial stem cells (SSCs) has the future potential to treat male infertility. To maximize the efficiency of these techniques, methods for SSC cryopreservation need to be developed to bank SSCs for extended periods of time. Although, it has been demonstrated that SSCs can reinitiate spermatogenesis after freezing, optimal cryopreservation protocols that maximize SSC proliferative capacity post-thaw have not been identified. The objective of this study was to develop an efficient cryopreservation technique for preservation of SSCs. To identify efficient cryopreservation methods for long-term preservation of SSCs, isolated testis cells enriched for SSCs were placed in medium containing dimethyl sulfoxide (DMSO) or DMSO and trehalose (50 mM, 100 mM, or 200 mM), and frozen in liquid nitrogen for 1 week, 1 month, or 3 months. Freezing in 50 mM trehalose resulted in significantly higher cell viability compared to DMSO at all thawing times and a higher proliferation rate compared to DMSO for the 1 week freezing period. Freezing in 200 mM trehalose did not result in increased cell viability; however, proliferation activity was significantly higher and percentage of apoptotic cells was significantly lower compared to DMSO after freezing for 1 and 3 months. To confirm the functionality of SSCs frozen in 200 mM trehalose, SSC transplantation was performed. Donor SSCs formed spermatogenic colonies and sperm capable of generating normal progeny. Collectively, these results indicate that freezing in DMSO with 200 mM trehalose serves as an efficient method for the cryopreservation of SSCs.

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Oncogenic KRAS and p53 Loss Drive Gastric Tumorigenesis in Mice That Can Be Attenuated by E-Cadherin Expression

Till

Yoon

Kim

et al. 2017

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Gastric adenocarcinoma (GA) is the third leading cause of cancer-related death worldwide, but no models exist to readily investigate distant metastases which are mainly responsible for mortality in this disease. Here we report the development of a genetically engineered mouse model of GA tumorigenesis based on KrasG12D expression plus inactivation of E-cadherin (Cdh1) and p53 in the gastric parietal cell lineage. Intestinal and diffuse gastric tumors arise rapidly in this model, which displays a median survival of 76 days. Tumors occur throughout the stomach with metastases documented in lymph nodes, lung and liver. Mice otherwise identical but retaining one wild-type Cdh1 allele exhibited longer survival with only 20% penetrance of invasive tumors and no apparent lung or liver metastases. Notably, increased RAS activity and downstream MAPK signaling was observed in stomachs only when E-cadherin was absent. This model offers a valuable tool to investigate GA subtypes where RAS/MAPK pathway activation and E-cadherin attenuation are common.

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Effect of Antioxidants and Apoptosis Inhibitors on Cryopreservation of Murine Germ Cells Enriched for Spermatogonial Stem Cells

Kim

Lee

et al. 2016

PLoS ONE

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Spermatogonial stem cells (SSCs) are germline stem cells that serve as the foundation of spermatogenesis to maintain fertility throughout a male’s lifetime. To treat male infertility using stem cell banking systems and transplantation, it is important to be able to preserve SSCs for long periods of time. Therefore, this study was conducted to develop an optimal cryopreservation protocol for SSCs using antioxidants and apoptosis inhibitors in freezing medium. No differences were observed compared to controls when SSCs were cryopreserved in the presence of apoptosis inhibitors by themselves. However, mouse germ cells cryopreserved in basal medium containing the antioxidant hypotaurine (14 mM) resulted in significantly greater proliferation potential and mitochondrial activity. Furthermore, treatment groups with combinations containing 200 mM trehalose and 14 mM hypotaurine showed higher proliferation rates compared to controls. In addition, several serum free conditions were evaluated for SSC cryopreservation. Treatment media containing 10% or 20% knockout serum replacement resulted in similar cryopreservation results compared to media containing FBS. SSC transplantation was also performed to confirm the functionality of SSCs frozen in 14 mM hypotaurine. Donor SSCs formed normal spermatogenic colonies and sperm in the recipient testis. These data indicate that inclusion of 14 mM hypotaurine in cryopreservation media is an effective way to efficiently cryopreserve germ cells enriched for SSCs and that knockout serum replacement can replace FBS in germ cell cryopreservation media.

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Effect of sugar molecules on the cryopreservation of mouse spermatogonial stem cells

Lee

Kim

et al. 2014

Fertility and Sterility

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Cryopreservation of Mouse Spermatogonial Stem Cells in Dimethylsulfoxide and Polyethylene Glycol1

Lee

Kim

et al. 2013

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Assisted reproductive techniques involving isolation, culture, and transplantation of spermatogonial stem cells (SSCs) have the potential to create transgenic livestock and to treat male infertility caused by cancer treatments such as chemotherapy or radiation. Because stem cells may need to be preserved for several years before reintroduction to the patients' testes, efficient SSC cryopreservation techniques need to be developed. SSCs can reinitiate spermatogenesis in recipient testes after freezing; however, optimal cryopreservation protocols have not been identified. The objective of this study was to develop an efficient cryopreservation method for SSCs using permeable cryoprotectant agents (PCAs) or additive cryoprotectant agents (ACAs). To identify an efficient cryopreservation method, populations of mouse testis cells enriched for SSCs were cultured in vitro and frozen using conventional freezing media containing various PCAs or ACAs for 1 wk or 1, 3, 6, 12, or 24 mo. Additionally, various molecular weights and concentrations of polyethylene glycol (PEG) were evaluated. Recovery rate, culture potential, and stem cell activity were significantly greater for cells frozen in 2.5% PEG with a molecular weight of 1000 compared to other treatment groups. These cells also retained the ability to colonize recipient testes, generate normal spermatogenesis, and contribute to viable offspring. The systematic analysis of many cryoprotectant agents indicates that 2.5% PEG (molecular weight 1000) is the most effective agent for efficient SSC cryopreservation.

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Enrichment of Testicular Gonocytes and Genetic Modification Using Lentiviral Transduction in Pigs1

Kim¹,

Cho²,

Lee³

et al. 2010

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Gonocytes are long-lived primary germ cells that reside in the center of seminiferous cords until differentiation into spermatogonia that drive spermatogenesis. In pigs, gonocytes have research value in the production of transgenic offspring through germline modification and transplantation. However, the rarity of pig gonocytes has raised the need for an efficient isolation method. Therefore, in this study we use components of extracellular matrix, laminin, fibronectin, and collagen type IV and their derivative, gelatin, to establish a negative selection system for functionally viable gonocytes in neonatal pig. We then demonstrate functional analysis with genetic modification using lentiviral transduction and successfully transplant the donor gonocytes, which colonized the seminiferous tubules of the recipient mouse. The most effective selection method was established by sequential use of laminin and gelatin, in which the purity of gonocytes was 80% and the recovery rate of gonocytes was 78%. The selected gonocytes were labeled with fluorescent dye PKH26 and transplanted into busulfan-treated immunodeficient mouse testes. The fluorescent gonocytes colonized the recipient testes, and the resultant germ cell colonies were visible up to 4 mo after transplantation. When gonocytes were transplanted after transduction with an enhanced green fluorescent protein marker gene using lentiviral vectors, the transduced germ cell colonies were visible up to 6 mo and displayed an estimated transduction efficiency of 11.1%. These results can be applied and extended to isolate and enrich gonocytes of other species for in vitro and in vivo studies and to assist in genetic modification of male germline stem cells of livestock species.

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Production of transgenic spermatozoa by lentiviral transduction and transplantation of porcine spermatogonial stem cells

Kim

Lee

et al. 2014

Tissue Eng Regen Med

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Enrichment and In Vitro Culture of Spermatogonial Stem Cells from Pre-Pubertal Monkey Testes

Kim

Kang

Kim

et al. 2017

Tissue Eng Regen Med

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Spermatogonial stem cells (SSCs) are essential for spermatogenesis throughout the lifespan of the male. However, the rarity of SSCs has raised the need for an efficient selection method, but little is known about culture conditions that stimulate monkey SSC proliferation in vitro. In this study, we report the development of effective enrichment techniques and in vitro culturing of germ cells from pre-pubertal monkey testes. Testis cells were analyzed by fluorescence-activated cell sorting techniques and were transplanted into the testes of nude mice to characterize SSCs. Thy-1-positive cells showed a higher number of colonies than the unselected control after xenotransplantation. Extensive colonization of monkey cells in the mouse testes indicated the presence of highly enriched populations of SSCs in the Thy-1-positive sorted cells. Furthermore, monkey testis cells were enriched by differential plating using extracellular matrix, laminin, and gelatin, and then cultured under various conditions. Isolation of monkey testicular germ cells by differential plating increased germ cell purity by 2.7-fold, following the combinational isolation method using gelatin and laminin. These enriched germ cells actively proliferated under culture conditions involving StemPro medium supplemented with bFGF, GDNF, LIF, and EGF at 37°C. These results suggest that the enrichment and in vitro culture method proposed in the present study for harvesting a large number of functionally active monkey SSCs can be applied as the basis for efficient in vitro expansion of human SSCs.

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Bang‐Jin Kim

Cryopreservation in Trehalose Preserves Functional Capacity of Murine Spermatogonial Stem Cells

Oncogenic KRAS and p53 Loss Drive Gastric Tumorigenesis in Mice That Can Be Attenuated by E-Cadherin Expression

Effect of Antioxidants and Apoptosis Inhibitors on Cryopreservation of Murine Germ Cells Enriched for Spermatogonial Stem Cells

Effect of sugar molecules on the cryopreservation of mouse spermatogonial stem cells

Cryopreservation of Mouse Spermatogonial Stem Cells in Dimethylsulfoxide and Polyethylene Glycol1

Enrichment of Testicular Gonocytes and Genetic Modification Using Lentiviral Transduction in Pigs1

Production of transgenic spermatozoa by lentiviral transduction and transplantation of porcine spermatogonial stem cells

Enrichment and In Vitro Culture of Spermatogonial Stem Cells from Pre-Pubertal Monkey Testes

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