Mizuna Kamada scite author profile

To establish useful human normal cell lines, TERT (telomerase reverse transcriptase) cDNA was transfected into normal female lung fibroblast, TIG-1. After long-term-sub-cultivation of 74 individual clones selected for resistance to G418, we obtained 55 cultures with normal range of life span [75 PDL (population doubling level)], 16 cultures with extended life span (75-140 PDL). In addition, 3 immortal cell strains and unexpectedly, one ultra long-lived cell line (ULT-1) with life span of 166 PDL were established. IMT-1, one of the immortal cell strains was confirmed to maintain long telomere length, high telomerase activity and an extremely low level of p16INK4A. They also showed moderate p53 and p21CIP1 expression, keeping vigorous growth rate even at 450 PDL. High level of fibronectin and collagen 1α expression confirmed IMT-1 as normal fibroblasts, although one X chromosome had been lost. ULT-1, however, kept a near normal karyotypes and had shortening of telomere length, high expression of p16INK4A, moderate levels of senescence associated-β-galactosidase positive cells and decreased growth rate only after 150 PDs (population doublings), and finally reached senescence at 166 PDL with morphology of normal senescent fibroblasts. As resources of standard normal human cell, abundant vials of early and middle passages of ULT-1 have been stocked. The use of the cell line is discussed, focusing on isograft of artificial skin and screening of anti-aging or safe chemical agents.

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Reversible transformation and de-differentiation of human cells derived from induced pluripotent stem cell teratomas

Kamada

Mitsui

Matsuo

et al. 2015

Human Cell

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We first aimed to generate transformed cell lines from a human induced pluripotent stem cell (hiPSC)-teratoma, and then examined the tumorigenic risks of the differentiated cells from hiPSC explant, because hiPSC-derivatives give rise to tumors in immune-deficient mice when transplanted. The colonies isolated from sparse cultures of hiPSC-teratoma cells expressed NANOG and OCT3/4 strongly, and telomerase reverse transcriptase (TERT) weakly. However, soft agar assay demonstrated that only one of them generated colonies in the gel, though hiPSCs, hTERT-transfected immortal cells, and its oncogene-transfected cells did not form any colonies. Furthermore, none of colonies isolated from the soft agar gel on primary culture (passage 0) of teratoma cells, expressed NANOG and OCT3/4 in the expanded cultures. The second soft agar assay on the colony-derived cells was unexpectedly negative. The cumulative growth curve, telomere shortening, and senescence-associated β-galactosidase (SA β-gal) staining confirmed the mortality of these cells, suggesting their reversible transformation. By using medium for embryonic stem cell (ESC medium) after MCDB 131 (MCDB) medium, the differentiated culture cells derived from hiPSC-teratoma converted into the cells expressing undifferentiated marker proteins, which lost afterwords even in ESC medium with feeder SNL76/7. The reversibility of transformation and de-differentiation suggest that tumorigenic risks of differentiated cells arise when they are exposed to suitable niches in vivo. Thus, removal of only the undifferentiated cells from iPSC-derivatives before transplantation does not solve the problem. Elucidation of mechanisms of reversibility and control of epigenetic changes is discussed as a safety bottleneck for hiPSC therapy.

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Reemergence of undifferentiated cells from transplants of human induced pluripotent stem cells is a possible potential risk factor of tumorigenic differentiation

et al. 2013

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Although induced pluripotent stem cells (iPSCs) are a potential source for transplantation therapy, malignant transformation (tumourigenesis) remains a major concern in their safe clinical application. iPSCs are considered more tumourigenic than embryonic stem cells (ESCs) because of genetic and epigenetic manipulations. We generated 22 human iPSC lines from normal human fibroblasts and injected three of these cell lines into SCID mice, and produced three tumours, all of which were identified as teratomas with at least two germ layers. Using cells cultured from them, RT-PCR showed that the cells expressed undifferentiated cell markers, including OCT4 and NANOG. This suggests that some undifferentiated cells remain in the teratoma during its formation. We also found emergence of cells expressing undifferentiated cell markers from teratoma-derived cells during culturing with the ESC medium. Immunocytochemical analyses showed that NANOG-, OCT4-and SSEA4-positive cells appeared and increased with time in culture. These data indicate that iPSC-like undifferentiated cells can emerge from differentiated cells under certain condition and they may present a potential risk of tumourigenesis, as do residual iPSCs.Re-emergence of undifferentiated cells T. Kumazaki et al.

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395 Generation of Diverse Transformed Human Cell Lines Via HiPS Teratoma

Takahashi¹,

Kamada²,

Kumazaki³

et al. 2012

European Journal of Cancer

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Mizuna Kamada

Tumorigenic risk of human induced pluripotent stem cell explants cultured on mouse SNL76/7 feeder cells

Establishment of ultra long‐lived cell lines by transfection of TERT into normal human fibroblast TIG‐1 and their characterization

Reversible transformation and de-differentiation of human cells derived from induced pluripotent stem cell teratomas

Reemergence of undifferentiated cells from transplants of human induced pluripotent stem cells is a possible potential risk factor of tumorigenic differentiation

395 Generation of Diverse Transformed Human Cell Lines Via HiPS Teratoma

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