Mice cloned from skin cells

Li, Jinsong; Greco, Valentina; Guasch, Géraldine; Fuchs, Elaine; Mombaerts, Peter

doi:10.1073/pnas.0611358104

Cited by 64 publications

(33 citation statements)

References 45 publications

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“…Yet evidence both supports and conflicts with the ROS theory of aging. 17 The predictions of the ROS theory do not fit numerous observations: [18][19][20][21][22] animals can be cloned from adult nuclei, 23,24 the accumulation of mutations does not reach significant levels to cause aging 25 and antioxidants do not prolong lifespan in clinical trials. 26,27 Conflicting evidence disproves the theory.…”

Section: Dilemma: Random or Programmedmentioning

confidence: 99%

Paradoxes of Aging

Blagosklonny¹

2007

Cell Cycle

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Section: Dilemma: Random or Programmedmentioning

confidence: 99%

Paradoxes of Aging

Blagosklonny¹

2007

Cell Cycle

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“…While NT experiments have clearly demonstrated that fully differentiated lymphocytes (Hochedlinger and Jaenisch, 2002a;Inoue et al, 2005) and neurons (Eggan et al, 2004;Li et al, 2004) can be reprogrammed into pluripotent ES cells, these experiments did not exclude the possibility that adult stem cells were the selective donors in most successful cloning experiments. In agreement with this idea, neural stem cells (NSCs) and keratinocyte stem cells give rise to cloned mice with greater efficiency than do mature fibroblasts, epidermal transit amplifying cells, or neurons (Blelloch et al, 2006;Eggan et al, 2004;Li et al, 2007;Li et al, 2004;Wakayama and Yanagimachi, 1999). By contrast, experiments in the hematopoietic system suggest that differentiated granulocytes are more efficient donors for NT than are hematopoietic stem cells Sung et al, 2006), although these experiments have recently been challenged .…”

Section: Intermediate Stages Of Reprogrammingmentioning

confidence: 99%

Epigenetic reprogramming and induced pluripotency

2009

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The cloning of animals from adult cells has demonstrated that the developmental state of adult cells can be reprogrammed into that of embryonic cells by uncharacterized factors within the oocyte. More recently,transcription factors have been identified that can induce pluripotency in somatic cells without the use of oocytes, generating induced pluripotent stem(iPS) cells. iPS cells provide a unique platform to dissect the molecular mechanisms that underlie epigenetic reprogramming. Moreover, iPS cells can teach us about principles of normal development and disease, and might ultimately facilitate the treatment of patients by custom-tailored cell therapy.

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“…Several features could be responsible for the enhanced reprogramming capability of intact MII oocytes. First, the overall inefficiency of NT could be attributable to technical difficulties in nuclear isolation and transfer [20], and direct injection of somatic nuclei into intact oocytes could reduce enucleation trauma to the oocytes. Second, the oocyte nucleus, which supports preimplantation development of the parthenogenetic embryo, could help maintain normal cell division of the reconstructed embryo containing the somatic nucleus.…”

Section: Discussionmentioning

confidence: 99%

High-efficiency somatic reprogramming induced by intact MII oocytes

et al. 2010

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Somatic nuclei can be reprogrammed into a pluripotent state by nuclear transfer, cell fusion and expression of transcription factors. However, these reprogramming processes are very inefficient, which has greatly hindered efforts to elucidate the underlying molecular mechanisms. Here, we report a new reprogramming strategy that combines the advantages of all three reprogramming methodologies into one process. We injected nuclei from cumulus cells into intact MII oocytes. Following activation, 80% of the reconstructed embryos developed to the blastocyst stage, and tetraploid (4N) embryonic stem (ES) cell lines were generated at a rate of 30% per reconstructed oocyte. We also generated triploid (3N) ES cells after injection of somatic nuclei into activated oocytes. 4N and 3N ES cells expressed pluripotent markers and differentiated into cell types of three embryonic germ layers in vivo. Moreover, all ES cells generated histocompatible, differentiated cells after being engrafted in immunocompetent B6D2F1 mice, showing that ES cells derived from this reprogramming strategy might serve as a source of genetically tailored tissues for transplantation. Thus, we have established a simple and highly efficient reprogramming procedure that provides a system for investigating the molecular mechanisms involved in somatic reprogramming.

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Mice cloned from skin cells

Cited by 64 publications

References 45 publications

Paradoxes of Aging

Paradoxes of Aging

Epigenetic reprogramming and induced pluripotency

High-efficiency somatic reprogramming induced by intact MII oocytes

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