論文ID: 2022-105
Somatic cell nuclear transfer (SCNT) is the only reproductive technology used to produce individuals from somatic cells by transferring them to enucleated oocytes. Although more than 25 years have passed since the first mammalian SCNT was reported in sheep, problems such as low birth rates and morphological abnormalities have persisted and limited its practical applications. The mouse is the ideal laboratory animal to unveil these questions due to its established reproductive technologies and extensive knowledge base of its genome and various strains. We investigated the causes of incomplete reprogramming after nuclear transfer of donor somatic cells and found that the loss of imprint in some placenta-specific imprinted genes could induce non-random SCNT abnormalities. By ameliorating aberrantly expressed imprinted genes, we succeeded in increasing the low birth rate and improving morphological abnormalities observed in SCNT fetuses. Furthermore, we sought appropriate mouse strains and cell types as nuclear donors to increase their developmental efficiencies and expand their applications in various fields. Peripheral blood cells are useful as ethical and economical cell species because they can be collected easily, even though SCNT embryos derived from hematopoietic cells show poor developmental abilities after reconstruction. Additionally, it is possible to obtain mice that are reactive to specific antigens of interest by using lymphocytes. Although there are still many limitations to the practical use of SCNT, its utilization is steadily expanding.
