Presumptive germ cells derived from mouse pluripotent somatic cell hybrids.

The fusion of embryonic stem (ES) cells with differentiated somatic cells is an approach that reverses a somatic cell nucleus to a state of pluripotency. The resulting ES-somatic cell hybrids (ES-SCH) retain most of the properties of ES cells: differentiate into multiple cell types and have the ability to produce embryoid bodies (EB) and chimeras. However, it is still unknown whether ES-SCH will be able to complete the differentiation into germ cells (GC) in vitro similar to ES cells. Here, we show that near diploid ES-SCH, obtained by the fusion of mouse ES and spleen cells, were able to differentiate in vitro into presumptive GC. Differentiation of ES-SCH was induced through EB formation and by the addition of retinoic acid. Presumptive GC obtained reacted positively with anti-EMA, Vasa, Fragilis and Dazl antibodies and expressed GC-specific genes, such as Vasa, Stella, Dazl, Piwil 2, Tex14, Bmp8b, Tdrd1 and Rnf17. Fluorescent in situ hybridization analysis indicates chromosome reduction in the GC-like cells. Expression of meiotic and postmeiotic GC-specific genes such as Haprin, Acrosin, Scyp1, Scyp3 and Stra-8 were also detected. Transmission electron microscopy confirmed ES-SCH differentiation into presumptive GC. The presence of several autosomes and the X chromosome originated from the "somatic" partner did not prevent ES-SCH differentiation towards presumptive GC. Overall our study suggests an interesting in vitro model, which allows the study GC differentiation in reprogrammed somatic cells.

In vitro differentiation of male mouse embryonic stem cells into both presumptive sperm cells and oocytes.

Pioneer work in male mouse embryonic stem (ES) cells differentiation into germ cells (GC) showed generations of male or female gametes in separate experiments, using genetically manipulated or preselected ES cells. In an attempt to produce both types of gametes from male mouse ES cells without any genetic manipulation or preselection, we induce the differentiation by retinoic acid (RA) within nonadherent embryoid bodies (EB). It seems that gamete-like cell formation occurs in the correct manner based on the expression of early and late GC-specific genes such as Oct-4, Mvh, Stella, Dazl, Piwil 2, Pdrd 1, Rex 14, Rnf 17, Bmp8b, Acrosin, Stra-8, Haprin, LH-R, Gdf9, Zp3, Zp2, Sycp1, and Sycp3. Immunofluorescence analysis of morphologically well-formed GC and presumptive gametes showed positive labeling for SSEA1, Oct-4, EMA-1, FE-J1, Dazl, Fragilis, Mvh, Acrosin, and acetylated alpha-tubulin. Conventional cytogenetic and FISH analysis indicated a chromosome reduction in ES-derived GC. Our data suggest that ES cells with XY chromosomes can produce under the same experimental conditions both types of presumptive gametes, and this production depends on their positional and temporal information within the EB context.