Hematopoietic activity in putative mouse primordial germ cell populations.

In the present paper, starting from the observation of heterogeneous expression of the GOF-18ΔPE-GFP Pou5f1 (Oct3/4) transgene in putative mouse PGC populations settled in the aorta-gonad-mesonephros (AGM) region, we identified various OCT3/4 positive populations showing distinct expression of PGC markers (BLIMP-1, AP, TG-1, STELLA) and co-expressing several proteins (CD-34, CD-41, FLK-1) and genes (Brachyury, Hox-B4, Scl/Tal-1 and Gata-2) of hematopoietic precursors. Moreover, we found that Oct3/4-GFP(weak) CD-34(weak/high) cells possess robust hematopoietic colony forming activity (CFU) in vitro. These data indicate that the cell population usually considered PGCs moving toward the gonadal ridges encompasses a subset of cells co-expressing several germ cell and hematopoietic markers and possessing hematopoietic activity.

Identification of side population cells in mouse primordial germ cells and prenatal testis.

In mammals, the stem cells of spermatogenesis are derived from an embryonic cell population called primordial germ cells (PGCs). Spermatogonial stem cells displaying the “side population” (SP) phenotype have been identified in the immature and adult mouse testis, but noting is known about the expression of the SP phenotype during prenatal development of germ cells. The SP phenotype, defined as the ability of cells to efflux fluorescent dyes such as Hoechst, is common to several stem/progenitor cell types.

Characterization of the endocannabinoid system in mouse embryonic stem cells.

In this study, we have ascertained the presence and functionality in mouse embryonic stem cells (ESCs) of members of the endocannabinoid system that have been proposed as possible modulators of the survival and differentiation of various type of stem cells. We show that mouse ESCs, in addition to classical CB(1) and CB(2) cannabinoid receptors, express the transient receptor potential vanilloid receptor, at mRNA, protein, and binding levels. Remarkably, we demonstrate that ESCs have the mRNA, protein, and enzyme activity to synthesize and degrade the prominent endocannabinoids anandamide (through N-acyl-phosphatidylethanolamine-specific phospholipase D and fatty acid amide hydrolase) and 2-arachidonoylglycerol (through diacylglycerol lipase and monoacylglycerol lipase).

Cftr gene targeting in mouse embryonic stem cells mediated by Small Fragment Homologous Replacement (SFHR).

Different gene targeting approaches have been developed to modify endogenous genomic DNA in both human and mouse cells. Briefly, the process involves the targeting of a specific mutation in situ leading to the gene correction and the restoration of a normal gene function. Most of these protocols with therapeutic potential are oligonucleotide based, and rely on endogenous enzymatic pathways.

In vitro restoration of functional SMN protein in human trophoblast cells affected by spinal muscular atrophy by small fragment homologous replacement.

The majority of patients affected by spinal muscular atrophy (SMA) have deletion of the survival of motor neuron 1 (SMN1) gene, but they retain a "nonfunctional" copy of the duplicate gene (SMN2) in their genome. SMN2 produces defective SMN protein because of a C --> T transition in exon 7, which causes the skipping of exon 7 during SMN mRNA maturation. Many attempts have been made to correct altered SMN gene expression and to increase the level of normal SMN protein, but to date an effective treatment for this disease has not been established.

Establishment of oocyte population in the fetal ovary: primordial germ cell proliferation and oocyte programmed cell death.

Strict control of cell proliferation and cell loss is essential for the coordinated functions of different cell populations in complex multicellular organisms. Oogenesis is characterized by a first phase occurring during embryo-fetal life and in common with spermatogenesis, during which mitotic proliferation of the germline stem cells, the primordial germ cells (PGC), prevails over germ cell death. The result is the formation of a relatively high number of germ cells depending on the species, ready to enter sex specific differentiation.

Adhesion molecules for mouse primordial germ cells.

In the present article we will focus on the adhesion molecules expressed by mouse primordial germ cells (PGCs) and will discuss the role that they play, or are believed to play, in two crucial processes of PGC development, namely cell lineage specification and migration into the gonadal ridges. Recent findings indicate that the adhesion-dependent allocation of the PGC precursors to a niche within the epiblast and the forming extraembryonic mesoderm during the pre-gastrulation period is crucial for their commitment. Subsequently, PGC migration and homing within the gonadal ridges require integrated signals involving contact of PGCs with extracellular matrix molecules and cellular substrates or repulsion from them, adhesion among PGCs themselves and attraction by the developing gonads.

Myogenic potential of mouse primordial germ cells.

Primordial germ cells are the only stem cells that retain true developmental totipotency after gastrulation, express markers typical of totipotent/pluripotent status and are able both in vivo and in vitro to give rise to pluripotent stem cells as EC and EG cells. We have therefore explored the possibility of the trans-differentiation of mouse PGCs to a myogenic lineage by transplanting them directly or after in vitro culture into a regenerating muscle and by culturing them on monolayers of differentianting muscle cells. The results obtained suggest that mouse PGCs may trans-differentiate into myogenic cells, provided that their somatic environment is preserved.