A new human somatic stem cell from placental cord blood with intrinsic pluripotent differentiation potential.

Here a new, intrinsically pluripotent, CD45-negative population from human cord blood, termed unrestricted somatic stem cells (USSCs) is described. This rare population grows adherently and can be expanded to 10(15) cells without losing pluripotency. In vitro USSCs showed homogeneous differentiation into osteoblasts, chondroblasts, adipocytes, and hematopoietic and neural cells including astrocytes and neurons that express neurofilament, sodium channel protein, and various neurotransmitter phenotypes. Stereotactic implantation of USSCs into intact adult rat brain revealed that human Tau-positive cells persisted for up to 3 mo and showed migratory activity and a typical neuron-like morphology. In vivo differentiation of USSCs along mesodermal and endodermal pathways was demonstrated in animal models. Bony reconstitution was observed after transplantation of USSC-loaded calcium phosphate cylinders in nude rat femurs. Chondrogenesis occurred after transplanting cell-loaded gelfoam sponges into nude mice. Transplantation of USSCs in a noninjury model, the preimmune fetal sheep, resulted in up to 5% human hematopoietic engraftment. More than 20% albumin-producing human parenchymal hepatic cells with absence of cell fusion and substantial numbers of human cardiomyocytes in both atria and ventricles of the sheep heart were detected many months after USSC transplantation. No tumor formation was observed in any of these animals.

Comparative generation and characterization of pluripotent unrestricted somatic stem cells with mesenchymal stem cells from human cord blood.

OBJECTIVE: Generation and expansion of pluripotent unrestricted somatic stem cells (USSCs) and mesenchymal cells (MSCs) from human cord blood as well their functional characterization were assessed. METHODS: USSC generation was initiated from fresh and cryopreserved cord blood (CB). Culture conditions and functional assays distinguishing between USSCs and MSCs (e.g., endodermal differentiation) are described. RESULTS: USSC cultures were initiated from 573 placental CB samples with a total generation frequency of 35.4% (n = 203), whereas successful generation of USSCs from cryopreserved products was scare. Medium, dexamethasone, and the fetal calf serum source are the major parameters to generate and expand the cells in a pluripotent state (osteogeneic, neural, and endodermal differentiation). CONCLUSIONS: USSC or MSC cultures can be easily obtained from fresh CB samples, good manufacturing practice production of such cells is feasible. These USSCs or MSCs from CB, when matched for HLA antigens, may serve as an allogeneic stem cell source for the development of cellular therapy for tissue repair.

Cytokine production and hematopoiesis supporting activity of cord blood-derived unrestricted somatic stem cells.

OBJECTIVE: Cytokine production and hematopoiesis-supporting stromal activity of cord blood (CB)-derived unrestricted somatic stem cells (USSC) in comparison to bone marrow mesenchymal stem cells (BMMSC) and hematopoietic progenitor expansion solely driven by recombinant cytokines were assessed. METHODS: USSC generation was initiated from fresh and cryopreserved CB. Cytokine production by USSC and BMMSC was determined qualitatively by cytokine mRNA expression array analyses or quantitatively by Multiplex or ELISA analyses. To evaluate hematopoiesis-supporting activity, CB CD34+ cells were expanded in cocultures with USSC and BMMSC or in the presence of Flt3-L, SCF, and TPO. Expansion of CD34+ cells, total cells, colony-forming cells (CFC), and LTC-IC were determined after 1, 2, 3, and 4 weeks of culture. RESULTS: USSC constitutively produced SCF, LIF, TGF-1beta, M-CSF, GM-CSF, VEGF, IL-1beta, IL-6, IL-8, IL-11, IL-12, IL-15, SDF-1alpha, and HGF. When USSC were stimulated with IL-1beta, G-CSF was released. Production of SCF and LIF were significantly higher in USSC compared to BMMSC. At 1, 2, 3, and 4 weeks, cocultivation of CD34+ cells on the USSC layer resulted in a 14.6-fold +/- 1.1-fold, 110.1-fold +/- 17.9-fold, 151.8-fold +/- 39.7-fold, and 183.6-fold +/- 40.4-fold amplification of total cells and in a 30.6-fold +/- 4.4-fold, 101.4-fold +/- 27.5-fold, 64.7-fold +/- 15.8-fold, and 29.4-fold +/- 3.1-fold amplification of CFC, respectively. LTC-IC expansion at 1 and 2 weeks was, with 2.0-fold +/- 0.1-fold and 2.5-fold +/- 0.3-fold, significantly higher for USSC than BMMSC (1.1-fold +/- 0.03-fold and 1.1-fold +/- 0.1-fold), but declined after day 21. Transwell cocultures of USSC did not significantly alter total cell or CFC expansion. CONCLUSIONS: USSC produce functionally significant amounts of hematopoiesis-supporting cytokines and are superior to BMMSC in expansion of CD34+ cells from CB. USSC is therefore a suitable candidate for stroma-driven ex vivo expansion of hematopoietic CB cells for short-term reconstitution.