技术资料

The ability of hematopoietic stem cells (HSCs) to undergo self-renewal is partly regulated by external signals originating from the stem cell niche. Our previous studies with HSCs obtained from fetal liver of mice deficient for the calcium-sensing receptor (CaR) have shown the crucial role of this receptor in HSC lodgment and engraftment in the bone marrow (BM) endosteal niche. Using a CaR agonist,Cinacalcet,we assessed the effects of stimulating the CaR on the function of murine HSCs. Our results show that CaR stimulation increases primitive hematopoietic cell activity in vitro,including growth in stromal cell cocultures,adhesion to extracellular matrix molecules such as collagen I and fibronectin,and migration toward the chemotactic stimulus,stromal cell-derived factor 1α. Receptor stimulation also led to augmented in vivo homing,CXCR4-mediated lodgment at the endosteal niche,and engraftment capabilities. These mechanisms by which stimulating the CaR dictates preferential localization of HSCs in the BM endosteal niche provide additional insights into the fundamental interrelationship between the stem cell and its niche. These studies also have implications in the area of clinical stem cell transplantation,where ex vivo modulation of the CaR may be envisioned as a strategy to enhance HSC engraftment in the BM. View Publication

Human embryonic stem cells (hESCs) are capable of extensive self-renewal and expansion and can differentiate into any somatic tissue,making them useful for regenerative medicine applications. Allogeneic transplantation of hESC-derived tissues from results in immunological rejection absent adjunctive immunosuppression. The goal of our study was to generate a universal pluripotent stem cell source by nucleofecting a mutated human leukocyte antigen G (mHLA-G) gene into hESCs using the PiggyBac transposon. We successfully generated stable mHLA-G(EF1$\$)-hESC lines using chEF1$\$ system that stably expressed mHLA-G protein during prolonged undifferentiated proliferation andin differentiated embryoid bodies as well as teratomas. Morphology,karyotype,and telomerase activity of mHLA-G expressing hESC were normal. Immunofluorescence staining and flow cytometry analysis revealed persistent expression of pluripotent markers,OCT-3/4 and SSEA-4,in undifferentiated mHLA-G(EF1$\$)-hESC. Nucleofected hESC formed teratomas and when directed to differentiate into epidermal precursors,expressed high levels of mHLA-G and keratinocyte markers K14 and CD29. Natural killer cell cytotoxicity assays demonstrated a significant decrease in lysis of mHLA-G(EF1a)-hESC targets relative to control cells. Similar results were obtained with mHLA-G(EF1$\$)-hESC-derived epidermal progenitors (hEEP). One way mixed T lymphocyte reactions unveiled that mHLA-G(EF1a)-hESC and -hEEP restrained the proliferative activity of mixed T lymphocytes. We conclude that heterologous expression of mHLA-G decreases immunogenicity of hESCs and their epidermal differentiated derivatives. View Publication