搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

Classic derivation of mouse embryonic stem (ES) cells from blastocysts is inefficient,strain-dependent,and requires expert skills. Over recent years,several major improvements have greatly increased the success rate for deriving mouse ES cell lines. The first improvement was the establishment of a user-friendly and reproducible medium-alternating protocol that allows isolation of ES cells from C57BL/6 transgenic mice with efficiencies of up to 75%. A recent report describes the use of this protocol in combination with leukemia inhibitory factor and pluripotin treatment,which made it possible to obtain ES cells from F1 strains with high efficiency. We report modifications of these protocols for user-friendly and reproducible derivation of mouse ES cells with efficiencies of up to 100%. Our protocol involves a long initial incubation of primary outgrowths from blastocysts with pluripotin,which results in the formation of large spherical outgrowths. These outgrowths are morphologically distinct from classical inner cell mass (ICM) outgrowths and can be easily picked and trypsinized. Pluripotin was omitted after the first trypsinization because we found that it blocks attachment of ES cells to the feeder layer and its removal facilitated formation of ES cell colonies. The newly established ES cells exhibited normal karyotypes and generated chimeras. In summary,our user-friendly modified protocol allows formation of large spherical ICM outgrowths in a robust and reliable manner. These outgrowths gave rise to ES cell lines with success rates of up to 100%. View Publication

Hematopoietic stem cells (HSC) are tightly regulated through,as yet,undefined mechanisms that balance self-renewal and differentiation. We have identified a role for the transcriptional coactivators CREB-binding protein (CBP) and p300 in such HSC fate decisions. A full dose of CBP,but not p300,is crucial for HSC self-renewal. Conversely,p300,but not CBP,is essential for proper hematopoietic differentiation. Furthermore,in chimeric mice,hematologic malignancies emerged from both CBP(-/-) and p300(-/-) cell populations. Thus,CBP and p300 play essential but distinct roles in maintaining normal hematopoiesis,and,in mice,both are required for preventing hematologic tumorigenesis. View Publication

Murine hematopoietic stem cells with varying proliferative capacity can be assayed by limiting dilution analysis of cobblestone area" (CA) formation on stromal layers in microlong-term bone marrow cultures. Cobblestone area forming cell (CAFC) frequency determined at early time points (day 7) correlates with mature stem cells measured as day 8 CFU-S� View Publication

INTRODUCTION: The induced pluripotent stem cell (iPSC) technology allows generation of patient-specific pluripotent stem cells,thereby providing a novel cell-therapy platform for severe degenerative diseases. One of the key issues for clinical-grade iPSC derivation is the accessibility of donor cells used for reprogramming. METHODS: We examined the feasibility of reprogramming mobilized GMP-grade hematopoietic progenitor cells (HPCs) and peripheral blood mononuclear cells (PBMCs) and tested the pluripotency of derived iPS clones. RESULTS: Ectopic expression of OCT4,SOX2,KLF4,and c-MYC in HPCs and PBMCs resulted in rapid iPSC derivation. Long-term time-lapse imaging revealed efficient iPSC growth under serum- and feeder-free conditions with frequent mitotic events. HPC- and PBMC-derived iPS cells expressed pluripotency-associated markers,including SSEA-4,TRA-1-60,and NANOG. The global gene-expression profiles demonstrated the induction of endogenous pluripotent genes,such as LIN28,TERT,DPPA4,and PODXL,in derived iPSCs. iPSC clones from blood and other cell sources showed similar ultrastructural morphologies and genome-wide gene-expression profiles. On spontaneous and guided differentiation,HPC- and PBMC-derived iPSCs were differentiated into cells of three germ layers,including insulin-producing cells through endodermal lineage,verifying the pluripotency of the blood-derived iPSC clones. CONCLUSIONS: Because the use of blood cells allows minimally invasive tissue procurement under GMP conditions and rapid cellular reprogramming,mobilized HPCs and unmobilized PBMCs would be ideal somatic cell sources for clinical-grade iPSC derivation,especially from diabetes patients complicated by slow-healing wounds. View Publication

We previously demonstrated that leukemia cell lines expressing CD44 and hematopoietic progenitor cells (HPC) from umbilical cord blood (CB) showed rolling on hyaluronic acid (HA)-coated surfaces under physiological shear stress. In the present study,we quantitatively assessed the interaction of HPC derived from CB,mobilized peripheral blood (mPB) and bone marrow (BM) from healthy donors,as well as primary leukemia blasts from PB and BM of patients with acute myeloid leukemia (AML) with HA. We have demonstrated that HPC derived from healthy donors showed relative homogeneous rolling and adhesion to HA. In contrast,highly diverse behavioral patterns were found for leukemia blasts under identical conditions. The monoclonal CD44 antibody (clone BU52) abrogated the shear stress-induced rolling of HPC and leukemia blasts,confirming the significance of CD44 in this context. On the other hand,the immobile adhesion of leukemia blasts to the HA-coated surface was,in some cases,not or incompletely inhibited by BU52. The latter property was associated with non-responsiveness to induction chemotherapy and subsequently poor clinical outcome. View Publication

BACKGROUND Neonatal hypoxia-ischemia induces massive brain damage during the perinatal period,resulting in long-term consequences to central nervous system structural and functional maturation. Although neural progenitor cells (NPCs) migrate through the parenchyma and home in to injury sites in the rodent brain,the molecular mechanisms are unknown. We examined the role of chemokines in mediating NPC migration after neonatal hypoxic-ischemic brain injury. METHODS Nine-day-old mice were exposed to a 120-minute hypoxia following unilateral carotid occlusion. Chemokine levels were quantified in mouse brain extract. Migration and proliferation assays were performed using embryonic and infant mouse NPCs. RESULTS The neonatal hypoxic-ischemic brain injury resulted in an ipsilateral lesion,which was extended to the cortical and striatal areas. NPCs migrated toward an injured area,where a marked increase of CC chemokines was detected. In vitro studies showed that incubation of NPCs with recombinant mouse CCL11 promoted migration and proliferation. These effects were partly inhibited by a CCR3 antagonist,SB297006. CONCLUSIONS Our data implicate an important effect of CCL11 for mouse NPCs. The effective activation of NPCs may offer a promising strategy for neuroregeneration in neonatal hypoxic-ischemic brain injury. View Publication

This study investigates the electrophysiological properties and functional integration of different phenotypes of transplanted human neural precursor cells (hNPCs) in immunodeficient NSG mice. Postnatal day 2 mice received unilateral injections of 100,000 GFP+ hNPCs into the right parietal cortex. Eight weeks after transplantation,1.21% of transplanted hNPCs survived. In these hNPCs,parvalbumin (PV)-,calretinin (CR)-,somatostatin (SS)-positive inhibitory interneurons and excitatory pyramidal neurons were confirmed electrophysiologically and histologically. All GFP+ hNPCs were immunoreactive with anti-human specific nuclear protein. The proportions of PV-,CR-,and SS-positive cells among GFP+ cells were 35.5%,15.7%,and 17.1%,respectively; around 15% of GFP+ cells were identified as pyramidal neurons. Those electrophysiologically and histological identified GFP+ hNPCs were shown to fire action potentials with the appropriate firing patterns for different classes of neurons and to display spontaneous excitatory and inhibitory postsynaptic currents (sEPSCs and sIPSCs). The amplitude,frequency and kinetic properties of sEPSCs and sIPSCs in different types of hNPCs were comparable to host cells of the same type. In conclusion,GFP+ hNPCs produce neurons that are competent to integrate functionally into host neocortical neuronal networks. This provides promising data on the potential for hNPCs to serve as therapeutic agents in neurological diseases with abnormal neuronal circuitry such as epilepsy. View Publication

In the search for ways to combat degenerative neurological disorders,neurogenesis-stimulating factors are proving to be a promising area of research. In this study,we show that the hormonal factor prolactin (PRL) can activate a pool of latent precursor cells in the adult mouse hippocampus. Using an in vitro neurosphere assay,we found that the addition of exogenous PRL to primary adult hippocampal cells resulted in an approximate 50% increase in neurosphere number. In addition,direct infusion of PRL into the adult dentate gyrus also resulted in a significant increase in neurosphere number. Together these data indicate that exogenous PRL can increase hippocampal precursor numbers both in vitro and in vivo. Conversely,PRL null mice showed a significant reduction (approximately 80%) in the number of hippocampal-derived neurospheres. Interestingly,no deficit in precursor proliferation was observed in vivo,indicating that in this situation other niche factors can compensate for a loss in PRL. The PRL loss resulted in learning and memory deficits in the PRL null mice,as indicated by significant deficits in the standard behavioral tests requiring input from the hippocampus. This behavioral deficit was rescued by direct infusion of recombinant PRL into the hippocampus,indicating that a lack of PRL in the adult mouse hippocampus can be correlated with impaired learning and memory. View Publication

Hematopoietic stem cells (HSCs) can be isolated from murine bone marrow by their ability to efflux the Hoechst 33342 dye. This method defines an extremely small and hematopoietically potent subset of cells known as the side population (SP). Recent studies suggest that transplanted single SP cells are capable of lymphohematopoietic repopulation at near absolute efficiencies. Here,we carefully reevaluate the hematopoietic potential of individual SP cells and find substantially lower rates of reconstitution. Our strategy involved the cotransplantation of single SP cells along with different populations of competitor cells that varied in their self-renewal capacity. Even with minimized HSC competition,SP cells were only able to reconstitute up to 35% of recipient mice. Furthermore,through immunophenotyping and clonal in vitro assays we find that SP cells are virtually homogeneous. Isolation of HSCs on the basis of Hoechst exclusion and a single cell-surface marker allows enrichment levels similar to that obtained with complex multicolor strategies. Altogether,our results indicate that even an extremely homogeneous HSC population,based on phenotype and dye efflux,cannot reconstitute mice at absolute efficiencies. View Publication

Telomere length must be tightly regulated in highly proliferative tissues,such as the lymphohematopoietic system. Under steady-state conditions,the levels and functionality of hematopoietic-committed or multipotent progenitors were not affected in late-generation telomerase-deficient mice (mTerc(-/-)) with critically short telomeres. Evaluation of self-renewal potential of mTerc(-/-) day-12 spleen colony-forming units demonstrated no alteration as compared with wildtype progenitors. However,the replating ability of mTerc(-/-) granulocyte-macrophage CFUs (CFU-GMs) was greatly reduced as compared with wildtype CFU-GMs,indicating a diminished capacity of late-generation mTerc(-/-) committed progenitors when forced to proliferate. Long-term bone marrow cultures of mTerc(-/-) bone marrow (BM) cells show a reduction in proliferative capacity; this defect can be mainly attributed to the hematopoietic,not to the stromal,mTerc(-/-) cells. In serial and competitive transplantations,mTerc(-/-) BM stem cells show reduced long-term repopulating capacity,concomitant with an increase in genetic instability compared with wildtype cells. Nevertheless,in competitive transplantations late-generation mTerc(-/-) precursors can occasionally overcome this proliferative impairment and reconstitute irradiated recipients. In summary,our results demonstrate that late-generation mTerc(-/-) BM cells with short telomeres,although exhibiting reduced proliferation ability and reduced long-term repopulating capacity,can still reconstitute myeloablated animals maintaining stem cell function. View Publication

gamma-Secretase is a membrane-associated protease with multiple intracellular targets,a number of which have been shown to influence embryonic development and embryonic stem (ES) cell differentiation. This paper describes the use of the gamma-secretase inhibitor N-[N-(3,5-difluorophenacetyl)-L-alanyl]-S-phenylglycine t-butyl ester (DAPT) to evaluate the role of gamma-secretase in the differentiation of pluripotent stem cells to the germ lineages. The addition of DAPT did not prevent the formation of primitive ectoderm-like cells from ES cells in culture. In contrast,the addition of DAPT during primitive ectoderm-like cell differentiation interfered with the ability of both serum and BMP4 to induce a primitive streak-like intermediate and resulted in the preferential formation of neurectoderm. Similarly,DAPT reduced the formation of primitive streak-like intermediates from differentiating human ES cells; the culture conditions used resulted in a population enriched in human surface ectoderm. These data suggest that gamma-secretase may form part of the general pathway by which mesoderm is specified within the primitive streak. The addition of an E-cadherin neutralizing antibody was able to partially reverse the effect of DAPT,suggesting that DAPT may be preventing the formation of primitive streak-like intermediates and promoting neurectoderm differentiation by stabilizing E-cadherin and preventing its proteolysis. View Publication

The cancer stem cell (CSC) theory has been proposed to explain the tumor heterogeneity and carcinogenesis process. Recent studies indicate that aldehyde dehydrogenase (ALDH) activity represents a promising CSC marker. Here,we aimed to determine whether human adenoid cystic carcinoma (AdCC) also follows CSC model by exploring the CSC properties of AdCC cells expressing high level of ALDH activity. Utilizing in-vivo series transplantation assays,we found ALDH(high) AdCC cells were capable of self-renewal and of generating tumors that recapitulate the heterogeneity of the parental tumor. Utilizing in-vitro assay,we found only ALDH(high) AdCC cells have tumorsphere-forming ability in anchorage-independent cultures. Finally,we showed ALDH(high) AdCC cells possess highly invasive capability and are responsible for mediating metastasis. These findings suggest the existence of a developmental hierarchy within human AdCC and further elucidation of the unique survival mechanism of AdCC derived CSC population may provide novel therapeutic strategies to treat AdCC. View Publication