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

We employed Fourier transform infrared (FTIR) microspectroscopy to investigate the effects of different tissue culture environments on the FTIR spectra of undifferentiated human embryonic stem cells (hESCs) and their differentiated progeny. First we tested whether there were any possible spectral artifacts resulting from the use of transflectance measurements by comparing them with transmission measurements and found no evidence of these concluding that the lack of any differences resulted from the homogeneity of the dried cytospun cellular monolayers. We found that hESCs that were enzymatically passaged onto mouse embryonic fibroblasts (MEFs) in KOSR based hESC medium,hESCs enzymatically passaged onto Matrigel in mTESR medium and hESCs mechanically passaged onto MEFs in KOSR-based hESC medium,possessed unique FTIR spectroscopic signatures that reflect differences in their macromolecular chemistry. Further,these spectroscopic differences persisted even upon differentiation towards mesendodermal lineages. Our results suggest that FTIR microspectroscopy is a powerful,objective,measurement modality that complements existing methods for studying the phenotype of hESCs and their progeny,particularly changes induced by the cellular environment. View Publication

Enterochromaffin (EC) cells constitute the largest population of intestinal epithelial enteroendocrine (EE) cells. EC cells are proposed to be specialized mechanosensory cells that release serotonin in response to epithelial forces,and thereby regulate intestinal fluid secretion. However,it is unknown whether EE and EC cells are directly mechanosensitive,and if so,what the molecular mechanism of their mechanosensitivity is. Consequently,the role of EE and EC cells in gastrointestinal mechanobiology is unclear. Piezo2 mechanosensitive ion channels are important for some specialized epithelial mechanosensors,and they are expressed in mouse and human EC cells. Here,we use EC and EE cell lineage tracing in multiple mouse models to show that Piezo2 is expressed in a subset of murine EE and EC cells,and it is distributed near serotonin vesicles by superresolution microscopy. Mechanical stimulation of a subset of isolated EE cells leads to a rapid inward ionic current,which is diminished by Piezo2 knockdown and channel inhibitors. In these mechanosensitive EE cells force leads to Piezo2-dependent intracellular Ca2+ increase in isolated cells as well as in EE cells within intestinal organoids,and Piezo2-dependent mechanosensitive serotonin release in EC cells. Conditional knockout of intestinal epithelial Piezo2 results in a significant decrease in mechanically stimulated epithelial secretion. This study shows that a subset of primary EE and EC cells is mechanosensitive,uncovers Piezo2 as their primary mechanotransducer,defines the molecular mechanism of their mechanotransduction and mechanosensitive serotonin release,and establishes the role of epithelial Piezo2 mechanosensitive ion channels in regulation of intestinal physiology. View Publication

BACKGROUND Glycophorin C (GPC) is necessary in the maintenance of red blood cell structure. Severe autoimmune hemolytic anemia and hemolytic disease of the fetus and newborn (HDFN) have been associated with Gerbich (Ge) blood group system antigens expressed on GPC. Previous in vitro studies with cord blood progenitor cells have shown that anti-Ge suppresses erythropoiesis. STUDY DESIGN AND METHODS Here,we evaluated the K562 erythroleukemic cell line to study the cellular effects of a murine anti-GPC. Cell proliferation was evaluated after treatment with anti-GPC. Flow cytometry was used to evaluate exofacial phosphatidylserine (PS) expression and cell viability (propidium iodide binding). Cell morphology was evaluated under light microscopy with cytospin preparations stained with May-Grünwald Giemsa. RESULTS Anti-GPC dramatically inhibited K562 proliferation and increased PS expression,consistent with cytoplasmic blebbing,suggesting evidence of apoptosis. Z-VAD-FMK,an inhibitor of classical apoptosis,was unable to reverse the suppressive effect of anti-GPC. However,hemin was able to attenuate growth suppression. CONCLUSION Together,the data suggest that anti-GPC suppresses erythroid proliferation through the induction of nonclassical apoptosis. View Publication

Antagonists of the 5-hydroxytryptamine (serotonin) 3 receptor (5-HT3R) have anti-inflammatory and anti-apoptotic activities,but the detailed,underlying mechanisms are not well understood. We focused on anti-apoptotic activities via 5-HT3R signaling to clarify the underlying mechanisms. Mice were administered 5-fluorouracil (5-FU),which induced apoptosis in intestinal epithelial cells. Coadministration with 5-HT3R antagonists or agonists tended to decrease or increase the number of apoptotic cells,respectively. In serotonin 3A receptor (5-HT3AR) null (HTR3A-/-) mice,the number of apoptotic cells induced by 5-FU was decreased compared with that in wild-type (WT) mice. Bone marrow (BM) transplantation was performed to determine if BM-derived immune cells regulated 5-FU-induced apoptosis,but they were found to be unrelated to this process. Data from 5-HT3AR/enhanced green fluorescent protein reporter mice revealed that 50{\%} of enterochromaffin (EC) cells expressed 5-HT3AR,but the number of apoptotic cells induced by 5-FU in the intestinal crypt organoids of HTR3A-/- mice was not altered compared with WT mice. In contrast,plasma 5-HT concentrations in WT mice but not in HTR3A-/- mice administered 5-FU were increased significantly. In conclusion,5-HT3R signaling may enhance 5-HT release,possibly from EC cells intravascularly,or paracrine,resulting in increases in plasma 5-HT concentration,which in turn,enhances apoptotic activities induced by 5-FU.-Mikawa,S.,Kondo,M.,Kaji,N.,Mihara,T.,Yoshitake,R.,Nakagawa,T.,Takamoto,M.,Nishimura,R.,Shimada,S.,Ozaki,H.,Hori,M. Serotonin 3 receptor signaling regulates 5-fluorouracil-mediated apoptosis indirectly via TNF-alpha production by enhancing serotonin release from enterochromaffin cells. View Publication

Transitioning CD19-directed chimeric antigen receptor (CAR) T cells from early-phase trials in relapsed patients to a viable therapeutic approach with predictable efficacy and low toxicity for broad application among patients with high unmet need is currently complicated by product heterogeneity resulting from transduction of undefined T-cell mixtures,variability of transgene expression,and terminal differentiation of cells at the end of culture. A phase 1 trial of 45 children and young adults with relapsed or refractory B-lineage acute lymphoblastic leukemia was conducted using a CD19 CAR product of defined CD4/CD8 composition,uniform CAR expression,and limited effector differentiation. Products meeting all defined specifications occurred in 93{\%} of enrolled patients. The maximum tolerated dose was 106 CAR T cells per kg,and there were no deaths or instances of cerebral edema attributable to product toxicity. The overall intent-to-treat minimal residual disease-negative (MRD-) remission rate for this phase 1 study was 89{\%}. The MRD- remission rate was 93{\%} in patients who received a CAR T-cell product and 100{\%} in the subset of patients who received fludarabine and cyclophosphamide lymphodepletion. Twenty-three percent of patients developed reversible severe cytokine release syndrome and/or reversible severe neurotoxicity. These data demonstrate that manufacturing a defined-composition CD19 CAR T cell identifies an optimal cell dose with highly potent antitumor activity and a tolerable adverse effect profile in a cohort of patients with an otherwise poor prognosis. This trial was registered at www.clinicaltrials.gov as {\#}NCT02028455. View Publication