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Raman spectra often contain undesirable,randomly positioned,intense,narrow-bandwidth,positive,unidirectional spectral features generated when cosmic rays strike charge-coupled device cameras. These must be removed prior to analysis,but doing so manually is not feasible for large data sets. We developed a quick,simple,effective,semi-automated procedure to remove cosmic ray spikes from spectral data sets that contain large numbers of relatively homogenous spectra. Although some inhomogeneous spectral data sets can be accommodated—it requires replacing excessively modified spectra with the originals and removing their spikes with a median filter instead—caution is advised when processing such data sets. In addition,the technique is suitable for interpolating missing spectra or replacing aberrant spectra with good spectral estimates. The method is applied to baseline-flattened spectra and relies on fitting a third-order (or higher) polynomial through all the spectra at every wavenumber. Pixel intensities in excess of a threshold of 3× the noise standard deviation above the fit are reduced to the threshold level. Because only two parameters (with readily specified default values) might require further adjustment,the method is easily implemented for semi-automated processing of large spectral sets. View Publication

In mammals,the continuous production of hematopoietic cells (HCs) is sustained by a small number of hematopoietic stem cells (HSCs) residing in the bone marrow. Early HSC activity arises in the aorta-gonad mesonephros region,within cells localized to the ventral floor of the major blood vessels,suggesting that the first HSCs may be derived from cells capable of giving rise to the hematopoietic system and to the endothelial cells of the vasculature. TIE1 (TIE) and TIE2 (TEK) are related receptor tyrosine kinases with an embryonic expression pattern in endothelial cells,their precursors,and HCs,suggestive of a role in the divergence and function of both lineages. Indeed,gene targeting approaches have shown that TIE1,TIE2,and ligands for TIE2,the angiopoietins,are essential for vascular development and maintenance. To explore possible roles for these receptors in HCs,we have examined the ability of embryonic cells lacking both TIE1 and TIE2 to contribute to developmental and adult hematopoiesis by generating chimeric animals between normal embryonic cells and cells lacking these receptors. We show here that TIE receptors are not required for differentiation and proliferation of definitive hematopoietic lineages in the embryo and fetus; surprisingly,however,these receptors are specifically required during postnatal bone marrow hematopoiesis. View Publication

PURPOSE: To evaluate the expression of stem cell-related markers at the cellular level in human breast tumors of different subtypes and histologic stage. EXPERIMENTAL DESIGN: We performed immunohistochemical analyses of 12 proteins [CD44,CD24,ALDH1,vimentin,osteonectin,EPCR,caveolin 1,connexin 43,cytokeratin 18 (CK18),MUC1,claudin 7,and GATA3] selected based on their differential expression in breast cancer cells with more differentiated and stem cell-like characteristics in 47 cases of invasive ductal carcinoma (IDC) only,135 cases of IDC with ductal carcinoma in situ (DCIS),35 cases of DCIS with microinvasion,and 58 cases of pure DCIS. We also analyzed 73 IDCs with adjacent DCIS to determine the differences in the expression of markers by histology within individual tumors. CD44+/CD24- and CD24-/CD24+ cells were detected using double immunohistochemistry. RESULTS: CD44 and EPCR expression was different among the four histologic groups and was lower in invasive compared with in situ tumors,especially in luminal A subtype. The expression of vimentin,osteonectin,connexin 43,ALDH1,CK18,GATA3,and MUC1 differed by tumor subtype in some histologic groups. ALDH1-positive cells were more frequent in basal-like and HER2+ than in luminal tumors. CD44+/CD24- cells were detected in 69% of all tumors with 100% of the basal-like and 52% of HER2+ tumors having some of these cells. CONCLUSIONS: Our findings suggest that in breast cancer,the frequency of tumor cells positive for stem cell-like and more differentiated cell markers varies according to tumor subtype and histologic stage. View Publication

The neurodegenerative disease spinocerebellar ataxia type 3 (SCA3) is caused by a CAG-repeat expansion in the ATXN3 gene. In this study,induced pluripotent stem cell (iPSC) lines were established from two SCA3 patients. Dermal fibroblasts were reprogrammed using an integration-free method and the resulting SCA3 iPSCs were differentiated into neurons. These neuronal lines harbored the disease causing mutation,expressed comparable levels of several neuronal markers and responded to the neurotransmitters,glutamate/glycine,GABA and acetylcholine. Additionally,all neuronal cultures formed networks displaying synchronized spontaneous calcium oscillations within 28days of maturation,and expressed the mature neuronal markers NeuN and Synapsin 1 implying a relatively advanced state of maturity,although not comparable to that of the adult human brain. Interestingly,we were not able to recapitulate the glutamate-induced ataxin-3 aggregation shown in a previously published iPSC-derived SCA3 model. In conclusion,we have generated a panel of SCA3 patient iPSCs and a robust protocol to derive neurons of relatively advanced maturity,which could potentially be valuable for the study of SCA3 disease mechanisms. View Publication

During pregnancy the uterine decidua is populated by large numbers of natural killer (NK) cells with a phenotype CD56(superbright)CD16(-)CD9(+)KIR(+) distinct from both subsets of peripheral blood NK cells. Culture of highly purified CD16(+)CD9(-) peripheral blood NK cells in medium containing TGFbeta1 resulted in a transition to CD16(-)CD9(+) NK cells resembling decidual NK cells. Decidual stromal cells,when isolated and cultured in vitro,were found to produce TGFbeta1. Incubation of peripheral blood NK cells with conditioned medium from decidual stromal cells mirrored the effects of TGFbeta1. Similar changes may occur upon NK cell entry into the decidua or other tissues expressing substantial TGFbeta. In addition,Lin(-)CD34(+)CD45(+) hematopoietic stem/progenitor cells could be isolated from decidual tissue. These progenitors also produced NK cells when cultured in conditioned medium from decidual stromal cells supplemented with IL-15 and stem cell factor. View Publication

Monomeric clustered regularly interspaced short palindromic repeats (CRISPR)-CRISPR associated 9 (Cas9) nucleases have been widely adopted for simple and robust targeted genome editing but also have the potential to induce high-frequency off-target mutations. In principle,two orthogonal strategies for reducing off-target cleavage,truncated guide RNAs (tru-gRNAs) and dimerization-dependent RNA-guided FokI-dCas9 nucleases (RFNs),could be combined as tru-RFNs to further improve genome editing specificity. Here we identify a robust tru-RFN architecture that shows high activity in human cancer cell lines and embryonic stem cells. Additionally,we demonstrate that tru-gRNAs reduce the undesirable mutagenic effects of monomeric FokI-dCas9. Tru-RFNs combine the advantages of two orthogonal strategies for improving the specificity of CRISPR-Cas nucleases and therefore provide a highly specific platform for performing genome editing. View Publication

The groundbreaking discovery of induced pluripotent stem cells (iPS cells) provides a new source for cell therapy. However,whether the iPS derived functional lineages from different cell origins have different immunogenicity remains unknown. It had been known that the cells isolated from extra-embryonic tissues,such as umbilical cord mesenchymal cells (UMCs),are less immunogenic than other adult lineages such as skin fibroblasts (SFs). In this report,we differentiated iPS cells from human UMCs and SFs into neural progenitor cells (NPCs) and analyzed their immunogenicity. Through co-culture with allologous peripheral blood mononuclear cells (PBMCs),we showed that UMCs were indeed less immunogenic than skin cells to simulate proliferation of PBMCs. Surprisingly,we found that the NPCs differentiated from UMC-iPS cells retained low immunogenicity as the parental UMCs based on the PBMC proliferation assay. In cytotoxic expression assay,reactions in most kinds of immune effector cells showed more perforin and granzyme B expression with SF-NPCs stimulation than that with UMC-NPCs stimulation in PBMC co-culture system,in T cell co-culture system as well. Furthermore,through whole genome expression microarray analysis,we showed that over 70 immune genes,including all members of HLA-I,were expressed at lower levels in NPCs derived from UMC-iPS cells than that from SF-iPS cells. Our results demonstrated a phenomenon that the low immunogenicity of the less immunogenic cells could be retained after cell reprogramming and further differentiation,thus provide a new concept to generate functional lineages with lower immunogenicity for regenerative medicine. View Publication

Human induced pluripotent stem cells (hiPSCs) offer the potential to study otherwise inaccessible cell types. Critical to this is the directed differentiation of hiPSCs into functional cell lineages. This is of particular relevance to research into neurological disease,such as Parkinson's disease (PD),in which midbrain dopaminergic neurons degenerate during disease progression but are unobtainable until post-mortem. Here we report a detailed study into the physiological maturation over time of human dopaminergic neurons in vitro. We first generated and differentiated hiPSC lines into midbrain dopaminergic neurons and performed a comprehensive characterisation to confirm dopaminergic functionality by demonstrating dopamine synthesis,release,and re-uptake. The neuronal cultures include cells positive for both tyrosine hydroxylase (TH) and G protein-activated inward rectifier potassium channel 2 (Kir3.2,henceforth referred to as GIRK2),representative of the A9 population of substantia nigra pars compacta (SNc) neurons vulnerable in PD. We observed for the first time the maturation of the slow autonomous pace-making (textless10 Hz) and spontaneous synaptic activity typical of mature SNc dopaminergic neurons using a combination of calcium imaging and electrophysiology. hiPSC-derived neurons exhibited inositol tri-phosphate (IP3) receptor-dependent release of intracellular calcium from the endoplasmic reticulum in neuronal processes as calcium waves propagating from apical and distal dendrites,and in the soma. Finally,neurons were susceptible to the dopamine neuron-specific toxin 1-methyl-4-phenylpyridinium (MPP+) which reduced mitochondrial membrane potential and altered mitochondrial morphology. Mature hiPSC-derived dopaminergic neurons provide a neurophysiologically-defined model of previously inaccessible vulnerable SNc dopaminergic neurons to bridge the gap between clinical PD and animal models. View Publication