108 research outputs found
Applicability of RNA standards for evaluating RT-qPCR assays and platforms
The availability of diverse RT-qPCR assay formats and technologies hinder comparability of data between platforms. Reference standards to facilitate platform evaluation and comparability are needed. We have explored using universal RNA standards for comparing the performance of a novel qPCR platform (Fluidigm® BioMark™) against the widely used ABI 7900HT system. Our results show that such standards may form part of a toolkit to evaluate the key performance characteristics of platforms
Accurate Expression Profiling of Very Small Cell Populations
BACKGROUND: Expression profiling, the measurement of all transcripts of a cell or tissue type, is currently the most comprehensive method to describe their physiological states. Given that accurate profiling methods currently available require RNA amounts found in thousands to millions of cells, many fields of biology working with specialized cell types cannot use these techniques because available cell numbers are limited. Currently available alternative methods for expression profiling from nanograms of RNA or from very small cell populations lack a broad validation of results to provide accurate information about the measured transcripts. METHODS AND FINDINGS: We provide evidence that currently available methods for expression profiling of very small cell populations are prone to technical noise and therefore cannot be used efficiently as discovery tools. Furthermore, we present Pico Profiling, a new expression profiling method from as few as ten cells, and we show that this approach is as informative as standard techniques from thousands to millions of cells. The central component of Pico Profiling is Whole Transcriptome Amplification (WTA), which generates expression profiles that are highly comparable to those produced by others, at different times, by standard protocols or by Real-time PCR. We provide a complete workflow from RNA isolation to analysis of expression profiles. CONCLUSIONS: Pico Profiling, as presented here, allows generating an accurate expression profile from cell populations as small as ten cells
Cardiomyocyte Formation by Skeletal Muscle-Derived Multi-Myogenic Stem Cells after Transplantation into Infarcted Myocardium
BACKGROUND: Cellular cardiomyoplasty for myocardial infarction has been developed using various cell types. However, complete differentiation and/or trans-differentiation into cardiomyocytes have never occurred in these transplant studies, whereas functional contributions were reported. METHODS AND RESULTS: Skeletal muscle interstitium-derived CD34(+)/CD45(-) (Sk-34) cells were purified from green fluorescent protein transgenic mice by flowcytometory. Cardiac differentiation of Sk-34 cells was examined by in vitro clonal culture and co-culture with embryonic cardiomyocytes, and in vivo transplantation into a nude rat myocardial infarction (MI) model (left ventricle). Lower relative expression of cardiomyogenic transcription factors, such as GATA-4, Nkx2-5, Isl-1, Mef2 and Hand2, was seen in clonal cell culture. However, vigorous expression of these factors was seen on co-culture with embryonic cardiomyocytes, together with formation of gap-junctions and synchronous contraction following sphere-like colony formation. At 4 weeks after transplantation of freshly isolated Sk-34 cells, donor cells exhibited typical cardiomyocyte structure with formation of gap-junctions, as well as intercalated discs and desmosomes, between donor and recipient and/or donor and donor cells. Fluorescence in situ hybridization (FISH) analysis detecting the rat and mouse genomic DNA and immunoelectron microscopy using anti-GFP revealed donor-derived cells. Transplanted Sk-34 cells were incorporated into infarcted portions of recipient muscles and contributed to cardiac reconstitution. Significant improvement in left ventricular function, as evaluated by transthoracic echocardiography and micro-tip conductance catheter, was also observed. CONCLUSIONS AND SIGNIFICANCE: Skeletal muscle-derived multipotent Sk-34 cells that can give rise to skeletal and smooth muscle cells as reported previously, also give rise to cardiac muscle cells as multi-myogenic stem cells, and thus are a potential source for practical cellular cardiomyoplasty
Microarray Profiling of Phage-Display Selections for Rapid Mapping of Transcription Factor–DNA Interactions
Modern computational methods are revealing putative transcription-factor (TF) binding sites at an extraordinary rate. However, the major challenge in studying transcriptional networks is to map these regulatory element predictions to the protein transcription factors that bind them. We have developed a microarray-based profiling of phage-display selection (MaPS) strategy that allows rapid and global survey of an organism's proteome for sequence-specific interactions with such putative DNA regulatory elements. Application to a variety of known yeast TF binding sites successfully identified the cognate TF from the background of a complex whole-proteome library. These factors contain DNA-binding domains from diverse families, including Myb, TEA, MADS box, and C2H2 zinc-finger. Using MaPS, we identified Dot6 as a trans-active partner of the long-predicted orphan yeast element Polymerase A & C (PAC). MaPS technology should enable rapid and proteome-scale study of bi-molecular interactions within transcriptional networks
Characterization of a novel receptor that maps near the natural killer gene complex: demonstration of carbohydrate binding and expression in hematopoietic cells.
A novel type II integral membrane protein has been identified in the course of screening for genes overexpressed in a mouse model of chronic myelogenous leukemia blast crisis. This new protein, designated NKCL, consists of a 210-amino acid polypeptide with a short, NH2-terminal cytoplasmic tail of 17 amino acids preceding a transmembrane domain and a COOH-terminal extracellular region. The COOH-terminal 132 amino acids bear typical features of the C-type animal lectin carbohydrate-recognition domain. The Nkcl gene is unique in that it maps just proximal to the region of the genome that encodes group V members of the C-type animal lectin family near the natural killer gene complex on mouse chromosome 6, but its protein product also has features of several group II C-type animal lectins. Most notably, it has a complete Ca2+-binding site 2, which forms part of the sugar-binding site in other members of the family, and binds mannose in a Ca2+-dependent manner. Moreover, its expression is not restricted to natural killer cells, as reported for the majority of group V lectins. Nkcl is expressed in pluripotent myeloid precursors, precursor and mature macrophages, and neutrophils
Isolation of human haematopoietic progenitor cells using monoclonal antibodies.
Studies of the differentiation of human haematopoietic cells have been greatly advanced by the use of in vitro cloning techniques to enumerate the myeloid and erythroid progenitor cells which form colonies in semi-solid medium. The granulocytic/monocytic colony-forming cells (CFU-GM) and erythroid burst-forming cells (BFU-E) are thought to be mononuclear cells, similar in size to medium size lymphocytes, but their ontogenetic relationship to other progenitor cells and the putative pluripotential stem cell remains obscure. This is partly because elucidation of parent-progeny relationships requires the isolation of precursor cells before they acquire mature phenotypic characters. Physical methods have failed to separate CFU-GM cleanly from other cells because of their heterogeneity, and immunologically specific markers for human progenitor cells have not been reported. We report here that a fraction containing all the granulocytic/monocytic and erythroid progenitor cells, as well as cells which may be lymphoid progenitors, can be isolated from bone marrow using a combination of monoclonal antibodies
OLIG2 (BHLHB1), a bHLH transcription factor, contributes to leukemogenesis in concert with LMO1
OLIG2 (originally designated BHLHB1) encodes a transcription factor that contains the basic helix-loop-helix motif. Although expression of OLIG2 is normally restricted to neural tissues, overexpression of OLIG2 has been shown in patients with precursor T-cell lymphoblastic lymphoma/leukemia (pre-T LBL). In the current study, we found that overexpression of OLIG2 was not only found in oligodendroglioma samples and normal neural tissue, but also in a wide spectrum of malignant cell lines including leukemia, non-small cell lung carcinoma, melanoma, and breast cancer cell lines. In order to investigate whether enforced expression of OLIG2 is oncogenic, we generated transgenic mice that overexpressed OLIG2 in the thymus. Ectopic OLIG2 expression in the thymus was only weakly oncogenic as only 2 of 85 mice developed pre-T LBL. However, almost 60% of transgenic mice that overexpressed both OLIG2 and LMO1 developed pre-T LBL with large thymic tumor masses. Gene expression profiling of thymic tumors that developed in OLIG2/LMO1 mice revealed up-regulation of Notch1 as well as Deltex1(Dtx1) and pre T-cell antigen receptor alpha(Ptcra), two genes that are considered to be downstream of Notch1. Of note, we found mutations in the Notch1 heterodimerization or PEST domain in three of six primary thymic tumors. In addition, growth of leukemic cell lines established from OLIG2/LMO1 transgenic mice was suppressed by a γ-secretase inhibitor, suggesting that Notch1 up-regulation is important for the proliferation of OLIG2-LMO1 leukemic cells
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