Ellen Nordman scite author profile

Next-generation sequencing technology is a powerful tool for transcriptome analysis. However, under certain conditions, only a small amount of material is available, which requires more sensitive techniques that can preferably be used at the single-cell level. Here we describe a single-cell digital gene expression profiling assay. Using our mRNA-Seq assay with only a single mouse blastomere, we detected the expression of 75% (5,270) more genes than microarray techniques and identified 1,753 previously unknown splice junctions called by at least 5 reads. Moreover, 8-19% of the genes with multiple known transcript isoforms expressed at least two isoforms in the same blastomere or oocyte, which unambiguously demonstrated the complexity of the transcript variants at whole-genome scale in individual cells. Finally, for Dicer1(-/-) and Ago2(-/-) (Eif2c2(-/-)) oocytes, we found that 1,696 and 1,553 genes, respectively, were abnormally upregulated compared to wild-type controls, with 619 genes in common.

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Tracing the Derivation of Embryonic Stem Cells from the Inner Cell Mass by Single-Cell RNA-Seq Analysis

Tang

et al. 2010

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SummaryDuring the transition from the inner cell mass (ICM) cells of blastocysts to pluripotent embryonic stem cells (ESCs) in vitro, a normal developmental program is replaced in cells that acquire a capacity for infinite self-renewal and pluripotency. We explored the underlying mechanism of this switch by using RNA-Seq transcriptome analysis at the resolution of single cells. We detected significant molecular transitions and major changes in transcript variants, which include genes for general metabolism. Furthermore, the expression of repressive epigenetic regulators increased with a concomitant decrease in gene activators that might be necessary to sustain the inherent plasticity of ESCs. Furthermore, we detected changes in microRNAs (miRNAs), with one set that targets early differentiation genes while another set targets pluripotency genes to maintain the unique ESC epigenotype. Such genetic and epigenetic events may contribute to a switch from a normal developmental program in adult cells during the formation of diseased tissues, including cancers.

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RNA-Seq analysis to capture the transcriptome landscape of a single cell

et al. 2010

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We describe here a protocol for digital transcriptome analysis in a single mouse oocyte and blastomere using a deep-sequencing approach. In this method, individual cells are isolated and transferred into lysate buffer by mouth pipette, followed by reverse transcription carried out directly on the whole cell lysate. Free primers are removed by exonuclease I and a poly(A) tail is added to the 3' end of the first-strand cDNAs by terminal deoxynucleotidyl transferase. Single-cell cDNAs are then amplified by 20 + 9 cycles of PCR. The resulting 100-200 ng of amplified cDNAs are used to construct a sequencing library, which can be used for deep sequencing using the SOLiD system. Compared with cDNA microarray techniques, our assay can capture up to 75% more genes expressed in early embryos. This protocol can generate deep-sequencing libraries for 16 single-cell samples within 6 d.

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Deterministic and Stochastic Allele Specific Gene Expression in Single Mouse Blastomeres

et al. 2011

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Stochastic and deterministic allele specific gene expression (ASE) might influence single cell phenotype, but the extent and nature of the phenomenon at the onset of early mouse development is unknown. Here we performed single cell RNA-Seq analysis of single blastomeres of mouse embryos, which revealed significant changes in the transcriptome. Importantly, over half of the transcripts with detectable genetic polymorphisms exhibit ASE, most notably, individual blastomeres from the same two-cell embryo show similar pattern of ASE. However, about 6% of them exhibit stochastic expression, indicated by altered expression ratio between the two alleles. Thus, we demonstrate that ASE is both deterministic and stochastic in early blastomeres. Furthermore, we also found that 1,718 genes express two isoforms with different lengths of 3′UTRs, with the shorter one on average 5–6 times more abundant in early blastomeres compared to the transcripts in epiblast cells, suggesting that microRNA mediated regulation of gene expression acquires increasing importance as development progresses.

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Tumor endothelium selectively supports binding of IL-2-propagated tumor-infiltrating lymphocytes.

Salmi¹,

Grénman²,

Grénman³

et al. 1995

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Entrance of activated T cells into the tumor after adoptive transfer is a prerequisite for the efficacy of this form of immunotherapy. Because lymphocyte binding to vascular endothelium is the critical step in which lymphocyte extravasation into the tissue is controlled, we compared adhesion of tumor-infiltrating lymphocytes (TIL) to endothelial cells in tumors, peripheral lymph nodes, mucosa-associated lymphatic tissues, and inflamed synovium. Simultaneously, expression of the known homing-associated Ags both on TIL and tumor vasculature was analyzed. All TIL strongly expressed alpha 4-integrins, LFA-1 and CD44, whereas only a low level of L-selectin expression was detected. Tumor vasculature showed signs of activation in each patient on the basis of elevated levels of intercellular adhesion molecule-1, E-selectin, vascular cell adhesion molecule-1, and/or peripheral lymph node addressin (PNAd). TIL showed significantly enhanced binding to tumor vasculature in comparison with other endothelial specificities. Increased binding was not markedly due to up-regulation of the inflammation-induced endothelial cell adhesion molecules in tumors, because binding to inflamed synovium that expressed the same adhesion molecules was not enhanced. In summary, TIL show preferential binding to tumor vasculature and the binding is partially mediated by currently unknown mechanisms. In vitro analysis of endothelial cell binding properties may help to identify those TIL populations that will have the best potential to home back to tumor tissue after adoptive transfer.

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Ellen Nordman

mRNA-Seq whole-transcriptome analysis of a single cell

Tracing the Derivation of Embryonic Stem Cells from the Inner Cell Mass by Single-Cell RNA-Seq Analysis

RNA-Seq analysis to capture the transcriptome landscape of a single cell

Deterministic and Stochastic Allele Specific Gene Expression in Single Mouse Blastomeres

Tumor endothelium selectively supports binding of IL-2-propagated tumor-infiltrating lymphocytes.

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