Ruiming Hu scite author profile

Systematic interrogation of tumor-infiltrating lymphocytes is key to the development of immunotherapies and the prediction of their clinical responses in cancers. Here, we perform deep single-cell RNA sequencing on 5,063 single T cells isolated from peripheral blood, tumor, and adjacent normal tissues from six hepatocellular carcinoma patients. The transcriptional profiles of these individual cells, coupled with assembled T cell receptor (TCR) sequences, enable us to identify 11 T cell subsets based on their molecular and functional properties and delineate their developmental trajectory. Specific subsets such as exhausted CD8 T cells and Tregs are preferentially enriched and potentially clonally expanded in hepatocellular carcinoma (HCC), and we identified signature genes for each subset. One of the genes, layilin, is upregulated on activated CD8 T cells and Tregs and represses the CD8 T cell functions in vitro. This compendium of transcriptome data provides valuable insights and a rich resource for understanding the immune landscape in cancers.

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Exosome-delivered microRNAs modulate the inflammatory response to endotoxin

Alexander

et al. 2015

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MicroRNAs regulate gene expression posttranscriptionally and function within the cells in which they are transcribed. However, recent evidence suggests that microRNAs can be transferred between cells and mediate target gene repression. We find that endogenous miR-155 and miR-146a, two critical microRNAs that regulate inflammation, are released from dendritic cells within exosomes and are subsequently taken up by recipient dendritic cells. Following uptake, exogenous microRNAs mediate target gene repression and can reprogramme the cellular response to endotoxin, where exosome-delivered miR-155 enhances while miR-146a reduces inflammatory gene expression. We also find that miR-155 and miR-146a are present in exosomes and pass between immune cells in vivo, as well as demonstrate that exosomal miR-146a inhibits while miR-155 promotes endotoxin-induced inflammation in mice. Together, our findings provide strong evidence that endogenous microRNAs undergo a functional transfer between immune cells and constitute a mechanism of regulating the inflammatory response.

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Genome-wide transcriptome profiling of homologous recombination DNA repair

et al. 2014

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Homologous recombination (HR) repair deficiency predisposes to cancer development, but also sensitizes cancer cells to DNA-damage-inducing therapeutics. Here we identify an HR-defect (HRD) gene signature, which can be used to functionally assess HR repair status without interrogating individual genetic alterations in cells. By using this HRD gene signature as a functional network analysis tool, we discover that simultaneous loss of two major tumor suppressors BRCA1 and PTEN extensively rewire the HR repair-deficient phenotype, which is found in cells with defects in either BRCA1 or PTEN alone. Moreover, the HRD gene signature serves as an effective drug discovery platform to identify agents targeting HR repair as potential chemo/radio-sensitizers. More importantly, this HRD gene signature is able to predict clinical outcomes across multiple cancer lineages. Our findings, therefore, provide a molecular profile of HR repair to assess its status at a functional network level, which can provide both biological insights and have clinical implications in cancer.

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BRIT1/MCPH1 links chromatin remodelling to DNA damage response

et al. 2009

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To detect and repair damaged DNA, DNA damage response proteins need to overcome the barrier of condensed chromatin to gain access to DNA lesions1. ATP-dependent chromatin remodeling is one of the fundamental mechanisms used by cells to relax chromatin in DNA repair2–3. However, the mechanism mediating their recruitment to DNA lesions remains largely unknown. BRIT1 (also known as MCPH1) is an early DNA damage response protein that is mutated in human primary microcephaly4–8. We report here a previously unknown function of BRIT1 as a regulator of ATP-dependent chromatin remodeling complex SWI/SNF in DNA repair. Upon DNA damage, BRIT1 increases its interaction with SWI/SNF through the ATM/ATR-dependent phosphorylation on the BAF170 subunit. This increase of binding affinity provides a means by which SWI/SNF can be specifically recruited to and maintained at DNA lesions. Loss of BRIT1 causes impaired chromatin relaxation owing to reduced association of SWI/SNF with chromatin. This explains the decreased recruitment of repair proteins to DNA lesions and reduced efficiency of repair in BRIT1-deficient cells, resulting in impaired survival from DNA damage. Our findings, therefore, identify BRIT1 as a key molecule that links chromatin remodeling with DNA damage response in the control of DNA repair, and its dysfunction contributes to human disease.

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Rak Functions as a Tumor Suppressor by Regulating PTEN Protein Stability and Function

et al. 2009

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Summary Expression of PTEN tumor suppressor is frequently lost in breast cancer in the absence of mutation or promoter methylation through as yet undetermined mechanisms. In this study, we demonstrated that the Rak tyrosine kinase physically interacts with PTEN and phosphorylates PTEN on Tyr 336. The knockdown of Rak enhanced the binding of PTEN to its E3 ligase, NEDD4-1, and promoted PTEN polyubiquitination, leading to PTEN protein degradation. Notably, ectopic expression of Rak effectively suppressed breast cancer cell proliferation, invasion, and colony formation in vitro and tumor growth in vivo. Furthermore, Rak knockdown was sufficient to transform normal mammary epithelial cells. Therefore, Rak acts as a bona fide tumor suppressor gene through the mechanism of regulating PTEN protein stability and function.

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Ruiming Hu

Landscape of Infiltrating T Cells in Liver Cancer Revealed by Single-Cell Sequencing

Exosome-delivered microRNAs modulate the inflammatory response to endotoxin

Genome-wide transcriptome profiling of homologous recombination DNA repair

BRIT1/MCPH1 links chromatin remodelling to DNA damage response

Rak Functions as a Tumor Suppressor by Regulating PTEN Protein Stability and Function

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