Chao Yang scite author profile

Natural killer (NK) cells are the predominant innate lymphocyte subsets that mediate anti-tumor and anti-viral responses, and therefore possess promising clinical utilization. NK cells do not express polymorphic clonotypic receptors and utilize inhibitory receptors (killer immunoglobulin-like receptor and Ly49) to develop, mature, and recognize “self” from “non-self.” The essential roles of common gamma cytokines such as interleukin (IL)-2, IL-7, and IL-15 in the commitment and development of NK cells are well established. However, the critical functions of pro-inflammatory cytokines IL-12, IL-18, IL-27, and IL-35 in the transcriptional-priming of NK cells are only starting to emerge. Recent studies have highlighted multiple shared characteristics between NK cells the adaptive immune lymphocytes. NK cells utilize unique signaling pathways that offer exclusive ways to genetically manipulate to improve their effector functions. Here, we summarize the recent advances made in the understanding of how NK cells develop, mature, and their potential translational use in the clinic.

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Heterogeneity of human bone marrow and blood natural killer cells defined by single-cell transcriptome

Yang

et al. 2019

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Natural killer (NK) cells are critical to both innate and adaptive immunity. However, the development and heterogeneity of human NK cells are yet to be fully defined. Using single-cell RNA-sequencing technology, here we identify distinct NK populations in human bone marrow and blood, including one population expressing higher levels of immediate early genes indicative of a homeostatic activation. Functionally matured NK cells with high expression of CX3CR1 , HAVCR2 (TIM-3), and ZEB2 represents terminally differentiated status with the unique transcriptional profile. Transcriptomic and pseudotime analyses identify a transitional population between CD56 bright and CD56 dim NK cells. Finally, a donor with GATA2 T354M mutation exhibits reduced percentage of CD56 bright NK cells with altered transcriptome and elevated cell death. These data expand our understanding of the heterogeneity and development of human NK cells.

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The CRISPR‐Cas13a Gene‐Editing System Induces Collateral Cleavage of RNA in Glioma Cells

et al. 2019

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RNA is rarely used as a therapeutic target due to its flexible structure and instability. CRISPR‐Cas13a is a powerful tool for RNA knockdown, and the potential application of CRISPR‐Cas13a in cancer cells should be further studied. In this study, overexpression of LwCas13a by lentivirus in glioma cells reveals that crRNA‐EGFP induces a “collateral effect” after knocking down the target gene in EGFP‐expressing cells. EGFRvIII is a unique EGFR mutant subtype in glioma, and the CRISPR‐Cas13a system induces death in EGFRvIII‐overexpressing glioma cells. Bulk and single‐cell RNA sequencing analysis in U87‐Cas13a‐EGFRvIII cells confirm the collateral effect of the CRISPR‐Cas13a system. Furthermore, CRISPR‐Cas13a inhibits the formation of glioma intracranial tumors in mice. The results demonstrate the collateral effect of the CRISPR‐Cas13a system in cancer cells and the powerful tumor‐eliminating potential of this system.

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Competing endogenous RNA networks in human cancer: hypothesis, validation, and perspectives

et al. 2016

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Non-coding RNAs represent a majority of the human transcriptome. However, less is known about the functions and regulatory mechanisms of most non-coding species. Moreover, little is known about the potential non-coding functions of coding RNAs. The competing endogenous RNAs (ceRNAs) hypothesis is proposed recently. This hypothesis describes potential communication networks among all transcript RNA species mediated by miRNAs and miRNA-recognizing elements (MREs) within RNA transcripts. Here we review the evolution of the ceRNA hypothesis, summarize the validation experiments and discusses the significance and perspectives of this hypothesis in human cancer.

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BATF and IRF4 cooperate to counter exhaustion in tumor-infiltrating CAR T cells

et al. 2021

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The transcription factors nuclear factor of activated T cells (NFAT) and activator protein 1 (AP-1; Fos-Jun) cooperate to promote the effector functions of T cells, but NFAT in the absence of AP-1 imposes a negative feedback program of T cell hyporesponsiveness (exhaustion). Here, we show that basic leucine zipper ATF-like transcription factor (BATF) and interferon regulatory factor 4 (IRF4) cooperate to counter T cell exhaustion in mouse tumor models. Overexpression of BATF in CD8 + T cells expressing a chimeric antigen receptor (CAR) promoted the survival and expansion of tumor-infiltrating CAR T cells, increased the production of effector cytokines, decreased the expression of inhibitory receptors and the exhaustion-associated transcription factor TOX and supported the generation of long-lived memory T cells that controlled tumor recurrence. These responses were dependent on BATF-IRF interaction, since cells expressing a BATF variant unable to interact with IRF4 did not survive in tumors and did not effectively delay tumor growth. BATF may improve the antitumor responses of CAR T cells by skewing their phenotypes and transcriptional profiles away from exhaustion and towards increased effector function.

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cGAS-STING–mediated DNA sensing maintains CD8 ⁺ T cell stemness and promotes antitumor T cell therapy

et al. 2020

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Although cGAS-STING–mediated DNA sensing in tumor cells or phagocytes is central for launching antitumor immunity, the role of intrinsic cGAS-STING activation in T cells remains unknown. Here, we observed that peripheral blood CD8+ T cells from patients with cancer showed remarkably compromised expression of the cGAS-STING cascade. We demonstrated that the cGAS-STING cascade in adoptively transferred CD8+ T cells was essential for antitumor immune responses in the context of T cell therapy in mice. Mechanistically, cell-autonomous cGAS and STING promoted the maintenance of stem cell–like CD8+ T cells, in part, by regulating the transcription factor TCF1 expression. Moreover, autocrine cGAS-STING–mediated type I interferon signaling augmented stem cell–like CD8+ T cell differentiation program mainly by restraining Akt activity. In addition, genomic DNA was selectively enriched in the cytosol of mouse CD8+ T cells upon in vitro and in vivo stimulation. STING agonism enhanced the formation of stem-like central memory CD8+ T cells from patients with cancer and potentiated antitumor responses of CAR-T cell therapy in a xenograft model. These findings advance our understanding of inherent cGAS-STING activation in T cells and provide insight into the development of improved T cell therapy by harnessing the cGAS-STING pathway for cancer immunotherapy.

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Whole-genome sequencing reveals novel tandem-duplication hotspots and a prognostic mutational signature in gastric cancer

Xing

Zhou

et al. 2019

Nat Commun

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Genome-wide analysis of genomic signatures might reveal novel mechanisms for gastric cancer (GC) tumorigenesis. Here, we analysis structural variations (SVs) and mutational signatures via whole-genome sequencing of 168 GCs. Our data demonstrates diverse models of complex SVs operative in GC, which lead to high-level amplification of oncogenes. We find varying proportion of tandem-duplications (TDs) among individuals and identify 24 TD hotspots involving well-established cancer genes such as CCND1, ERBB2 and MYC . Specifically, we nominate a novel hotspot involving the super-enhancer of ZFP36L2 presents in approximately 10% GCs from different cohorts, the oncogenic role of which is further confirmed by experimental data. In addition, our data reveal a mutational signature, specifically occurring in noncoding region, significantly enriched in tumors with cadherin 1 mutations, and associated with poor prognoses. Collectively, our data suggest that TDs might serve as an important mechanism for cancer gene activation and provide a novel signature for stratification.

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ZBP1-MLKL necroptotic signaling potentiates radiation-induced antitumor immunity via intratumoral STING pathway activation

Yang

Cao

et al. 2021

Sci. Adv.

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Chao Yang

Natural Killer Cells: Development, Maturation, and Clinical Utilization

Heterogeneity of human bone marrow and blood natural killer cells defined by single-cell transcriptome

The CRISPR‐Cas13a Gene‐Editing System Induces Collateral Cleavage of RNA in Glioma Cells

Competing endogenous RNA networks in human cancer: hypothesis, validation, and perspectives

BATF and IRF4 cooperate to counter exhaustion in tumor-infiltrating CAR T cells

cGAS-STING–mediated DNA sensing maintains CD8 ⁺ T cell stemness and promotes antitumor T cell therapy

Whole-genome sequencing reveals novel tandem-duplication hotspots and a prognostic mutational signature in gastric cancer

ZBP1-MLKL necroptotic signaling potentiates radiation-induced antitumor immunity via intratumoral STING pathway activation

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Chao Yang

Natural Killer Cells: Development, Maturation, and Clinical Utilization

Heterogeneity of human bone marrow and blood natural killer cells defined by single-cell transcriptome

The CRISPR‐Cas13a Gene‐Editing System Induces Collateral Cleavage of RNA in Glioma Cells

Competing endogenous RNA networks in human cancer: hypothesis, validation, and perspectives

BATF and IRF4 cooperate to counter exhaustion in tumor-infiltrating CAR T cells

cGAS-STING–mediated DNA sensing maintains CD8 + T cell stemness and promotes antitumor T cell therapy

Whole-genome sequencing reveals novel tandem-duplication hotspots and a prognostic mutational signature in gastric cancer

ZBP1-MLKL necroptotic signaling potentiates radiation-induced antitumor immunity via intratumoral STING pathway activation

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Product

Resources

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cGAS-STING–mediated DNA sensing maintains CD8 ⁺ T cell stemness and promotes antitumor T cell therapy