技术资料

Membrane potential (Vmem) is a key bioelectric property of non-excitable cells that plays important roles in regulating cell proliferation. However,the regulation of Vmem itself remains largely unexplored. We found that,under nutrient starvation,during which cell division is inhibited,MKN45 gastric cancer cells were in a hyperpolarized state associated with a high intracellular chloride concentration. AMP-activated protein kinase (AMPK) activity increased,and expression of cystic fibrosis transmembrane conductance regulator (CFTR) decreased,in nutrient-starved cells. Furthermore,the increase in intracellular chloride concentration level and Vmem hyperpolarization in nutrient-starved cells was suppressed by inhibition of AMPK activity. Intracellular chloride concentrations and hyperpolarization increased after over-activation of AMPK using the specific activator AICAR or suppression of CFTR activity using specific inhibitor GlyH-101. Under these conditions,proliferation of MKN45 cells was inhibited. These results reveal that AMPK controls the dynamic change in Vmem by regulating CFTR and influencing the intracellular chloride concentration,which in turn influences cell-cycle progression. These findings offer new insights into the mechanisms underlying cell-cycle arrest regulated by AMPK and CFTR. View Publication

Dendritic cells (DC) play an essential role in innate immunity and radiation-elicited immune responses. LGP2 is a RIG-I like receptor (RLR) involved in cytoplasmic RNA recognition and anti-viral responses. Although LGP2 has also been linked to cell survival of both tumor cells and T cells,the role of LGP2 in mediating DC function and anti-tumor immunity elicited by radiotherapy remains unclear. Here we report that tumor DC are linked to the clinical outcome of breast cancer patients who received radiotherapy (RT) and the presence of DC correlates with gene expression of LGP2 in the tumor microenvironment. In preclinical models,host LGP2 was essential for optimal anti-tumor control by ionizing radiation (IR). The absence of LGP2 in DC dampened type I interferon production and the priming capacity of DC. In the absence of LGP2,MDA5-mediated activation of type I IFN signaling was abrogated. The MDA5/LGP2 agonist high molecular weight poly I: C improved the anti-tumor effect of IR. This study reveals a previously undefined role of LGP2 in host immunity and provides a new strategy to improve the efficacy of radiotherapy. View Publication

Human embryonic stem cell-derived beta cells offer a promising cell-based therapy for diabetes. However,efficient stem cell to beta cell differentiation has proven difficult,possibly due to the lack of cross-talk with the appropriate mesenchymal niche. To define organ-specific niche signals,we isolated pancreatic and gastrointestinal stromal cells,and analyzed their gene expression during development. Our genetic studies reveal the importance of tightly regulated Hedgehog signaling in the pancreatic mesenchyme: inactivation of mesenchymal signaling leads to annular pancreas,whereas stroma-specific activation of signaling via loss of Hedgehog regulators,Sufu and Spop,impairs pancreatic growth and beta cell genesis. Genetic rescue and transcriptome analyses show that these Sufu and Spop knockout defects occur through Gli2-mediated activation of gastrointestinal stromal signals such as Wnt ligands. Importantly,inhibition of Wnt signaling in organoid and human stem cell cultures significantly promotes insulin-producing cell generation,altogether revealing the requirement for organ-specific regulation of stromal niche signals. View Publication

Respiratory syncytial virus (RSV) is increasingly recognized for causing severe morbidity and mortality in older adults,but there are few studies on the RSV-induced immune response in this population. Information on the immunological processes at play during RSV infection in specific risk groups is essential for the rational and targeted design of novel vaccines and therapeutics. Here,we assessed the antibody and local cytokine response to RSV infection in community-dwelling older adults (≥60 years of age). During three winters,serum and nasopharyngeal swab samples were collected from study participants during acute respiratory infection and recovery. RSV IgG enzyme-linked immunosorbent assays (ELISA) and virus neutralization assays were performed on serum samples from RSV-infected individuals (n = 41) and controls (n = 563 and n = 197,respectively). Nasal RSV IgA and cytokine concentrations were determined using multiplex immunoassays in a subset of participants. An in vitro model of differentiated primary bronchial epithelial cells was used to assess RSV-induced cytokine responses over time. A statistically significant increase in serum neutralization titers and IgG concentrations was observed in RSV-infected participants compared to controls. During acute RSV infection,a statistically significant local upregulation of beta interferon (IFN-$\beta$),IFN-$\lambda$1,IFN-$\gamma$,interleukin 1$\beta$ (IL-1$\beta$),tumor necrosis factor alpha (TNF-$\alpha$),IL-6,IL-10,CXCL8,and CXCL10 was found. IFN-$\beta$,IFN-$\lambda$1,CXCL8,and CXCL10 were also upregulated in the epithelial model upon RSV infection. In conclusion,this study provides novel insights into the basic immune response to RSV infection in an important and understudied risk population,providing leads for future studies that are essential for the prevention and treatment of severe RSV disease in older adults.IMPORTANCE Respiratory syncytial virus (RSV) can cause severe morbidity and mortality in certain risk groups,especially infants and older adults. Currently no (prophylactic) treatment is available,except for a partially effective yet highly expensive monoclonal antibody. RSV therefore remains a major public health concern. To allow targeted development of novel vaccines and therapeutics,it is of great importance to understand the immunological mechanisms that underlie (protection from) severe disease in specific risk populations. Since most RSV-related studies focus on infants,there are only very limited data available concerning the response to RSV in the elderly population. Therefore,in this study,RSV-induced antibody responses and local cytokine secretion were assessed in community-dwelling older adults. These data provide novel insights that will benefit ongoing efforts to design safe and effective prevention and treatment strategies for RSV in an understudied risk group. View Publication

Cyst expansion in polycystic kidney disease (PKD) involves progressive fluid accumulation,which is believed to require chloride transport by the cystic fibrosis transmembrane conductance regulator (CFTR) protein. Herein is reported that small-molecule CFTR inhibitors of the thiazolidinone and glycine hydrazide classes slow cyst expansion in in vitro and in vivo models of PKD. More than 30 CFTR inhibitor analogs were screened in an MDCK cell model,and near-complete suppression of cyst growth was found by tetrazolo-CFTR(inh)-172,a tetrazolo-derived thiazolidinone,and Ph-GlyH-101,a phenyl-derived glycine hydrazide,without an effect on cell proliferation. These compounds also inhibited cyst number and growth by {\textgreater}80{\%} in an embryonic kidney cyst model involving 4-d organ culture of embryonic day 13.5 mouse kidneys in 8-Br-cAMP-containing medium. Subcutaneous delivery of tetrazolo-CFTR(inh)-172 and Ph-GlyH-101 to neonatal,kidney-specific PKD1 knockout mice produced stable,therapeutic inhibitor concentrations of {\textgreater}3 microM in urine and kidney tissue. Treatment of mice for up to 7 d remarkably slowed kidney enlargement and cyst expansion and preserved renal function. These results implicate CFTR in renal cyst growth and suggest that CFTR inhibitors may hold therapeutic potential to reduce cyst growth in PKD. View Publication

IDH1 and IDH2 mutations occur frequently in gliomas and acute myeloid leukemia,leading to simultaneous loss and gain of activities in the production of $\alpha$-ketoglutarate ($\alpha$-KG) and 2-hydroxyglutarate (2-HG),respectively. Here we demonstrate that 2-HG is a competitive inhibitor of multiple $\alpha$-KG-dependent dioxygenases,including histone demethylases and the TET family of 5-methlycytosine (5mC) hydroxylases. 2-HG occupies the same space as $\alpha$-KG does in the active site of histone demethylases. Ectopic expression of tumor-derived IDH1 and IDH2 mutants inhibits histone demethylation and 5mC hydroxylation. In glioma,IDH1 mutations are associated with increased histone methylation and decreased 5-hydroxylmethylcytosine (5hmC). Hence,tumor-derived IDH1 and IDH2 mutations reduce $\alpha$-KG and accumulate an $\alpha$-KG antagonist,2-HG,leading to genome-wide histone and DNA methylation alterations. View Publication

Immunotherapy is innovating clinical cancer management. Nevertheless,only a small fraction of patient's benefit from current immunotherapies. To improve clinical management of cancer immunotherapy,it is critical to develop strategies for response monitoring and prediction. In this study,we describe inducible T-cell costimulator (ICOS) as a conserved mediator of immune response across multiple therapy strategies. ICOS expression was evaluated by flow cytometry,89Zr-DFO-ICOS mAb PET/CT imaging was performed on Lewis lung cancer models treated with different immunotherapy strategies,and the change in tumor volume was used as a read-out for therapeutic response. ImmunoPET imaging of ICOS enabled sensitive and specific detection of activated T cells and early benchmarking of immune response. A STING (stimulator of interferon genes) agonist was identified as a promising therapeutic approach in this manner. The STING agonist generated significantly stronger immune responses as measured by ICOS ImmunoPET and delayed tumor growth compared with programmed death-1 checkpoint blockade. More importantly,ICOS ImmunoPET enabled early and robust prediction of therapeutic response across multiple treatment regimens. These data show that ICOS is an indicator of T-cell-mediated immune response and suggests ICOS ImmunoPET as a promising strategy for monitoring,comparing,and predicting immunotherapy success in cancer. SIGNIFICANCE: ICOS ImmunoPET is a promising strategy to noninvasively predict and monitor immunotherapy response.See related commentary by Choyke,p. 2975. View Publication

Expression of BAX,without another death stimulus,proved sufficient to induce a common pathway of apoptosis. This included the activation of interleukin 1 beta-converting enzyme (ICE)-like proteases with cleavage of the endogenous substrates poly(ADP ribose) polymerase and D4-GDI (GDP dissociation inhibitor for the rho family),as well as the fluorogenic peptide acetyl-Asp-Glu-Val-Asp-aminotrifluoromethylcoumarin (DEVD-AFC). The inhibitor benzyloxycarbonyl-Val-Ala-Asp-fluoromethyl ketone (zVAD-fmk) successfully blocked this protease activity and prevented FAS-induced death but not BAX-induced death. Blocking ICE-like protease activity prevented the cleavage of nuclear and cytosolic substrates and the DNA degradation that followed BAX induction. However,the fall in mitochondrial membrane potential,production of reactive oxygen species,cytoplasmic vacuolation,and plasma membrane permeability that are downstream of BAX still occurred. Thus,BAX-induced alterations in mitochondrial function and subsequent cell death do not apparently require the known ICE-like proteases. View Publication

Detection and characterization of rare circulating tumor cells (CTCs) in patients' blood is important for the diagnosis and monitoring of cancer. The traditional way of counting CTCs via fluorescent images requires a series of tedious experimental procedures and often impacts the viability of cells. Here we present a method for label-free detection of CTCs from patient blood samples,by taking advantage of data analysis of bright field microscopy images. The approach uses the convolutional neural network,a powerful image classification and machine learning algorithm to perform label-free classification of cells detected in microscopic images of patient blood samples containing white blood cells and CTCs. It requires minimal data pre-processing and has an easy experimental setup. Through our experiments,we show that our method can achieve high accuracy on the identification of rare CTCs without the need for advanced devices or expert users,thus providing a faster and simpler way for counting and identifying CTCs. With more data becoming available in the future,the machine learning model can be further improved and can serve as an accurate and easy-to-use tool for CTC analysis. View Publication

Mammalian target of rapamycin (mTOR) is frequently upregulated in hepatocellular carcinoma (HCC). Blockage of mTOR was found to induce marked reduction in HCC growth in preclinical models. In the present study,we tested a novel mTOR inhibitor,Torin-2,for its antitumor efficacy in HCC cell lines Hep G2,SNU-182 and Hep 3B2.1-7. The HCC cell lines were cultured in vitro. These cells were treated with Torin-2. Cell apoptosis was evaluated by Annexin V staining. Cell proliferation and cell cycle progression were determined by Ki67 staining and propidium iodide staining,respectively. mTOR signaling,autophagy induction and expression of ubiquitin-like containing PHD and RING finger domains 1 (UHRF1) were assessed by western blot analysis. The UHRF1 mRNA level was determined by real-time PCR. We found that Torin-2 effectively suppressed the growth and survival of HCC cell lines,demonstrated by reduced proliferation and a high rate of apoptosis. Further study elucidated that in addition to blocking mTOR complex 1 (mTORC1)-associated cell cycle progression and induction of autophagy,Torin-2 downregulated transcription of UHRF1,an essential regulator of DNA methylation that is highly expressed in HCC cell lines. Consistently,the level of DNA (cytosine-5)-methyltransferase 1 (DNMT1) was higher after treatment of the HCC cell lines with Torin-2. The downregulation of UHRF1 by Torin-1 was partially due to a decrease in the UHRF1 mRNA level. Torin-2 effectively inhibited HCC cell proliferation through induction of autophagy. Torin‑2-induced downregulation of UHRF1 expression may also contribute to its antitumor effect. Our research provides new clues regarding the antitumor effects of Torin-2 and sheds light on a novel therapeutic approach for HCC. View Publication