技术资料

Human induced pluripotent stem cells (iPSC) have the potential to radically reduce the number of animals used in both toxicological science and disease elucidation. One initial obstacle culturing iPSC is that they require daily medium exchange. This study attempts to clarify why and propose some practical solutions. Two iPSC lineages were fed at different intervals in a full growth area (FGA) or a restricted growth area (RGA). The FGA consisted of a well coated with Matrigel™ and the RGA consisted of a coated coverslip placed in a well. Glucose,lactate,extracellular pH and cell cycle phases were quantified. Without daily feeding,FGA cultured iPSC had significantly reduced growth rates by day 2 and began to die by day 3. In contrast,RGA cultured cells grew to confluence over 3 days. Surprisingly,glucose was not exhausted under any condition. However,extracellular pH reached 6.8 after 72 h in FGA cultures. Artificially reducing medium pH to 6.8 also inhibited glycolysis and initiated an increase in G0/G1 phase of the cell cycle,while adding an additional 10 mM bicarbonate to the medium increased glycolysis rates. This study demonstrates that iPSC are highly sensitive to extracellular acidification,a likely limiting factor in maintenance of proliferative and pluripotent status. Culturing iPSC in RGA prevents rapid extracellular acidification,while still maintaining pluripotency and allowing longer feeding cycles. View Publication

Chronic lymphocytic leukemia/small lymphocytic lymphoma (CLL/SLL) is a low-grade B-cell neoplasm and ∼2{\%} to 9{\%} patients develop an aggressive lymphoma,most commonly diffuse large B-cell lymphoma (Richter transformation,DLBCL-RT). Programmed death-1 (PD-1) pathway plays a crucial role in tumor host immunity evasion and its blockade has emerged as an effective anti-cancer immunotherapy. PD-L1 and PD-1 expression has shown predictive value in anti-PD cancer immunotherapy; however,it has not been well documented in CLL/SLL and DLBCL-RT. We evaluated PD-1 and PD-L1 expression by immunohistochemistry in 39 CLL/SLL,15 DLBCL-RT,and 26 other DLBCL. In CLL/SLL,neoplastic B-cell PD-1 expression was weak and restricted to prolymphocytes/paraimmunoblasts within proliferation centers (PCs) and accentuated PCs of all sizes. Neoplastic B-cell PD-1 expression was highly prevalent and demonstrated increased intensity in DLBCL-RT,but in contrast was only rarely seen in other DLBCL (12/15 vs. 1/26; P{\textless}0.0001). An excellent correlation (90{\%} concordance) was observed between neoplastic B-cell PD-1 immunohistochemistry positivity and molecularly defined CLL/SLL clonal relatedness in DLBCL-RT. PD-L1 expression was observed on the neoplastic B cells in rare DLBCL-RT and other DLBCL cases (1/15 vs. 1/26; P{\textgreater}0.05) as well as background histiocytes and dendritic cells. Overall survival of DLBCL-RT was significantly inferior to that of the other DLBCL (median,16.9 vs. 106.1 mo; P=0.002). Our findings suggest a biological continuum from prolymphocytes/paraimmunoblasts in CLL/SLL PCs to the neoplastic B-cells in DLBCL-RT. The characteristic PD-1 expression in DLBCL-RT makes it a potential surrogate marker for determining clonal relatedness to CLL/SLL,which may have important prognostic and therapeutic implications. View Publication

Cattle are an economically important domestic animal species. In vitro 2D cultures of intestinal epithelial cells or epithelial cell lines have been widely used to study cell function and host-pathogen interactions in the bovine intestine. However,these cultures lack the cellular diversity encountered in the intestinal epithelium,and the physiological relevance of monocultures of transformed cell lines is uncertain. Little is also known of the factors that influence cell differentiation and homeostasis in the bovine intestinal epithelium,and few cell-specific markers that can distinguish the different intestinal epithelial cell lineages have been reported. Here we describe a simple and reliable procedure to establish in vitro 3D enteroid,or mini gut" cultures from bovine small intestinal (ileal) crypts. These enteroids contained a continuous central lumen lined with a single layer of polarized enterocytes bound by tight junctions with abundant microvilli on their apical surfaces. Histological and transcriptional analyses suggested that the enteroids comprised a mixed population of intestinal epithelial cell lineages including intestinal stem cells enterocytes Paneth cells goblet cells and enteroendocrine cells. We show that bovine enteroids can be successfully maintained long-term through multiple serial passages without observable changes to their growth characteristics morphology or transcriptome. Furthermore the bovine enteroids can be cryopreserved and viable cultures recovered from frozen stocks. Our data suggest that these 3D bovine enteroid cultures represent a novel physiologically-relevant and tractable in vitro system in which epithelial cell differentiation and function and host-pathogen interactions in the bovine small intestine can be studied." View Publication

Hematopoietic stem/progenitor cells (HSPC) are characterized by their unique capacities of self-renewal and multi-differentiation potential. This second property makes them able to adapt their differentiation profile depending on the local environment they reach. Taking advantage of an animal model of peritonitis,induced by injection of the TLR-2 ligand,zymosan,we sought to study the relationship between bone marrow-derived hematopoietic stem/progenitor cells (BM-HSPCs) and innate lymphoid cells (ILCs) regarding their emergence and differentiation at the site of inflammation. Our results demonstrate that the strength of the inflammatory signals affects the capacity of BM-derived HSPCs to migrate and give rise in situ to ILCs. Both low- and high-dose of zymosan injections trigger the appearance of mature ILCs in the peritoneal cavity where the inflammation occurs. Herein,we show that only in low-dose injected mice,the recovered ILCs are dependent on an in situ differentiation of BM-derived HSPCs and/or ILC2 precursors (ILC2P) wherein high-dose,the stronger inflammatory environment seems to be able to induce the emergence of ILCs independently of BM-derived HSPCs. We suggest that a relationship between HSPCs and ILCs seems to be affected by the strength of the inflammatory stimuli opening new perspectives in the manipulation of these early hematopoietic cells. View Publication

Background: B cells play an important role in the development and maintenance of rheumatoid arthritis (RA). Although IL-10-producing B cells represent a major subset of regulatory B cells (Bregs) able to suppress autoimmune and inflammatory responses,recent reports showed that B cell-mediated immune suppression may also occur independent of IL-10. For instance,B cells can modulate T cell immune responses through the expression of regulatory molecules such as PD-L1. So far,PD-L1-expressing B cells have not been analyzed in RA patients. Objective: To analyze the frequency of PD-L1-expressing B cells in the peripheral blood of RA patients compared to healthy controls (HC) matched for sex and age,their function on T cell response and their changes in response to therapy. Methods: Fresh peripheral blood B cells from RA patients and HC were characterized by flow cytometry and their functionality assessed in a co-culture system with autologous T cells. Results: The frequencies of CD19+PD-L1+ B cells,CD24hiCD38-PD-L1+ and CD24hiCD38hiPD-L1+ B cells were significantly lower in untreated RA patients than in HC. In a follow-up study,the frequencies of PD-L1+ B cells (CD19+PD-L1+ B cells,CD24hiCD38-PD-L1+ and CD24hiCD38hiPD-L1+ B cells) increased significantly after treatment in good responder patients,although the frequency of total CD24hiCD38hi B cells decreased. CD19+ B cells from untreated RA patients and HC upregulated PD-L1 expression similarly upon stimulation with CpG plus IL-2 and were able to suppress,in vitro,CD8+ T cell proliferation and cytokine production in a PD-L1-dependent manner. Conclusions: Our results show that PD-L1+ B cells exhibiting T cell suppressive capacity are significantly decreased in untreated RA patients but increase in response to successful treatment. PD-L1 expression on B cells from RA patients can be modulated in vitro and PD-L1+ B cells could thus provide new perspectives for future treatment strategies. View Publication

Preventing the immune escape of tumor cells by blocking inhibitory checkpoints,such as the interaction between programmed death ligand-1 (PD-L1) and programmed death-1 (PD-1) receptor,is a powerful anticancer approach. However,many patients do not respond to checkpoint blockade. Tumor PD-L1 expression is a potential efficacy biomarker,but the complex mechanisms underlying its regulation are not completely understood. Here,we show that the eukaryotic translation initiation complex,eIF4F,which binds the 5' cap of mRNAs,regulates the surface expression of interferon-$\gamma$-induced PD-L1 on cancer cells by regulating translation of the mRNA encoding the signal transducer and activator of transcription 1 (STAT1) transcription factor. eIF4F complex formation correlates with response to immunotherapy in human melanoma. Pharmacological inhibition of eIF4A,the RNA helicase component of eIF4F,elicits powerful antitumor immune-mediated effects via PD-L1 downregulation. Thus,eIF4A inhibitors,in development as anticancer drugs,may also act as cancer immunotherapies. View Publication

We examined the unique contributions of the cytokines IL-21 and IL-4 on germinal center (GC) B cell initiation and subsequent maturation in a murine model system. Similar to other reports,we found T follicular helper cell expression of IL-21 begins prior to T follicular helper cell migration into the B cell follicle and precedes that of IL-4. Consistent with this timing,IL-21 signaling has a greater influence on the perifollicular pre-GC B cell transition to the intrafollicular stage. Notably,Bcl6hi B cells can form in the combined absence of IL-21R- and STAT6-derived signals; however,these nascent GC B cells cease to proliferate and are more prone to apoptosis. When B cells lack either IL-21R or STAT6,aberrant GCs form atypical centroblasts and centrocytes that differ in their phenotypic maturation and costimulatory molecule expression. Thus,IL-4 and IL-21 play nonredundant roles in the phased progression of GC B cell development that can initiate in the combined absence of these cytokine signals. View Publication

Natural killer (NK) cell recognition of tumor cells is mediated through activating receptors such as CD226,with suppression of effector functions often controlled by negative regulatory transcription factors such as FOXO1. Here we show that CD226 regulation of NK cell cytotoxicity is facilitated through inactivation of FOXO1. Gene-expression analysis of NK cells isolated from syngeneic tumors grown in wild-type or CD226-deficient mice revealed dysregulated expression of FOXO1-regulated genes in the absence of CD226. In vitro cytotoxicity and stimulation assays demonstrated that CD226 is required for optimal killing of tumor target cells,with engagement of its ligand CD155 resulting in phosphorylation of FOXO1. CD226 deficiency or anti-CD226 antibody blockade impaired cytotoxicity with concomitant compromised inactivation of FOXO1. Furthermore,inhibitors of FOXO1 phosphorylation abrogated CD226-mediated signaling and effector responses. These results define a pathway by which CD226 exerts control of NK cell responses against tumors. View Publication

Chronic hepatitis C virus (HCV) infection causes generalized CD8+ T cell impairment,not limited to HCV-specific CD8+ T-cells. Liver-infiltrating monocyte-derived macrophages (MDMs) contribute to the local micro-environment and can interact with and influence cells routinely trafficking through the liver,including CD8+ T-cells. MDMs can be polarized into M1 (classically activated) and M2a,M2b,and M2c (alternatively activated) phenotypes that perform pro- and anti-inflammatory functions,respectively. The impact of chronic HCV infection on MDM subset functions is not known. Our results show that M1 cells generated from chronic HCV patients acquire M2 characteristics,such as increased CD86 expression and IL-10 secretion,compared to uninfected controls. In contrast,M2 subsets from HCV-infected individuals acquired M1-like features by secreting more IL-12 and IFN-gamma. The severity of liver disease was also associated with altered macrophage subset differentiation. In co-cultures with autologous CD8+ T-cells from controls,M1 macrophages alone significantly increased CD8+ T cell IFN-gamma expression in a cytokine-independent and cell-contact-dependent manner. However,M1 macrophages from HCV-infected individuals significantly decreased IFN-gamma expression in CD8+ T-cells. Therefore,altered M1 macrophage differentiation in chronic HCV infection may contribute to observed CD8+ T-cell dysfunction. Understanding the immunological perturbations in chronic HCV infection will lead to the identification of therapeutic targets to restore immune function in HCV+ individuals,and aid in the mitigation of associated negative clinical outcomes. View Publication

Pathobiology of several chronic inflammatory disorders,including ulcerative colitis and Crohn's disease is related to intermittent,spontaneous injury/ulceration of mucosal surfaces. Disease morbidity has been associated with pathologic release of the pro-inflammatory cytokine tumor necrosis factor alpha (TNFalpha). In this report,we show that TNFalpha promotes intestinal mucosal repair through upregulation of the GPCR platelet activating factor receptor (PAFR) in the intestinal epithelium. Platelet activating factor (PAF) was increased in healing mucosal wounds and its engagement with epithelial PAFR leads to activation of epidermal growth factor receptor,Src and Rac1 signaling to promote wound closure. Consistent with these findings,delayed colonic mucosal repair was observed after administration of a neutralizing TNFalpha antibody and in mice lacking PAFR. These findings suggest that in the injured mucosa,the pro-inflammatory milieu containing TNFalpha and PAF sets the stage for reparative events mediated by PAFR signaling. View Publication

Multiple myeloma (MM) is a tumor of plasma cells (PCs). Due to the intense immunoglobulin secretion,PCs are prone to endoplasmic reticulum stress and activate several stress-managing pathways,including autophagy. Indeed,autophagy deregulation is maladaptive for MM cells,resulting in cell death. CK1alpha,a pro-survival kinase in MM,has recently been involved as a regulator of the autophagic flux and of the transcriptional competence of the autophagy-related transcription factor FOXO3a in several cancers. In this study,we investigated the role of CK1alpha in autophagy in MM. To study the autophagic flux we generated clones of MM cell lines expressing the mCherry-eGFP-LC3B fusion protein. We observed that CK1 inhibition with the chemical ATP-competitive CK1 alpha/delta inhibitor D4476 resulted in an impaired autophagic flux,likely due to an alteration of lysosomes acidification. However,D4476 caused the accumulation of the transcription factor FOXO3a in the nucleus,and this was paralleled by the upregulation of mRNA coding for autophagic genes. Surprisingly,silencing of CK1alpha by RNA interference triggered the autophagic flux. However,FOXO3a did not shuttle into the nucleus and the transcription of autophagy-related FOXO3a-dependent genes was not observed. Thus,while the chemical inhibition with the dual CK1alpha/delta inhibitor D4476 induced cell death as a consequence of an accumulation of ineffective autophagic vesicles,on the opposite,CK1alpha silencing,although it also determined apoptosis,triggered a full activation of the early autophagic flux,which was then not supported by the upregulation of autophagic genes. Taken together,our results indicate that the family of CK1 kinases may profoundly influence MM cells survival also through the modulation of the autophagic pathway. View Publication

BACKGROUND AIMS microRNAs (miRNAs) are small non-coding RNAs that bind to 3'UTR regions of mRNAs to promote their degradation or block their translation. Mice with disruption of the trefoil factor 1 gene (Tff1) develop gastric neoplasms. We studied these mice to identify conserved miRNA networks involved in gastric carcinogenesis. METHODS We performed next-generation miRNA sequencing analysis of normal gastric tissues (based on histology) from subjects without evidence of gastric neoplasm from patients (n=64) and TFF1-knockout mice (n=22). We validated our findings using 270 normal gastric tissues (including 61 samples from patients without evidence of neoplastic lesions) and 234 gastric tumor tissues from 3 separate cohorts of patients and from mice. We performed molecular and functional assays using cell lines (MKN28,MKN45,STKM2,and AGS cells),gastric organoids,and mice with xenograft tumors. RESULTS We identified 117 miRNAs that were significantly deregulated in mouse and human gastric tumor tissues,compared with non-tumor tissues. We validated changes in levels of 6 miRNAs by quantitative real-time PCR analyses of neoplastic gastric tissues from mice (n=39) and 3 independent cohorts patients (332 patients total). We found levels of MIR135B-5p,MIR196B-5p,and MIR92A-5p to be increased in tumor tissues whereas levels of MIR143-3p,MIR204-5p,and MIR133-3p were decreased in tumor tissues. Levels of MIR143-3p were reduced not only in gastric cancer tissues,but also in normal tissues adjacent to tumors in humans and low-grade dysplasia in mice. Transgenic expression of MIR143-3p in gastric cancer cell lines reduced their proliferation and restored their sensitivity to cisplatin. AGS cells with stable transgenic expression of MIR143-3p grew more slowly as xenograft tumors in mice than control AGS cells; tumor growth from AGS cells that expressed MIR143-3p,but not control cells,was sensitive to cisplatin. We identified and validated bromodomain containing 2 (BRD2) as a direct target of MIR143-3p; increased levels of BRD2 in gastric tumors associated with shorter survival times of patients. CONCLUSIONS In an analysis of miRNA profiles of gastric tumors from mice and human patients,we identified a conserved signature associated with early stages of gastric tumorigenesis. Strategies to restore MIR143-3p or inhibit BRD2 might be developed for treatment of gastric cancer. View Publication