技术资料

Interleukin-4 (IL-4) suppresses the development of multiple sclerosis in a murine model of experimental autoimmune encephalomyelitis (EAE). Here,we show that,in mice with EAE,the accumulation and persistence in the lymph nodes and spleen of a systemically administered serum albumin (SA)-IL-4 fusion protein leads to higher efficacy in preventing disease development than the administration of wild-type IL-4 or of the clinically approved drug fingolimod. We also show that the SA-IL-4 fusion protein prevents immune-cell infiltration in the spinal cord,decreases integrin expression in antigen-specific CD4+ T cells,increases the number of granulocyte-like myeloid-derived suppressor cells (and their expression of programmed-death-ligand-1) in spinal cord-draining lymph nodes and decreases the number of T helper 17 cells,a pathogenic cell population in EAE. In mice with chronic EAE,SA-IL-4 inhibits immune-cell infiltration into the spinal cord and completely abrogates immune responses to myelin antigen in the spleen. The SA-IL-4 fusion protein may be prophylactically and therapeutically advantageous in the treatment of multiple sclerosis. View Publication

Previous study demonstrated that the low survival of human embryonic stem cells (hESC) under conventional slow-cooling cryopreservation protocols is predominantly due to apoptosis rather than cellular necrosis. Hence,this study investigated whether a synthetic broad-spectrum irreversible inhibitor of caspase enzymes,Z-VAD-FMK can be used to enhance the post-thaw survival rate of hESC. About 100 mM Z-VAD-FMK was supplemented into either the freezing solution,the post-thaw culture media or both. Intact and adherent hESC colonies were cryopreserved so as to enable subsequent quantitation of the post-thaw cell survival rate through the MTT assay,which can only be performed with adherent cells. Exposure to 100 mM Z-VAD-FMK in the freezing solution alone did not significantly enhance the post-thaw survival rate (10.2{\%} vs. 9.9{\%},p {\textgreater} 0.05). However,when 100 mM Z-VAD-FMK was added to the post-thaw culture media,there was a significant enhancement in the survival rate from 9.9{\%} to 14.4{\%} (p {\textless} 0.05),which was further increased to 18.7{\%} when Z-VAD-FMK was also added to the freezing solution as well (p {\textless} 0.01). Spontaneous differentiation of hESC after cryopreservation was assessed by morphological observations under bright-field microscopy,and by immunocytochemical staining for the pluripotency markers SSEA-3 and TRA-1-81. The results demonstrated that exposure to Z-VAD-FMK did not significantly enhance the spontaneous differentiation of hESC within post-thaw culture. View Publication

The bleomycin group antitumor antibiotics have long been of interest as a consequence of their efficacy in the treatment of certain tumors,not to mention their unique structures and properties in mediating dioxygen activation and sequence selective degradation of DNA. At a chemical level,the structure originally assigned to bleomycin was subsequently reassigned and the new structure has been confirmed by total synthesis. Through the elaboration of structurally modified bleomycin congeners and fragments,synthetic efforts have also facilitated an understanding of the contribution of individual structural domains in bleomycin to sequence selective DNA binding and cleavage,and have also provided insights into the nature of the chemical processes by which DNA degradation takes place. Within the last several years,it has also become apparent that bleomycin can mediate the oxidative degradation of all major classes of cellular RNAs; it seems entirely plausible that RNA may also represent an important locus of action for this class of antitumor agent. In parallel with ongoing synthetic and mechanistic efforts using classical methods,the study of bleomycins attached to solid supports has been shown to provide important mechanistic insights,and the actual elaboration of modified bleomycins by solid phase synthesis constitutes a logical extension of such efforts. View Publication

Deregulation of apoptosis,the physiological form of cell death,is closely associated with immunological diseases and cancer. Apoptosis is activated either by death receptor-driven or mitochondrial pathways,both of which may provide potential targets for novel anticancer drugs. Although several ligands stimulating death receptors have been described,the actual molecular events triggering the mitochondrial pathway are largely unknown. Here,we show initiation of apoptosis by gradual depletion of the intracellular coenzyme NAD+. We identified the first low molecular weight compound,designated FK866,which induces apoptosis by highly specific,noncompetitive inhibition of nicotinamide phosphoribosyltransferase (NAPRT),a key enzyme in the regulation of NAD+ biosynthesis from the natural precursor nicotinamide. Interference with this enzyme does not primarily intoxicate cells because the mitochondrial respiratory activity and the NAD+ -dependent redox reactions involved remain unaffected as long as NAD+ is not effectively depleted by catabolic reactions. Certain tissues,however,have a high turnover of NAD+ through its cleavage by enzymes like poly(ADP-ribose) polymerase. Such cells often rely on the more readily available nicotinamide pathway for NAD+ synthesis and undergo apoptosis after inhibition of NAPRT,whereas cells effectively using the nicotinic acid pathway for NAD+ synthesis remain unaffected. In support of this concept,FK866 effectively induced delayed cell death by apoptosis in HepG2 human liver carcinoma cells with an IC(50) of approximately 1 nM,did not directly inhibit mitochondrial respiratory activity,but caused gradual NAD+ depletion through specific inhibition of NAPRT. This enzyme,when partially purified from K562 human leukemia cells,was noncompetitively inhibited by FK866,and the inhibitor constants were calculated to be 0.4 nM for the enzyme/substrate complex (K(i)) and 0.3 nM for the free enzyme (K(i)'),respectively. Nicotinic acid and nicotinamide were both found to have antidote potential for the cellular effects of FK866. FK866 may be used for treatment of diseases implicating deregulated apoptosis such as cancer for immunosuppression or as a sensitizer for genotoxic agents. Furthermore,it may provide an important tool for investigation of the molecular triggers of the mitochondrial pathway leading to apoptosis through enabling temporal separation of NAD+ decrease from ATP breakdown and apoptosis by several days. View Publication

BACKGROUND Asthma is a heterogenous disease characterized by chronic inflammation and airway remodeling. An increase in the severity of airway remodeling is associated with a more severe form of asthma. There is increasing interest in the epithelial to mesenchymal transition process and mechanisms involved in the differentiation and repair of the airway epithelium,especially as they apply to severe asthma. Growing evidence suggests that Epithelial-Mesenchymal transition (EMT) could contribute to airway remodeling and fibrosis in asthma. Severe asthmatic patients with remodeled airways have a neutrophil driven inflammation. Neutrophils are an important source of TGF-$\beta$1,which plays a role in recruitment and activation of inflammatory cells,extracellular matrix (ECM) production and fibrosis development,and is a potent inducer of EMT. OBJECTIVE As there is little data examining the contribution of neutrophils and/or their mediators to the induction of EMT in airway epithelial cells,the objective of this study was to better understand the potential role of neutrophils in severe asthma in regards to EMT. METHODS We used an in vitro system to investigate the neutrophil-epithelial cell interaction. We obtained peripheral blood neutrophils from severe asthmatic patients and control subjects and examined for their ability to induce EMT in primary airway epithelial cells. RESULTS Our data indicate that neutrophils from severe asthmatic patients induce changes in morphology and EMT marker expression in bronchial epithelial cells consistent with the EMT process when co-cultured. TGF-$\beta$1 levels in the culture medium of severe asthmatic patients were increased compared to that from co-cultures of non-asthmatic neutrophils and epithelial cells. CONCLUSIONS AND CLINICAL RELEVANCE As an inducer of EMT and an important source of TGF-$\beta$1,neutrophils may play a significant role in the development of airway remodeling and fibrosis in severe asthmatic airways. View Publication

A mysterious feature of Crohn's disease (CD) is the extra-intestinal manifestation of creeping fat" (CrF) defined as expansion of mesenteric adipose tissue around the inflamed and fibrotic intestine. In the current study we explore whether microbial translocation in CD serves as a central cue for CrF development. We discovered a subset of mucosal-associated gut bacteria that consistently translocated and remained viable in CrF in CD ileal surgical resections and identified Clostridium innocuum as a signature of this consortium with strain variation between mucosal and adipose isolates suggesting preference for lipid-rich environments. Single-cell RNA sequencing characterized CrF as both pro-fibrotic and pro-adipogenic with a rich milieu of activated immune cells responding to microbial stimuli which we confirm in gnotobiotic mice colonized with C. innocuum. Ex vivo validation of expression patterns suggests C. innocuum stimulates tissue remodeling via M2 macrophages leading to an adipose tissue barrier that serves to prevent systemic dissemination of bacteria." View Publication

View Publication

Currently approved immune checkpoint inhibitor therapies targeting the PD-1 and CTLA-4 receptor pathways are powerful treatment options for certain cancers; however,most patients across cancer types still fail to respond. Consequently,there is interest in discovering and blocking alternative pathways that mediate immune suppression. One such mechanism is an upregulation of sialoglycans in malignancy,which has been recently shown to inhibit immune cell activation through multiple mechanisms and therefore represents a targetable glycoimmune checkpoint. Since these glycans are not canonically druggable,we designed an $\alpha$HER2 antibody-sialidase conjugate that potently and selectively strips diverse sialoglycans from breast cancer cells. In syngeneic breast cancer models,desialylation enhanced immune cell infiltration and activation and prolonged the survival of mice,an effect that was dependent on expression of the Siglec-E checkpoint receptor found on tumor-infiltrating myeloid cells. Thus,antibody-sialidase conjugates represent a promising modality for glycoimmune checkpoint therapy. View Publication

Tumor-associated macrophages (TAM) in the tumor microenvironment (TME) cooperate with cancer stem cells (CSC) to maintain stemness. We recently identified cluster of differentiation 44 (CD44) as a surface marker defining head and neck squamous cell carcinoma (HNSCC) CSC. PI3K-4EBP1-SOX2 activation and signaling regulate CSC properties,yet the upstream molecular control of this pathway and the mechanisms underlying cross-talk between TAM and CSC in HNSCC remain largely unknown. Because CD44 is a molecular mediator in the TME,we propose here that TAM-influenced CD44 signaling could mediate stemness via the PI3K-4EBP1-SOX2 pathway,possibly by modulating availability of hyaluronic acid (HA),the main CD44 ligand. HNSCC IHC was used to identify TAM/CSC relationships,and in vitro coculture spheroid models and in vivo mouse models were used to identify the influence of TAMs on CSC function via CD44. Patient HNSCC-derived TAMs were positively and negatively associated with CSC marker expression at noninvasive and invasive edge regions,respectively. TAMs increased availability of HA and increased cancer cell invasion. HA binding to CD44 increased PI3K-4EBP1-SOX2 signaling and the CSC fraction,whereas CD44-VCAM-1 binding promoted invasive signaling by ezrin/PI3K. In vivo,targeting CD44 decreased PI3K-4EBP1-SOX2 signaling,tumor growth,and CSC. TAM depletion in syngeneic and humanized mouse models also diminished growth and CSC numbers. Finally,a CD44 isoform switch regulated epithelial-to-mesenchymal plasticity as standard form of CD44 and CD44v8-10 determined invasive and tumorigenic phenotypes,respectively. We have established a mechanistic link between TAMs and CSCs in HNSCC that is mediated by CD44 intracellular signaling in response to extracellular signals. SIGNIFICANCE: These findings establish a mechanistic link between tumor cell CD44,TAM,and CSC properties at the tumor-stroma interface that can serve as a vital area of focus for target and drug discovery. View Publication

BACKGROUND Taking into consideration a recent surge of a lung injury condition associated with electronic cigarette use,we devised an in vitro model of sub-chronic exposure of human bronchial epithelial cells (HBECs) in air-liquid interface,to determine deterioration of epithelial cell barrier from sub-chronic exposure to cigarette smoke (CS),e-cigarette aerosol (EC),and tobacco waterpipe exposures (TW). METHODS Products analyzed include commercially available e-liquid,with 0{\%} or 1.2{\%} concentration of nicotine,tobacco blend (shisha),and reference-grade cigarette (3R4F). In one set of experiments,HBECs were exposed to EC (0 and 1.2{\%}),CS or control air for 10 days using 1 cigarette/day. In the second set of experiments,exposure of pseudostratified primary epithelial tissue to TW or control air exposure was performed 1-h/day,every other day,until 3 exposures were performed. After 16-18 h of last exposure,we investigated barrier function/structural integrity of the epithelial monolayer with fluorescein isothiocyanate-dextran flux assay (FITC-Dextran),measurements of trans-electrical epithelial resistance (TEER),assessment of the percentage of moving cilia,cilia beat frequency (CBF),cell motion,and quantification of E-cadherin gene expression by reverse-transcription quantitative polymerase chain reaction (RT-qPCR). RESULTS When compared to air control,CS increased fluorescence (FITC-Dextran assay) by 5.6 times,whereby CS and EC (1.2{\%}) reduced TEER to 49 and 60{\%} respectively. CS and EC (1.2{\%}) exposure reduced CBF to 62 and 59{\%},and cilia moving to 47 and 52{\%},respectively,when compared to control air. CS and EC (1.2{\%}) increased cell velocity compared to air control by 2.5 and 2.6 times,respectively. The expression of E-cadherin reduced to 39{\%} of control air levels by CS exposure shows an insight into a plausible molecular mechanism. Altogether,EC (0{\%}) and TW exposures resulted in more moderate decreases in epithelial integrity,while EC (1.2{\%}) substantially decreased airway epithelial barrier function comparable with CS exposure. CONCLUSIONS The results support a toxic effect of sub-chronic exposure to EC (1.2{\%}) as evident by disruption of the bronchial epithelial cell barrier integrity,whereas further research is needed to address the molecular mechanism of this observation as well as TW and EC (0{\%}) toxicity in chronic exposures. View Publication

Studies with peptide-based and macromolecular inhibitors of the caspase family of cysteine proteases have helped to define a central role for these enzymes in inflammation and mammalian apoptosis. A clear interpretation of these studies has been compromised by an incomplete understanding of the selectivity of these molecules. Here we describe the selectivity of several peptide-based inhibitors and the coxpox serpin CrmA against 10 human caspases. The peptide aldehydes that were examined (Ac-WEHD-CHO,Ac-DEVD-CHO,Ac-YVAD-CHO,t-butoxycarbonyl-IETD-CHO,and t-butoxycarbonyl-AEVD-CHO) included several that contain the optimal tetrapeptide recognition motif for various caspases. These aldehydes display a wide range of selectivities and potencies against these enzymes,with dissociation constants ranging from 75 pM to {\textgreater}10 microM. The halomethyl ketone benzyloxycarbonyl-VAD fluoromethyl ketone is a broad specificity irreversible caspase inhibitor,with second-order inactivation rates that range from 2.9 x 10(2) M-1 s-1 for caspase-2 to 2.8 x 10(5) M-1 s-1 for caspase-1. The results obtained with peptide-based inhibitors are in accord with those predicted from the substrate specificity studies described earlier. The cowpox serpin CrmA is a potent (Ki {\textless} 20 nM) and selective inhibitor of Group I caspases (caspase-1,-4,and -5) and most Group III caspases (caspase-8,-9,and -10),suggesting that this virus facilitates infection through inhibition of both apoptosis and the host inflammatory response. View Publication

View Publication