技术资料

Although obesity is known to be critical for cancer development,how obesity negatively impacts antitumor immune responses remains largely unknown. Here,we show that increased fatty acid oxidation (FAO) driven by activated STAT3 in CD8+ T effector cells is critical for obesity-associated breast tumor progression. Ablating T cell Stat3 or treatment with an FAO inhibitor in obese mice spontaneously developing breast tumor reduces FAO,increases glycolysis and CD8+ T effector cell functions,leading to inhibition of breast tumor development. Moreover,PD-1 ligation in CD8+ T cells activates STAT3 to increase FAO,inhibiting CD8+ T effector cell glycolysis and functions. Finally,leptin enriched in mammary adipocytes and fat tissues downregulates CD8+ T cell effector functions through activating STAT3-FAO and inhibiting glycolysis. We identify a critical role of increased oxidation of fatty acids driven by leptin and PD-1 through STAT3 in inhibiting CD8+ T effector cell glycolysis and in promoting obesity-associated breast tumorigenesis. View Publication

Continual efferocytic clearance of apoptotic cells (ACs) by macrophages prevents necrosis and promotes injury resolution. How continual efferocytosis is promoted is not clear. Here,we show that the process is optimized by linking the metabolism of engulfed cargo from initial efferocytic events to subsequent rounds. We found that continual efferocytosis is enhanced by the metabolism of AC-derived arginine and ornithine to putrescine by macrophage arginase 1 (Arg1) and ornithine decarboxylase (ODC). Putrescine augments HuR-mediated stabilization of the mRNA encoding the GTP-exchange factor Dbl,which activates actin-regulating Rac1 to facilitate subsequent rounds of AC internalization. Inhibition of any step along this pathway after first-AC uptake suppresses second-AC internalization,whereas putrescine addition rescues this defect. Mice lacking myeloid Arg1 or ODC have defects in efferocytosis in vivo and in atherosclerosis regression,while treatment with putrescine promotes atherosclerosis resolution. Thus,macrophage metabolism of AC-derived metabolites allows for optimal continual efferocytosis and resolution of injury. View Publication

Dental tissue has been acknowledged as an advantaged source for high-quality dental pulp stem cell (DPSC) preparation. However,despite the accomplishment of the separation of DPSCs from permanent teeth and supernumerary teeth,the deficiency of rigorous and systematic clarification on the signatures and efficacy will hinder their prospects in regenerative medicine. In this study,we primitively isolated permanent teeth-derived DPSCs and supernumerary teeth-derived apical papillary stem cells (SCAP-Ss) with parental consent. Immunophenotype of DPSCs and SCAP-Ss was determined by a flow cytometry assay,and the cell viability was verified by multidimensional detections including cell proliferation,cell cycle,apoptosis,and senescence. The migration and clonogenic capacity were examined by a wound healing test and crystal violet staining,respectively. The multilineage differentiation potential was quantitated by utilizing Oil Red O staining and Alizarin Red staining,together with real-time PCR analysis. The efficacy on a mouse hepatic fibrosis model was evaluated by using histologic sections and liver function tests. Herein,we showed that SCAP-Ss exhibited comparable immunophenotype and adipogenic differentiation capacity as DPSCs. However,different from DPSCs,SCAP-Ss exhibited superiority in cell viability and osteogenic differentiation. Simultaneously,injection of DPSCs and SCAP-Ss significantly reduced inflammatory infiltration,enhanced liver-associated gene expression,and finally relieved symptoms of hepatic fibrosis. In conclusion,SCAP-Ss possess preferable characteristics and efficacy on hepatic fibrosis in mice. Our findings suggest that SCAP-Ss are an easily accessible postnatal stem cell source with multifaceted characteristics for regenerative medicine. View Publication

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Human osteogenic progenitors are not precisely defined,being primarily studied as heterogeneous multipotent cell populations and termed mesenchymal stem cells (MSCs). Notably,select human pericytes can develop into bone-forming osteoblasts. Here,we sought to define the differentiation potential of CD146+ human pericytes from skeletal and soft tissue sources,with the underlying goal of defining cell surface markers that typify an osteoblastogenic pericyte. CD146+CD31-CD45- pericytes were derived by fluorescence-activated cell sorting from human periosteum,adipose,or dermal tissue. Periosteal CD146+CD31-CD45- cells retained canonical features of pericytes/MSC. Periosteal pericytes demonstrated a striking tendency to undergo osteoblastogenesis in vitro and skeletogenesis in vivo,while soft tissue pericytes did not readily. Transcriptome analysis revealed higher CXCR4 signaling among periosteal pericytes in comparison to their soft tissue counterparts,and CXCR4 chemical inhibition abrogated ectopic ossification by periosteal pericytes. Conversely,enrichment of CXCR4+ pericytes or stromal cells identified an osteoblastic/non-adipocytic precursor cell. In sum,human skeletal and soft tissue pericytes differ in their basal abilities to form bone. Diversity exists in soft tissue pericytes,however,and CXCR4+ pericytes represent an osteoblastogenic,non-adipocytic cell precursor. Indeed,enrichment for CXCR4-expressing stromal cells is a potential new tactic for skeletal tissue engineering. View Publication

BACKGROUND Recent studies have suggested that both poly(l-lactide-co-1,5-dioxepan-2-one) (or poly(LLA-co-DXO)) and poly(l-lactide-co-$\epsilon$-caprolactone) (or poly(LLA-co-CL)) porous scaffolds are good candidates for use as biodegradable scaffold materials in the field of tissue engineering; meanwhile,their surface properties,such as hydrophilicity,need to be further improved. METHODS We applied several different concentrations of the surfactant Tween 80 to tune the hydrophilicity of both materials. Moreover,the modification was applied not only in the form of solid scaffold as a film but also a porous scaffold. To investigate the potential application for tissue engineering,human bone marrow mesenchymal stem cells (hMSCs) were chosen to test the effect of hydrophilicity on cell attachment,proliferation,and differentiation. First,the cellular cytotoxicity of the extracted medium from modified scaffolds was investigated on HaCaT cells. Then,hMSCs were seeded on the scaffolds or films to evaluate cell attachment,proliferation,and osteogenic differentiation. The results indicated a significant increasing of wettability with the addition of Tween 80,and the hMSCs showed delayed attachment and spreading. PCR results indicated that the differentiation of hMSCs was stimulated,and several osteogenesis related genes were up-regulated in the 3{\%} Tween 80 group. Poly(LLA-co-CL) with 3{\%} Tween 80 showed an increased messenger Ribonucleic acid (mRNA) level of late-stage markers such as osteocalcin (OC) and key transcription factor as runt related gene 2 (Runx2). CONCLUSION A high hydrophilic scaffold may speed up the osteogenic differentiation for bone tissue engineering. View Publication

The proteasome inhibitor bortezomib is the most successfully applied chemotherapeutic drug for treating multiple myeloma. However,its clinical efficacy reduced due to resistance development. The underlying molecular mechanisms of bortezomib resistance are poorly understood. In this study,by combining in silico analysis and sgRNA library based drug resistance screening assay,we identified SENP2 (Sentrin/SUMO-specific proteases-2) as a bortezomib sensitive gene and found its expression highly downregulated in bortezomib resistant multiple myeloma patient's samples. Furthermore,down regulation of SENP2 in multiple myeloma cell line RPMI8226 alleviated bortezomib induced cell proliferation inhibition and apoptosis,whereas,overexpression of SENP2 sensitized these cells to bortezomib treatment. We further demonstrate that knockdown of SENP2 in RPMI8226 cells increased SUMO2 conjugated I$\kappa$B$\alpha$ that resulted in the activation of NF-$\kappa$B. Taken together,we report that silencing of SENP2 and consequent activation of NF-$\kappa$B through the modulation of I$\kappa$B$\alpha$ sumoylation as a novel mechanism inducing bortezomib resistance in multiple myeloma. View Publication

Background Nab-paclitaxel has been widely used in treating breast cancer and pancreatic patients for its low toxicity and high efficiency. However,its role in gastric cancer (GC) remains ambiguous. The aim of our study was to test the anti-tumor activity of nab-paclitaxel using GC patient-derived organoids. Methods By using the organoid culture system,we describe the establishment of human gastric cancer organoid lines from surgical samples of three patients with gastric cancer. The consistency of these organoids with original cancer tissues was evaluated by histopathological examination. The characteristics of the cancer organoids were tested using immunofluorescence (IF) staining. Using organoids,the anti-tumor efficiencies of nab-paclitaxel,5-Fu and epirubicin were compared by CCK8 assay and Annexin V-FITC/PI staining. Results Three organoids were successfully established and passaged. The morphology of the established GC organoids was consistent with original cancer tissues. The IC50 of nab-paclitaxel was 3.68 $\mu$mol/L in hGCO1,2.41 $\mu$mol/L in hGCO2 and 2.91 $\mu$mol/L in hGCO3,which was significantly lower than those of 5-FU (72.99 $\mu$mol/L in hGCO1,28.32 $\mu$mol/L in hGCO2 and 2.91 $\mu$mol/L in hGCO3) and epirubicin (25.85$\mu$mol/L in hGCO1,15.15 $\mu$mol/L in hGCO2 and 7.60 $\mu$mol/L in hGCO3). When each organoid lines were treated with nab-paclitaxel for increasing period of time,the percentage of the apoptotic cells in each organoid increased accordingly. Conclusion Nab-paclitaxel showed strong anti-tumor activity and had the potential to become front-line drug for treating GC patients. Gastric cancer organoid may be a good tool to predict in vivo response to drugs. View Publication

Emerging evidence indicates that in myelodysplastic syndromes (MDS),the bone marrow (BM) microenvironment may also contribute to the ineffective,malignant haematopoiesis in addition to the intrinsic abnormalities of haematopoietic stem precursor cells (HSPCs). The BM microenvironment influences malignant haematopoiesis through indirect mechanisms,but the processes by which the BM microenvironment directly contributes to MDS initiation and progression have not yet been elucidated. Our previous data showed that BM-derived stromal cells (BMSCs) from MDS patients have an abnormal expression of focal adhesion kinase (FAK). In this study,we characterise the morpho-phenotypic features and the functional alterations of BMSCs from MDS patients and in FAK knock-downed HS-5 cells. The decreased expression of FAK or its phosphorylated form in BMSCs from low-risk (LR) MDS directly correlates with BMSCs' functional deficiency and is associated with a reduced level of haemoglobin. The downregulation of FAK in HS-5 cells alters their morphology,proliferation,and differentiation capabilities and impairs the expression of several adhesion molecules. In addition,we examine the CD34+ healthy donor (HD)-derived HSPCs' properties when co-cultured with FAK-deficient BMSCs. Both abnormal proliferation and the impaired erythroid differentiation capacity of HD-HSPCs were observed. Together,these results demonstrate that stromal adhesion mechanisms mediated by FAK are crucial for regulating HSPCs' homeostasis. View Publication

Freshly isolated,uncultured,autologous adipose derived regenerative cells (ADRCs) have emerged as a promising tool for regenerative cell therapy. The Transpose RT system (InGeneron,Inc.,Houston,TX,USA) is a system for isolating ADRCs from adipose tissue,commercially available in Europe as a CE-marked medical device and under clinical evaluation in the United States. This system makes use of the proprietary,enzymatic Matrase Reagent for isolating cells. The present study addressed the question whether the use of Matrase Reagent influences cell yield,cell viability,live cell yield,biological characteristics,physiological functions or structural properties of the ADRCs in final cell suspension. Identical samples of subcutaneous adipose tissue from 12 subjects undergoing elective lipoplasty were processed either with or without the use of Matrase Reagent. Then,characteristics of the ADRCs in the respective final cell suspensions were evaluated. Compared to non-enzymatic isolation,enzymatic isolation resulted in approximately twelve times higher mean cell yield (i.e.,numbers of viable cells/ml lipoaspirate) and approximately 16 times more colony forming units. Despite these differences,cells isolated from lipoaspirate both with and without the use of Matrase Reagent were independently able to differentiate into cells of all three germ layers. This indicates that biological characteristics,physiological functions or structural properties relevant for the intended use were not altered or induced using Matrase Reagent. A comprehensive literature review demonstrated that isolation of ADRCs from lipoaspirate using the Transpose RT system and the Matrase Reagent results in the highest viable cell yield among published data regarding isolation of ADRCs from lipoaspirate. View Publication

H7 avian influenza viruses represent a major public health concern,and worldwide outbreaks raise the risk of a potential pandemic. Understanding the memory B cell response to avian (H7) influenza virus infection in humans could provide insights in the potential key to human infection risks. We investigated an epizootic of the highly pathogenic A(H7N7) in the Netherlands,which in 2003 led to infection of 89 persons and one fatal case. Subtype-specificity of antibodies were determined for confirmed H7N7 infected individuals (cases) (n = 19),contacts of these cases (n = 21) and a comparison group controls (n = 16),by microarray,using recombinant hemagglutinin (HA)1 proteins. The frequency and specificity of memory B cells was determined by detecting subtype-specific antibodies in the culture supernatants from in vitro stimulated oligoclonal B cell cultures,from peripheral blood of cases and controls. All cases (100{\%}) had high antibody titers specific for A(H7N7)2003 (GMT {\textgreater} 100),whereas H7-HA1 antigen binding was detected in 29{\%} of contacts and 31{\%} of controls,suggesting that some of the H7 reactivity stems from cross reactive antibodies. To unravel homotypic and heterotypic responses,the frequency and specificity of memory B cells were determined in 2 cases. Ten of 123 HA1 reactive clones isolated from the cases bound to only H7- HA1,whereas 5 bound both H7 and other HA1 antigens. We recovered at least four different epitopal reactivities,though none of the H7 reactive antibodies were able to neutralize H7 infections in vitro. Our study serologically confirms the infection with H7 avian influenza viruses,and shows that H7 infection triggers a mixture of strain -specific and cross-reactive antibodies. View Publication

Abdominal aortic aneurysm (AAA) is life-threatening,for which efficient nonsurgical treatment strategy has not been available so far. Several previous studies investigating the therapeutic effect of mesenchymal stem cells (MSCs) in AAA indicated that MSCs could inhibit aneurysmal inflammatory responses and extracellular matrix destruction,and suppress aneurysm occurrence and expansion. Vascular smooth muscle cell (VSMC) phenotypic plasticity is reported to be predisposed in AAA initiation and progression. However,little is known about the effect of MSCs on VSMC phenotypic modulation in AAA. In this study,we investigate the therapeutic efficacy of umbilical cord mesenchymal stem cells (UC-MSCs) in elastase-induced AAA model and evaluate the effect of UC-MSC on VSMC phenotypic regulation. We demonstrate that the intravenous injection of UC-MSC attenuates elastase-induced aneurysmal expansion,reduces elastin degradation and fragmentation,inhibits MMPs and TNF-$\alpha$ expression,and preserves and/or restores VSMC contractile phenotype in AAA. Taken together,these results highlight the therapeutic and VSMC phenotypic modulation effects of UC-MSC in AAA progression,which further indicates the potential of applying UC-MSC as an alternative treatment candidate for AAA. View Publication