技术资料

Pluripotent stem cell derived hepatocyte-like cells (hPSC-HLCs) are an attractive alternative to primary human hepatocytes (PHHs) used in applications ranging from therapeutics to drug safety testing studies. It would be critical to improve and maintain mature hepatocyte functions of the hPSC-HLCs,especially for long-term studies. If 3D culture systems were to be used for such purposes,it would be important that the system can support formation and maintenance of optimal-sized spheroids for long periods of time,and can also be directly deployed in liver drug testing assays. We report the use of 3-dimensional (3D) cellulosic scaffold system for the culture of hPSC-HLCs. The scaffold has a macroporous network which helps to control the formation and maintenance of the spheroids for weeks. Our results show that culturing hPSC-HLCs in 3D cellulosic scaffolds increases functionality,as demonstrated by improved urea production and hepatic marker expression. In addition,hPSC-HLCs in the scaffolds exhibit a more mature phenotype,as shown by enhanced cytochrome P450 activity and induction. This enables the system to show a higher sensitivity to hepatotoxicants and a higher degree of similarity to PHHs when compared to conventional 2D systems. These results suggest that 3D cellulosic scaffolds are ideal for the long-term cultures needed to mature hPSC-HLCs. The mature hPSC-HLCs with improved cellular function can be continually maintained in the scaffolds and directly used for hepatotoxicity assays,making this system highly attractive for drug testing applications. View Publication

Not provided. View Publication

Small Kinetochore-Associated Protein (SKAP)/Kinastrin is a multifunctional protein with proposed roles in mitosis,apoptosis and cell migration. Exact mechanisms underlying its activities in these cellular processes are not completely understood. SKAP is predicted to have different isoforms,however,previous studies did not differentiate between them. Since distinct molecular architectures of protein isoforms often influence their localization and functions,this study aimed to examine the expression profile and functional differences between SKAP isoforms in human and mouse. Analyses of various human tissues and cells of different origin by RT-PCR,and by Western blotting and immunocytochemistry applying newly generated anti-SKAP monoclonal antibodies revealed that human SKAP exists in two protein isoforms: ubiquitously expressed SKAP16 and testis/sperm-specific SKAP1. In mouse,SKAP1 expression is detectable in testis at 4 weeks postnatally,when the first wave of spermatogenesis in mice is complete and the elongated spermatids are present in the testes. Furthermore,we identified Pontin as a new SKAP1 interaction partner. SKAP1 and Pontin co-localized in the flagellar region of human sperm suggesting a functional relevance for SKAP1-Pontin interaction in sperm motility. Since most previous studies on SKAP were performed with the testis-specific isoform SKAP1,our findings provide a new basis for future studies on the role of SKAP in both human somatic cells and male germ cells,including studies on male fertility. View Publication

Atrial natriuretic peptide (ANP) has a central role in regulating blood pressure in humans. Recently,microRNA-425 (miR-425) was found to regulate ANP production by binding to the mRNA of NPPA,the gene encoding ANP. mRNAs typically contain multiple predicted microRNA (miRNA)-binding sites,and binding of different miRNAs may independently or coordinately regulate the expression of any given mRNA. We used a multifaceted screening strategy that integrates bioinformatics,next-generation sequencing data,human genetic association data,and cellular models to identify additional functional NPPA-targeting miRNAs. Two novel miRNAs,miR-155 and miR-105,were found to modulate ANP production in human cardiomyocytes and target genetic variants whose minor alleles are associated with higher human plasma ANP levels. Both miR-155 and miR-105 repressed NPPA mRNA in an allele-specific manner,with the minor allele of each respective variant conferring resistance to the miRNA either by disruption of miRNA base pairing or creation of wobble base pairing. Moreover,miR-155 enhanced the repressive effects of miR-425 on ANP production in human cardiomyocytes. Our study combines computational,genomic,and cellular tools to identify novel miRNA regulators of ANP production that could be targeted to raise ANP levels,which may have applications for the treatment of hypertension or heart failure. View Publication

Electrospun scaffolds with varied stiffness promote distinct colony morphology of human induced pluripotent stem cells,which affects their subsequent differentiation. On soft scaffolds,induced pluripotent stem cells develop 3D colonies due to the pliability of the electrospun fibrous networks,leading to greater differentiation tendency to ectodermal lineage. View Publication

Chronic viruses and cancers thwart immune responses in humans by inducing T cell dysfunction. Using a murine chronic virus that models human infections,we investigated the function of the adhesion molecule,P-selectin glycoprotein ligand-1 (PSGL-1),that is upregulated on responding T cells. PSGL-1-deficient mice cleared the virus due to increased intrinsic survival of multifunctional effector T cells that had downregulated PD-1 as well as other inhibitory receptors. Notably,this response resulted in CD4(+)-T-cell-dependent immunopathology. Mechanistically,PSGL-1 ligation on exhausted CD8(+) T cells inhibited T cell receptor (TCR) and interleukin-2 (IL-2) signaling and upregulated PD-1,leading to diminished survival with TCR stimulation. In models of melanoma cancer in which T cell dysfunction occurs,PSGL-1 deficiency led to PD-1 downregulation,improved T cell responses,and tumor control. Thus,PSGL-1 plays a fundamental role in balancing viral control and immunopathology and also functions to regulate T cell responses in the tumor microenvironment. View Publication

Lupus nephritis (LN) is a potentially dangerous end organ pathology that affects upwards of 60% of lupus patients. Bruton's tyrosine kinase (BTK) is important for B cell development,Fc receptor signaling,and macrophage polarization. In this study,we investigated the effects of a novel,highly selective and potent BTK inhibitor,BI-BTK-1,in an inducible model of LN in which mice receive nephrotoxic serum (NTS) containing anti-glomerular antibodies. Mice were treated once daily with vehicle alone or BI-BTK-1,either prophylactically or therapeutically. When compared with control treated mice,NTS-challenged mice treated prophylactically with BI-BTK-1 exhibited significantly attenuated kidney disease,which was dose dependent. BI-BTK-1 treatment resulted in decreased infiltrating IBA-1+ cells,as well as C3 deposition within the kidney. RT-PCR on whole kidney RNA and serum profiling indicated that BTK inhibition significantly decreased levels of LN-relevant inflammatory cytokines and chemokines. Renal RNA expression profiling by RNA-seq revealed that BI-BTK-1 dramatically modulated pathways related to inflammation and glomerular injury. Importantly,when administered therapeutically,BI-BTK-1 reversed established proteinuria and improved renal histopathology. Our results highlight the important role for BTK in the pathogenesis of immune complex-mediated nephritis,and BTK inhibition as a promising therapeutic target for LN. View Publication

PURPOSE To determine the safety,survival,and functionality of human embryonic stem cell-derived RPE (hESC-RPE) cells seeded on a polymeric substrate (rCPCB-RPE1 implant) and implanted into the subretinal (SR) space of Royal College of Surgeons (RCS) rats. METHODS Monolayers of hESC-RPE cells cultured on parylene membrane were transplanted into the SR space of 4-week-old RCS rats. Group 1 (n = 46) received vitronectin-coated parylene membrane without cells (rMSPM+VN),group 2 (n = 59) received rCPCB-RPE1 implants,and group 3 (n = 13) served as the control group. Animals that are selected based on optical coherence tomography screening were subjected to visual function assays using optokinetic (OKN) testing and superior colliculus (SC) electrophysiology. At approximately 25 weeks of age (21 weeks after surgery),the eyes were examined histologically for cell survival,phagocytosis,and local toxicity. RESULTS Eighty-seven percent of the rCPCB-RPE1-implanted animals showed hESC-RPE survivability. Significant numbers of outer nuclear layer cells were rescued in both group 1 (rMSPM+VN) and group 2 (rCPCB-RPE1) animals. A significantly higher ratio of rod photoreceptor cells to cone photoreceptor cells was found in the rCPCB-RPE1-implanted group. Animals with rCPCB-RPE1 implant showed hESC-RPE cells containing rhodopsin-positive particles in immunohistochemistry,suggesting phagocytic function. Superior colliculus mapping data demonstrated that a significantly higher number of SC sites responded to light stimulus at a lower luminance threshold level in the rCPCB-RPE1-implanted group. Optokinetic data suggested both implantation groups showed improved visual acuity. CONCLUSIONS These results demonstrate the safety,survival,and functionality of the hESC-RPE monolayer transplantation in an RPE dysfunction rat model. View Publication

Monoclonal antibodies offer high specificity and this makes it an important tool for molecular biology,biochemistry and medicine. Typically,monoclonal antibodies are generated by fusing mouse spleen cells that have been immunized with the desired antigen with myeloma cells to create immortalized hybridomas. Here,we describe the generation of monoclonal antibodies that are specific to Chikungunya virus using ClonaCell-HY system. View Publication

The lipophilic statin lovastatin decreases cholesterol synthesis and is a safe and effective treatment for the prevention of cardiovascular diseases. Growing evidence points at antitumor potential of lovastatin. Therefore,understanding the molecular mechanism of lovastatin function in different cell types is critical to effective therapy design. In this study,we investigated the effects of lovastatin on the differentiation potential of human embryonic stem (hES) cells (H9 cell line). Multiparameter flow cytometric assay was used to detect changes in the expression of transcription factors characteristic of hES cells. We found that lovastatin treatment delayed NANOG downregulation during ectodermal and endodermal differentiation. Likewise,expression of ectodermal (SOX1 and OTX2) and endodermal (GATA4 and FOXA2) markers was higher in treated cells. Exposure of hES cells to lovastatin led to a minor decrease in the expression of SSEA-3 and a significant reduction in CD133 expression. Treated cells also formed fewer embryoid bodies than control cells. By analyzing hES with and without CD133,we discovered that CD133 expression is required for proper formation of embryoid bodies. In conclusion,lovastatin reduced the heterogeneity of hES cells and impaired their differentiation potential. View Publication

Mitochondrial DNA (mtDNA) mutations are maternally inherited and are associated with a broad range of debilitating and fatal diseases. Reproductive technologies designed to uncouple the inheritance of mtDNA from nuclear DNA may enable affected women to have a genetically related child with a greatly reduced risk of mtDNA disease. Here we report the first preclinical studies on pronuclear transplantation (PNT). Surprisingly,techniques used in proof-of-concept studies involving abnormally fertilized human zygotes were not well tolerated by normally fertilized zygotes. We have therefore developed an alternative approach based on transplanting pronuclei shortly after completion of meiosis rather than shortly before the first mitotic division. This promotes efficient development to the blastocyst stage with no detectable effect on aneuploidy or gene expression. After optimization,mtDNA carryover was reduced to textless2% in the majority (79%) of PNT blastocysts. The importance of reducing carryover to the lowest possible levels is highlighted by a progressive increase in heteroplasmy in a stem cell line derived from a PNT blastocyst with 4% mtDNA carryover. We conclude that PNT has the potential to reduce the risk of mtDNA disease,but it may not guarantee prevention. View Publication

Electrospun poly-l-lactic acid (PLLA) nanofiber mats carrying surface amine groups,previously introduced by nitrogen atmospheric pressure nonequilibrium plasma,are embedded into aqueous solutions of oligomeric acrylamide-end capped AGMA1,a biocompatible polyamidoamine with arg-gly-asp (RGD)-reminiscent repeating units. The resultant mixture is finally cured giving PLLA-AGMA1 hydrogel composites that absorb large amounts of water and,in the swollen state,are translucent,soft,and pliable,yet as strong as the parent PLLA mat. They do not split apart from each other when swollen in water and remain highly flexible and resistant,since the hydrogel portion is covalently grafted onto the PLLA nanofibers via the addition reaction of the surface amine groups to a part of the terminal acrylic double bonds of AGMA1 oligomers. Preliminary tested as scaffolds,the composites prove capable of maintaining short-term undifferentiated cultures of human pluripotent stem cells in feeder-free conditions. View Publication