技术资料

The extrafollicular (EF) plasmablast response to self-antigens that contain Toll-like receptor (TLR) ligands is prominent in murine lupus models and some bacterial infections,but the inhibitors and activators involved have not been fully delineated. Here,we used two conventional dendritic cell (cDC) depletion systems to investigate the role of cDCs on a classical TLR-dependent autoreactive EF response elicited in rheumatoid-factor B cells by DNA-containing immune complexes. Contrary to our hypothesis,cDC depletion amplified rather than dampened the EF response in Fas-intact but not Fas-deficient mice. Further,we demonstrated that cDC-dependent regulation requires Fas and Fas ligand (FasL) expression by T cells,but not Fas expression by B cells. Thus,cDCs activate FasL-expressing T cells that regulate Fas-expressing extrafollicular helper T (Tefh) cells. These studies reveal a regulatory role for cDCs in B cell plasmablast responses and provide a mechanistic explanation for the excess autoantibody production observed in Fas deficiency. View Publication

In the past decade,tissue microarray (TMA) technology has evolved as an innovative tool for high-throughput proteomics analysis and mainly for biomarker validation. Similarly,enormous amount of data can be obtained from the cell line macroarray (CLMA) technology,which developed from the TMA using formalin-fixed,paraffin-embedded cell pellets. Here,we applied CLMA technology in stem cell research and in particular to identify bona fide neogenerated human induced pluripotent stem cell (hiPSC) clones suitable for down the line differentiation. All hiPSC protocols generate tens of clones,which need to be tested to determine genetically stable cell lines suitable for differentiation. Screening methods generally rely on fluorescence-activated cell sorting isolation and coverslip cell growth followed by immunofluorescence; these techniques could be cumbersome. Here,we show the application of CLMA to identify neogenerated pluripotent cell colonies and neuronal differentiated cell products. We also propose the use of the automated image analyzer,TissueQuest,as a reliable tool to quickly select the best clones,based upon the level of expression of multiple pluripotent biomarkers. View Publication

BACKGROUND/AIM Live attenuated vaccines confer partial protection in pigs before the appearance of neutralizing antibodies,suggesting the contribution of cell-mediated immunity (CMI). However,PRRSV-specific T-lymphocyte responses and protective mechanisms need to be further defined. To this end,the hypothesis was tested that PRRSV-specific T-lymphocytes induced by exposure to type-2 PRRSV can recognize diverse isolates. METHODS An IFN-gamma ELISpot assay was used to enumerate PRRSV-specific T-lymphocytes from PRRSVSD23983-infected gilts and piglets born after in utero infection against 12 serologically and genetically distinct type-1 and -2 PRRSV isolates. The IFN-gamma ELISpot assay using synthetic peptides spanning all open reading frames of PRRSVSD23983 was utilized to localize epitopes recognized by T-lymphocytes. Virus neutralization tests were carried out using the challenge strain (type-2 PRRSVSD23983) and another strain (type-2 PRRSVVR2332) with high genetic similarity to evaluate cross-reactivity of neutralizing antibodies in gilts after PRRSVSD23983 infection. RESULTS At 72 days post infection,T-lymphocytes from one of three PRRSVSD23983-infected gilts recognized all 12 diverse PRRSV isolates,while T-lymphocytes from the other two gilts recognized all but one isolate. Furthermore,five of nine 14-day-old piglets infected in utero with PRRSVSD23983 had broadly reactive T-lymphocytes,including one piglet that recognized all 12 isolates. Overlapping peptides encompassing all open reading frames of PRRSVSD23983 were used to identify ≥28 peptides with T-lymphocyte epitopes from 10 viral proteins. This included one peptide from the M protein that was recognized by T-lymphocytes from all three gilts representing two completely mismatched MHC haplotypes. In contrast to the broadly reactive T-lymphocytes,neutralizing antibody responses were specific to the infecting PRRSVSD23983 isolate. CONCLUSION These results demonstrated that T-lymphocytes recognizing antigenically and genetically diverse isolates were induced by infection with a type 2 PRRSV strain (SD23983). If these reponses have cytotoxic or other protective functions,they may help overcome the suboptimal heterologous protection conferred by conventional vaccines. View Publication

Dendritic cells (DCs) are antigen presenting cells of the immune system that play a crucial role in lymphocyte responses,host defense mechanisms,and pathogenesis of inflammation. Isolation and study of DCs have been important in biological research because of their distinctive features. Although they are essential key mediators of the immune system,DCs are very rare in blood,accounting for approximately 0.1 - 1% of total blood mononuclear cells. Therefore,alternatives for isolation methods rely on the differentiation of DCs from monocytes isolated from peripheral blood mononuclear cells (PBMCs). The utilization of proper isolation techniques that combine simplicity,affordability,high purity,and high yield of cells is imperative to consider. In the current study,two distinct methods for the generation of DCs will be compared. Monocytes were selected by adherence or negatively enriched using magnetic separation procedure followed by differentiation into DCs with IL-4 and GM-CSF. Monocyte and MDDC viability,proliferation,and phenotype were assessed using viability dyes,MTT assay,and CD11c/ CD14 surface marker analysis by imaging flow cytometry. Although the magnetic separation method yielded a significant higher percentage of monocytes with higher proliferative capacity when compared to the adhesion method,the findings have demonstrated the ability of both techniques to simultaneously generate monocytes that are capable of proliferating and differentiating into viable CD11c+ MDDCs after seven days in culture. Both methods yielded textgreater 70% CD11c+ MDDCs. Therefore,our results provide insights that contribute to the development of reliable methods for isolation and characterization of human DCs. View Publication

Long non-coding RNAs (lncRNAs) are known players in the regulatory circuitry of the self-renewal in human embryonic stem cells (hESCs). However,most hESC-specific lncRNAs remain uncharacterized. Here we demonstrate that growth-arrest-specific transcript 5 (GAS5),a known tumour suppressor and growth arrest-related lncRNA,is highly expressed and directly regulated by pluripotency factors OCT4 and SOX2 in hESCs. Phenotypic analysis shows that GAS5 knockdown significantly impairs hESC self-renewal,but its overexpression significantly promotes hESC self-renewal. Using RNA sequencing and functional analysis,we demonstrate that GAS5 maintains NODAL signalling by protecting NODAL expression from miRNA-mediated degradation. Therefore,we propose that the above pluripotency factors,GAS5 and NODAL form a feed-forward signalling loop that maintains hESC self-renewal. As this regulatory function of GAS5 is stem cell specific,our findings also indicate that the functions of lncRNAs may vary in different cell types due to competing endogenous mechanisms. View Publication

Mutations in Leucine-rich repeat kinase 2 (LRRK2) are strongly associated with familial Parkinson's disease (PD). High expression levels in immune cells suggest a role of LRRK2 in regulating the immune system. In this study,we investigated the effect of the LRRK2 (G2019S) mutation in monocytes,using a human stem cell-derived model expressing LRRK2 at endogenous levels. We discovered alterations in the differentiation pattern of LRRK2 mutant,compared to non-mutant isogenic controls,leading to accelerated monocyte production and a reduction in the non-classical CD14+CD16+ monocyte subpopulation in the LRRK2 mutant cells. LPS-treatment of the iPSC-derived monocytes significantly increased the release of pro-inflammatory cytokines,demonstrating a functional response without revealing any significant differences between the genotypes. Assessment of the migrational capacity of the differentiated monocytes revealed moderate deficits in LRRK2 mutant cells,compared to their respective controls. Our findings indicate a pivotal role of LRRK2 in hematopoietic fate decision,endorsing the involvement of the immune system in the development of PD. View Publication

Zika virus (ZIKV) is an emerging mosquito-transmitted flavivirus that can cause severe disease,including congenital birth defects during pregnancy(1). To develop candidate therapeutic agents against ZIKV,we isolated a panel of human monoclonal antibodies (mAbs) from subjects with prior ZIKV infection. A subset of mAbs recognized diverse epitopes on the envelope (E) protein and exhibited potently neutralizing activity. One of the most inhibitory mAbs,ZIKV-117,broadly neutralized infection of ZIKV strains corresponding to African,Asian,and American lineages. Epitope mapping studies revealed that ZIKV-117 recognized a unique quaternary epitope on the E protein dimer-dimer interface. We evaluated the therapeutic efficacy of ZIKV-117 in pregnant and non-pregnant mice. mAb treatment markedly reduced tissue pathology,placental and fetal infection,and mortality in mice. Thus,neutralizing human mAbs can protect against maternal-fetal transmission,infection and disease,and reveal important determinants for structure-based rational vaccine design efforts. View Publication

The influence of GABA receptor agonists on the terminal differentiation in vitro of dopaminergic (DA) neurons derived from IPS cells was investigated. GABA-A agonist muscimol induced transient elevation of intracellular Ca(2+) level ([Ca(2+)] i ) in the investigated cells at days 5 to 21 of differentiation. Differentiation of cells in the presence of muscimol reduced tyrosine hydroxylase expression. Thus,the presence of active GABA-A receptors,associated with phenotype determination via Ca(2+)-signalling was demonstrated in differentiating human DA neurons. View Publication

In fragile X syndrome (FXS),CGG repeat expansion greater than 200 triplets is believed to trigger FMR1 gene silencing and disease etiology. However,FXS siblings have been identified with more than 200 CGGs,termed unmethylated full mutation (UFM) carriers,without gene silencing and disease symptoms. Here,we show that hypomethylation of the FMR1 promoter is maintained in induced pluripotent stem cells (iPSCs) derived from two UFM individuals. However,a subset of iPSC clones with large CGG expansions carries silenced FMR1. Furthermore,we demonstrate de novo silencing upon expansion of the CGG repeat size. FMR1 does not undergo silencing during neuronal differentiation of UFM iPSCs,and expression of large unmethylated CGG repeats has phenotypic consequences resulting in neurodegenerative features. Our data suggest that UFM individuals do not lack the cell-intrinsic ability to silence FMR1 and that inter-individual variability in the CGG repeat size required for silencing exists in the FXS population. View Publication

Autologous platelet rich plasma (PRP) is clinically used to induce repair of different tissues through the release of bioactive molecules. In some patients,the production of an efficient autologous PRP is unfeasible due to their compromised health. We developed an allogeneic PRP mismatched for AB0 and Rh antigens. To broadcast its clinical applications avoiding side effects the outcome of allogeneic PRP on immune response should be defined. Thus,we investigated whether PRP affected the differentiation of peripheral blood monocytes to dendritic cells upon stimulation with granulocyte monocyte colony stimulating factor and interleukin-4. Indeed,these cells are the main players of immune response and tissue repair. PRP inhibited the differentiation of monocytes to CD1a(+) dendritic cells and favored the expansion of phagocytic CD163(+) CD206(+) fibrocyte-like cells. These cells produced inteleukin-10 and prostaglandin-E2,but not interferon-γ,upon stimulation with lipopolysaccharides. Moreover,they promoted the expansion of regulatory CD4(+) CD25(+) FoxP3(+) T cells upon allostimulation or antigen specific priming. Finally,the conditioned medium harvested from monocytes differentiated with PRP triggered a strong chemotactic effect on mesenchymal cells in both scratch and transwell migration assays. These results strongly suggest that allogeneic PRP can foster the differentiation of monocytes to a regulatory anti-inflammatory population possibly favoring wound healing. View Publication

The ability of a cancer cell to migrate through the dense extracellular matrix (ECM) within and surrounding the solid tumor is a critical determinant of metastasis. Macrophages enhance invasion and metastasis in the tumor microenvironment but the basis for their effects are not fully understood. Using a microfluidic 3D cell migration assay,we found that the presence of macrophages enhanced the speed and persistence of cancer cell migration through a 3D extracellular matrix in a matrix metalloproteinases (MMP)-dependent fashion. Mechanistic investigations revealed that macrophage-released TNFα and TGFβ1 mediated the observed behaviors by two distinct pathways. These factors synergistically enhanced migration persistence through a synergistic induction of NF-κB-dependent MMP1 expression in cancer cells. In contrast,macrophage-released TGFβ1 enhanced migration speed primarily by inducing MT1-MMP expression. Taken together,our results reveal new insights into how macrophages enhance cancer cell metastasis,and they identify TNFα and TGFβ1 dual blockade as an anti-metastatic strategy in solid tumors. View Publication

Increasing amounts of pathogen replication usually lead to a proportionate increase in size and effector differentiation of the CD8(+) T cell response,which is attributed to increased Ag and inflammation. Using a murine CMV that is highly sensitive to the antiviral drug famciclovir to modulate virus replication,we found that increased virus replication drove increased effector CD8(+) T cell differentiation,as expected. Paradoxically,however,increased virus replication dramatically decreased the size of the CD8(+) T cell response to two immunodominant epitopes. The decreased response was due to type I IFN-dependent depletion of conventional dendritic cells and could be reproduced by specific depletion of dendritic cells from day 2 postinfection or by sterile induction of type I IFN. Increased virus replication and type I IFN specifically inhibited the response to two immunodominant epitopes that are known to be dependent on Ag cross-presented by DCs,but they did not inhibit the response to inflationary" epitopes whose responses can be sustained by infected nonhematopoietic cells. Our results show that type I IFN can suppress CD8(+) T cell responses to cross-presented Ag by depleting cross-presenting conventional dendritic cells." View Publication