Scientific Resources

Netrin-1 is a neuronal guidance cue that regulates cellular activation,migration,and cytoskeleton rearrangement in multiple cell types. It is a chemotropic protein that is expressed within tissues and elicits both attractive and repulsive migratory responses. Netrin-1 has recently been found to modulate the immune response via the inhibition of neutrophil and macrophage migration. However,the ability of Netrin-1 to interact with lymphocytes and its in-depth effects on leukocyte migration are poorly understood. In this study,we profiled the mRNA and protein expression of known Netrin-1 receptors on human CD4(+) T cells. Neogenin,uncoordinated-5 (UNC5)A,and UNC5B were expressed at low levels in unstimulated cells,but they increased following mitogen-dependent activation. By immunofluorescence,we observed a cytoplasmic staining pattern of neogenin and UNC5A/B that also increased following activation. Using a novel microfluidic assay,we found that Netrin-1 stimulated bidirectional migration and enhanced the size of migratory subpopulations of mitogen-activated CD4(+) T cells,but it had no demonstrable effects on the migration of purified CD4(+)CD25(+)CD127(dim) T regulatory cells. Furthermore,using a short hairpin RNA knockdown approach,we observed that the promigratory effects of Netrin-1 on T effectors is dependent on its interactions with neogenin. In the humanized SCID mouse,local injection of Netrin-1 into skin enhanced inflammation and the number of neogenin-expressing CD3(+) T cell infiltrates. Neogenin was also observed on CD3(+) T cell infiltrates within human cardiac allograft biopsies with evidence of rejection. Collectively,our findings demonstrate that Netrin-1/neogenin interactions augment CD4(+) T cell chemokinesis and promote cellular infiltration in association with acute inflammation in vivo. View Publication

Group 2 innate lymphoid cells (ILC2s) in the lung are stimulated by inhaled allergens. ILC2s do not directly recognize allergens but they are stimulated by cytokines including interleukin (IL)-33 released by damaged epithelium. In response to allergens,lung ILC2s produce T helper 2 cell type cytokines inducing T cell-independent allergic lung inflammation. Here we examined the fate of lung ILC2s upon allergen challenges. ILC2s proliferated and secreted cytokines upon initial stimulation with allergen or IL-33,and this phase was followed by a contraction phase as cytokine production ceased. Some ILC2s persisted long after the resolution of the inflammation as allergen-experienced ILC2s and responded to unrelated allergens more potently than naive ILC2s,mediating severe allergic inflammation. The allergen-experienced ILC2s exhibited a gene expression profile similar to that of memory T cells. The memory-like properties of allergen-experienced ILC2s may explain why asthma patients are often sensitized to multiple allergens. View Publication

Innate lymphoid cells (ILCs) are a new family of immune cells that play important roles in innate immunity in mucosal tissues,and in the maintenance of tissue and metabolic homeostasis. Recently,group 2 ILCs (ILC2s) were found to promote the development and effector functions of Th2-type CD4(+) T cells by interacting directly with T cells or by activating dendritic cells,suggesting a role for ILC2s in regulating adaptive immunity. However,our current knowledge on the role of ILCs in humoral immunity is limited. In this study,we found that ILC2s isolated from the lungs of naive BALB/c mice enhanced the proliferation of B1- as well as B2-type B cells and promoted the production of IgM,IgG1,IgA,and IgE by these cells in vitro. Soluble factors secreted by ILC2s were sufficient to enhance B cell Ig production. By using blocking Abs and ILC2s isolated from IL-5-deficient mice,we found that ILC2-derived IL-5 is critically involved in the enhanced production of IgM. Furthermore,when adoptively transferred to Il7r(-/-) mice,which lack ILC2s and mature T cells,lung ILC2s promoted the production of IgM Abs to a polysaccharide Ag,4-hydroxy-3-nitrophenylacetyl Ficoll,within 7 d of airway exposure in vivo. These findings add to the growing body of literature regarding the regulatory functions of ILCs in adaptive immunity,and suggest that lung ILC2s promote B cell production of early Abs to a respiratory Ag even in the absence of T cells. View Publication

Cancer-targeting alkylphosphocholine (APC) analogs are being clinically developed for diagnostic imaging,intraoperative visualization,and therapeutic applications. These APC analogs derived from chemically-synthesized phospholipid ethers were identified and optimized for cancer-targeting specificity using extensive structure-activity studies. While they strongly label human brain cancers associated with disrupted blood-brain barriers (BBB),APC permeability across intact BBB remains unknown. Three of our APC analogs,CLR1404 (PET radiotracer),CLR1501 (green fluorescence),and CLR1502 (near infrared fluorescence),were tested for permeability across a BBB model composed of human induced pluripotent stem cell-derived brain microvascular endothelial cells (iPSC-derived BMECs). This in vitro BBB system has reproducibly consistent high barrier integrity marked by high transendothelial electrical resistance (TEERtextgreater1500 Ω-cm(2)) and functional expression of drug efflux transporters. Our radioiodinated and fluorescent APC analogs demonstrated fairly low permeability across the iPSC-BMEC (35±5.7 (CLR1404),54±3.2 (CLR1501),and 26±4.9 (CLR1502) x10(-5) cm/min) compared with BBB-impermeable sucrose (13±2.5) and BBB-permeable diazepam (170±29). Only our fluorescent APC analogs (CLR1501,CLR1502) underwent BCRP and MRP polarized drug efflux transport in the brain-to-blood direction of the BBB model and this efflux can be specifically blocked with pharmacological inhibition. None of our tested APC analogs appeared to undergo substantial P-gp transport. Limited permeability of our APC analogs across an intact BBB into normal brain likely contributes to the high tumor to background ratios observed in initial human trials. Moreover,addition of fluorescent moieties to APCs resulted in greater BMEC efflux via MRP and BCRP,and may affect fluorescence-guided applications. Overall,the characterization of APC analog permeability across human BBB is significant for advancing future brain tumor-targeted applications of these agents. View Publication

Stem-cell differentiation to desired lineages requires navigating alternating developmental paths that often lead to unwanted cell types. Hence,comprehensive developmental roadmaps are crucial to channel stem-cell differentiation toward desired fates. To this end,here,we map bifurcating lineage choices leading from pluripotency to 12 human mesodermal lineages,including bone,muscle,and heart. We defined the extrinsic signals controlling each binary lineage decision,enabling us to logically block differentiation toward unwanted fates and rapidly steer pluripotent stem cells toward 80%???99% pure human mesodermal lineages at most branchpoints. This strategy enabled the generation of human bone and heart progenitors that could engraft in respective in??vivo models. Mapping stepwise chromatin and single-cell gene expression changes in mesoderm development uncovered somite segmentation,a previously unobservable human embryonic event transiently marked by HOPX expression. Collectively,this roadmap enables navigation of mesodermal development to produce transplantable human tissue progenitors and uncover developmental processes. Video Abstract View Publication

PAIRED (PRD)-like homeobox genes belong to a class of predicted transcription factor genes. Several of these PRD-like homeobox genes have been predicted in silico from genomic sequence but until recently had no evidence of transcript expression. We found recently that nine PRD-like homeobox genes,ARGFX,CPHX1,CPHX2,DPRX,DUXA,DUXB,NOBOX,TPRX1 and TPRX2,were expressed in human preimplantation embryos. In the current study we characterized these PRD-like homeobox genes in depth and studied their functions as transcription factors. We cloned multiple transcript variants from human embryos and showed that the expression of these genes is specific to embryos and pluripotent stem cells. Overexpression of the genes in human embryonic stem cells confirmed their roles as transcription factors as either activators (CPHX1,CPHX2,ARGFX) or repressors (DPRX,DUXA,TPRX2) with distinct targets that could be explained by the amino acid sequence in homeodomain. Some PRD-like homeodomain transcription factors had high concordance of target genes and showed enrichment for both developmentally important gene sets and a 36 bp DNA recognition motif implicated in Embryo Genome Activation (EGA). Our data implicate a role for these previously uncharacterized PRD-like homeodomain proteins in the regulation of human embryo genome activation and preimplantation embryo development. View Publication

There is an urgent need for an efficient approach to obtain a large-scale and renewable source of functional human vascular smooth muscle cells (VSMCs) to establish robust,patient-specific tissue model systems for studying the pathogenesis of vascular disease,and for developing novel therapeutic interventions. Here,we have derived a large quantity of highly enriched functional VSMCs from human induced pluripotent stem cells (hiPSC-VSMCs). Furthermore,we have engineered 3D tissue rings from hiPSC-VSMCs using a facile one-step cellular self-assembly approach. The tissue rings are mechanically robust and can be used for vascular tissue engineering and disease modeling of supravalvular aortic stenosis syndrome. Our method may serve as a model system,extendable to study other vascular proliferative diseases for drug screening. Thus,this report describes an exciting platform technology with broad utility for manufacturing cell-based tissues and materials for various biomedical applications. View Publication

Group 3 innate lymphoid cells (ILC3) are major regulators of inflammation and infection at mucosal barriers. ILC3 development is thought to be programmed,but how ILC3 perceive,integrate and respond to local environmental signals remains unclear. Here we show that ILC3 in mice sense their environment and control gut defence as part of a glial"ILC3"epithelial cell unit orchestrated by neurotrophic factors. We found that enteric ILC3 express the neuroregulatory receptor RET. ILC3-autonomous Ret ablation led to decreased innate interleukin-22 (IL-22),impaired epithelial reactivity,dysbiosis and increased susceptibility to bowel inflammation and infection. Neurotrophic factors directly controlled innate Il22 downstream of the p38 MAPK/ERK-AKT cascade and STAT3 activation. Notably,ILC3 were adjacent to neurotrophic-factor-expressing glial cells that exhibited stellate-shaped projections into ILC3 aggregates. Glial cells sensed microenvironmental cues in a MYD88-dependent manner to control neurotrophic factors and innate IL-22. Accordingly,glial-intrinsic Myd88 deletion led to impaired production of ILC3-derived IL-22 and a pronounced propensity towards gut inflammation and infection. Our work sheds light on a novel multi-tissue defence unit,revealing that glial cells are central hubs of neuron and innate immune regulation by neurotrophic factor signals. View Publication

The essential functions of Polycomb Repressive Complex 1 (PRC1) in development and gene silencing are thought to involve long non-coding RNAs (lncRNAs),but few specific lncRNAs that guide PRC1 activity are known. We screened for lncRNAs which co-precipitate with PRC1 from chromatin and found candidates that impact Polycomb Group protein (PcG)-regulated gene expression in vivo. A novel lncRNA from this screen,CAT7,regulates expression and PcG binding at the MNX1 locus during early neuronal differentiation. CAT7 contains a unique tandem repeat domain which shares high sequence similarity to a non-syntenic zebrafish analog,cat7l. Defects caused by interference of cat7l RNA during zebrafish embryogenesis were rescued by human CAT7 RNA,enhanced by interference of a PRC1 component,and suppressed by interference of a known PRC1 target gene,demonstrating cat7l genetically interacts with a PRC1. We propose a model whereby PRC1 acts in concert with specific lncRNAs,and that CAT7/cat7l represent convergent lncRNAs that independently evolved to tune PRC1 repression at individual loci. View Publication

Reliable,scalable and time-efficient culture methods are required to fully realize the clinical and industrial applications of human pluripotent stem (hPS) cells. Here we present a completely defined,xeno-free medium that supports long-term propagation of hPS cells on uncoated tissue culture plastic. The medium consists of the Essential 8 (E8) formulation supplemented with inter-α-inhibitor (IαI),a human serum-derived protein,recently demonstrated to activate key pluripotency pathways in mouse PS cells. IαI efficiently induces attachment and long-term growth of both embryonic and induced hPS cell lines when added as a soluble protein to the medium at seeding. IαI supplementation efficiently supports adaptation of feeder-dependent hPS cells to xeno-free conditions,clonal growth as well as single-cell survival in the absence of Rho-associated kinase inhibitor (ROCKi). This time-efficient and simplified culture method paves the way for large-scale,high-throughput hPS cell culture,and will be valuable for both basic research and commercial applications. View Publication

Photoreceptor degeneration due to retinitis pigmentosa (RP) is a primary cause of inherited retinal blindness. Photoreceptor cell-replacement may hold the potential for repair in a completely degenerate retina by reinstating light sensitive cells to form connections that relay information to downstream retinal layers. This study assessed the therapeutic potential of photoreceptor progenitors derived from human embryonic and induced pluripotent stem cells (ESCs and iPSCs) using a protocol that is suitable for future clinical trials. ESCs and iPSCs were cultured in four specific stages under defined conditions,resulting in generation of a near-homogeneous population of photoreceptor-like progenitors. Following transplantation into mice with end-stage retinal degeneration,these cells differentiated into photoreceptors and formed a cell layer connected with host retinal neurons. Visual function was partially restored in treated animals,as evidenced by two visual behavioral tests. Furthermore,the magnitude of functional improvement was positively correlated with the number of engrafted cells. Similar efficacy was observed using either ESCs or iPSCs as source material. These data validate the potential of human pluripotent stem cells for photoreceptor replacement therapies aimed at photoreceptor regeneration in retinal disease. View Publication

PURPOSE To model keratoconus (KC) using induced pluripotent stem cells (iPSC) generated from fibroblasts of both KC and normal human corneal stroma by a viral method. METHODS Both normal and KC corneal fibroblasts from four human donors were reprogramed directly by delivering reprogramming factors in a single virus using 2A self-cleaving" peptides� View Publication