Scientific Resources

In order to further evaluate the parameters whereby intracerebral administration of recombinant α-synuclein (αS) induces pathological phenotypes in mice,we conducted a series of studies where αS fibrils were injected into the brains of M83 (A53T) and M47 (E46K) αS transgenic (Tg) mice,and non-transgenic (nTg) mice. Using multiple markers to assess αS inclusion formation,we find that injected fibrillar human αS induced widespread cerebral αS inclusion formation in the M83 Tg mice,but in both nTg and M47 Tg mice,induced αS inclusion pathology is largely restricted to the site of injection. Furthermore,mouse αS fibrils injected into nTg mice brains also resulted in inclusion pathology restricted to the site of injection with no evidence for spread. We find no compelling evidence for extensive spread of αS pathology within white matter tracts,and we attribute previous reports of white matter tract spreading to cross-reactivity of the αS pSer129/81A antibody with phosphorylated neurofilament subunit L. These studies suggest that,with the exception of the M83 Tg mice which appear to be uniquely susceptible to induction of inclusion pathology by exogenous forms of αS,there are significant barriers in mice to widespread induction of αS pathology following intracerebral administration of amyloidogenic αS. View Publication

We studied a new method of treatment of amyotrophic lateral sclerosis with autologous mesenchymal stem cells. Autologous mesenchymal stem cells were injected intravenously (intact cells) or via lumbar puncture (cells committed to neuronal differentiation). Evaluation of the results of cell therapy after 12-month follow-up revealed slowing down of the disease progression in 10 patients in comparison with the control group consisting of 15 patients. The cell therapy was safe for the patients. View Publication

UNLABELLED Herpes simplex virus 1 (HSV-1) establishes lifelong latent infections in the sensory neurons of the trigeminal ganglia (TG),wherein it retains the capacity to reactivate. The interferon (IFN)-driven antiviral response is critical for the control of HSV-1 acute replication. We therefore sought to further investigate this response in TG neurons cultured from adult mice deficient in a variety of IFN signaling components. Parallel experiments were also performed in fibroblasts isolated concurrently. We showed that HSV-1 replication was comparable in wild-type (WT) and IFN signaling-deficient neurons and fibroblasts. Unexpectedly,a similar pattern was observed for the IFN-sensitive vesicular stomatitis virus (VSV). Despite these findings,TG neurons responded to IFN-β pretreatment with STAT1 nuclear localization and restricted replication of both VSV and an HSV-1 strain deficient in γ34.5,while wild-type HSV-1 replication was unaffected. This was in contrast to fibroblasts in which all viruses were restricted by the addition of IFN-β. Taken together,these data show that adult TG neurons can mount an effective antiviral response only if provided with an exogenous source of IFN-β,and HSV-1 combats this response through γ34.5. These results further our understanding of the antiviral response of neurons and highlight the importance of paracrine IFN-β signaling in establishing an antiviral state. IMPORTANCE Herpes simplex virus 1 (HSV-1) is a ubiquitous virus that establishes a lifelong latent infection in neurons. Reactivation from latency can cause cold sores,blindness,and death from encephalitis. Humans with deficiencies in innate immunity have significant problems controlling HSV infections. In this study,we therefore sought to elucidate the role of neuronal innate immunity in the control of viral infection. Using neurons isolated from mice,we found that the intrinsic capacity of neurons to restrict virus replication was unaffected by the presence or absence of innate immunity. In contrast,neurons were able to mount a robust antiviral response when provided with beta interferon,a molecule that strongly stimulates innate immunity,and that HSV-1 can combat this response through the γ34.5 viral gene. Our results have important implications for understanding how the nervous system defends itself against virus infections. View Publication

Recombinant adeno-associated viruses (rAAV) have been widely used in gene therapy applications for central nervous system diseases. Though rAAV can efficiently target neurons and astrocytes in mouse brains,microglia,the immune cells of the brain,are refractile to rAAV. To identify AAV capsids with microglia-specific transduction properties,we initially screened the most commonly used serotypes,AAV1-9 and rh10,on primary mouse microglia cultures. While these capsids were not permissive,we then tested the microglial targeting properties of a newly characterized set of modified rAAV6 capsid variants with high tropism for monocytes. Indeed,these newly characterized rAAV6 capsid variants,specially a triply mutated Y731F/Y705F/T492V form,carrying a self-complementary genome and microglia-specific promoters (F4/80 or CD68) could efficiently and selectively transduce microglia in vitro. Delivery of these constructs in mice brains resulted in microglia-specific expression of green fluorescent protein,albeit at modest levels. We further show that CD68 promoter-driven expression of the inflammatory cytokine,interleukin-6,using this capsid variant leads to increased astrogliosis in the brains of wild-type mice. Our study describes the first instance of AAV-targeted microglial gene expression leading to functional modulation of the innate immune system in mice brains. This provides the rationale for utilizing these unique capsid/promoter combinations for microglia-specific gene targeting for modeling or functional studies. View Publication

Neurogenesis in the subventricular zone (SVZ) is regulated by diffusible factors and cell-cell contacts. In vivo,SVZ stem cells are associated with the abluminal surface of blood vessels and such interactions are thought to regulate their neurogenic capacity. SVZ neural stem cells (NSCs) have been described to contact endothelial-derived laminin via α6β1 integrin. To elucidate whether heterocellular contacts with brain endothelial cells (BEC) regulate SVZ cells neurogenic capacities,cocultures of SVZ neurospheres and primary BEC,both obtained from C57BL/6 mice,were performed. The involvement of laminin-integrin interactions in SVZ homeostasis was tested in three ways. Firstly,SVZ cells were analyzed following incubation of BEC with the protein synthesis inhibitor cycloheximide (CHX) prior to coculture,a treatment expected to decrease membrane proteins. Secondly,SVZ cells were cocultured with BEC in the presence of an anti-α6 integrin neutralizing antibody. Thirdly,BEC were cultured with β1-/- SVZ cells. We showed that contact with BEC supports,at least in part,proliferation and stemness of SVZ cells,as evaluated by the number of BrdU positive (+) and Sox2+ cells in contact with BEC. These effects are dependent on BEC-derived laminin binding to α6β1 integrin and are decreased in cocultures incubated with anti-α6 integrin neutralizing antibody and in cocultures with SVZ β1-/- cells. Moreover,BEC-derived laminin sustains stemness in SVZ cell cultures via activation of the Notch and mTOR signaling pathways. Our results show that BEC/SVZ interactions involving α6β1 integrin binding to laminin,contribute to SVZ cell proliferation and stemness. View Publication

Prion diseases are irreversible progressive neurodegenerative diseases,leading to severe incapacity and death. They are characterized in the brain by prion amyloid deposits,vacuolisation,astrocytosis,neuronal degeneration,and by cognitive,behavioural and physical impairments. There is no treatment for these disorders and stem cell therapy therefore represents an interesting new approach. Gains could not only result from the cell transplantation,but also from the stimulation of endogenous neural stem cells (NSC) or by the combination of both approaches. However,the development of such strategies requires a detailed knowledge of the pathology,particularly concerning the status of the adult neurogenesis and endogenous NSC during the development of the disease. During the past decade,several studies have consistently shown that NSC reside in the adult mammalian central nervous system (CNS) and that adult neurogenesis occurs throughout the adulthood in the subventricular zone of the lateral ventricle or the Dentate Gyrus of the hippocampus. Adult NSC are believed to constitute a reservoir for neuronal replacement during normal cell turnover or after brain injury. However,the activation of this system does not fully compensate the neuronal loss that occurs during neurodegenerative diseases and could even contribute to the disease progression. We investigated here the status of these cells during the development of prion disorders. We were able to show that NSC accumulate and replicate prions. Importantly,this resulted in the alteration of their neuronal fate which then represents a new pathologic event that might underlie the rapid progression of the disease. View Publication

The extracellular matrix (ECM) is an important contributor to the asthmatic phenotype. Recent studies investigating airway inflammation have demonstrated an association between hyaluronan (HA) accumulation and inflammatory cell infiltration of the airways. The ECM proteoglycan versican interacts with HA and is important in the recruitment and activation of leukocytes during inflammation. We investigated the role of versican in the pathogenesis of asthmatic airway inflammation. Using cockroach antigen (CRA)-sensitized murine models of allergic asthma,we demonstrate increased subepithelial versican in the airways of CRA-treated mice that parallels subepithelial increases in HA and leukocyte infiltration. During the acute phase,CRA-treated mice displayed increased gene expression of the four major versican isoforms,as well as increased expression of HA synthases. Furthermore,in a murine model that examines both acute and chronic CRA exposure,versican staining peaked 8 days following CRA challenge and preceded subepithelial leukocyte infiltration. We also assessed versican and HA expression in differentiated primary human airway epithelial cells from asthmatic and healthy children. Increases in the expression of versican isoforms and HA synthases in these epithelial cells were similar to those of the murine model. These data indicate an important role for versican in the establishment of airway inflammation in asthma. View Publication

Human induced pluripotent stem cells (hiPSCs) are being considered for use in understanding haematopoietic disorders and as a potential source of in vitro manufactured red cells. Here,we show that hiPSCs are able to recapitulate various stages of developmental erythropoiesis. We show that primitive erythroblasts arise first,express CD31(+) with CD235a(+),embryonic globins and red cell markers,but fail to express the hallmark red cell transcripts of adult erythropoiesis. When hiPSC-derived CD45(+) CD235a(-) haematopoietic progenitors are isolated on day 12 and further differentiated on OP9 stroma,they selectively express CD36(+) and CD235a(+),adult erythroid transcripts for transcription factors (e.g.,BCL11A,KLF1) and fetal/adult globins (HBG1/2,HBB). Importantly,hiPSC- and cord-derived CD36(+) CD235a(+) erythroblasts show a striking homology by transcriptome array profiling (only 306 transcripts with a 2Log fold change<1textperiodcentered5- or 2textperiodcentered8-fold). Phenotypic and transcriptome profiling of CD45(+) CD117(+) CD235a(+) pro-erythroblasts and terminally differentiated erythroblasts is also provided,including evidence of a HbF (fetal) to HbA (adult) haemoglobin switch and enucleation,that mirrors their definitive erythroblast cord-derived counterparts. These findings provide a molecular roadmap of developmental erythropoiesis from hiPSC sources at several critical stages,but also helps to inform on their use for clinical applications and modelling human haematopoietic disease. View Publication

Human induced pluripotent stem cells (iPSCs) derived cardiomyocytes (iCMCs) would provide an unlimited cell source for regenerative medicine and drug discoveries. The objective of our study is to generate functional cardiomyocytes from human iPSCs and to develop a novel method of measuring contractility of CMCs. In a series of experiments,adult human skin fibroblasts (HSF) and human umbilical vein endothelial cells (HUVECs) were treated with a combination of pluripotent gene DNA and mRNA under specific conditions. The iPSC colonies were identified and differentiated into various cell lineages,including CMCs. The contractile activity of CMCs was measured by a novel method of frame-by-frame cross correlation (particle image velocimetry-PIV) analysis. Our treatment regimen transformed 4% of HSFs into iPSC colonies at passage 0,a significantly improved efficiency compared with use of either DNA or mRNA alone. The iPSCs were capable of differentiating both in vitro and in vivo into endodermal,ectodermal and mesodermal cells,including CMCs with<88% of cells being positive for troponin T (CTT) and Gata4 by flow cytometry. We report a highly efficient combination of DNA and mRNA to generate iPSCs and functional iCMCs from adult human cells. We also report a novel approach to measure contractility of iCMCs. View Publication

Certain limitations of the neurosphere assay (NSA) have resulted in a search for alternative culture techniques for brain tumor-initiating cells (TICs). Recently,reports have described growing glioblastoma (GBM) TICs as a monolayer using laminin. We performed a side-by-side analysis of the NSA and laminin (adherent) culture conditions to compare the growth and expansion of GBM TICs. GBM cells were grown using the NSA and adherent culture conditions. Comparisons were made using growth in culture,apoptosis assays,protein expression,limiting dilution clonal frequency assay,genetic affymetrix analysis,and tumorigenicity in vivo. In vitro expansion curves for the NSA and adherent culture conditions were virtually identical (P=0.24) and the clonogenic frequencies (5.2% for NSA vs. 5.0% for laminin,P=0.9) were similar as well. Likewise,markers of differentiation (glial fibrillary acidic protein and beta tubulin III) and proliferation (Ki67 and MCM2) revealed no statistical difference between the sphere and attachment methods. Several different methods were used to determine the numbers of dead or dying cells (trypan blue,DiIC,caspase-3,and annexin V) with none of the assays noting a meaningful variance between the two methods. In addition,genetic expression analysis with microarrays revealed no significant differences between the two groups. Finally,glioma cells derived from both methods of expansion formed large invasive tumors exhibiting GBM features when implanted in immune-compromised animals. A detailed functional,protein and genetic characterization of human GBM cells cultured in serum-free defined conditions demonstrated no statistically meaningful differences when grown using sphere (NSA) or adherent conditions. Hence,both methods are functionally equivalent and remain suitable options for expanding primary high-grade gliomas in tissue culture. View Publication

AIM Bevacizumab has been reported to result in increased tumor invasion when used to treat malignant glioma. We hypothesized that BMP4 would prevent diffuse tumor infiltration induced by bevacizumab for malignant glioma in a xenograft model. METHODS Human glioblastoma (GBM) tumor cells were implanted in the striatum of immunocompromised mice. The animals were treated with bevacizumab and BMP4. Tumor growth and invasion were measured. RESULTS The bevacizumab-treated mice had increased survival compared with control animals (p = 0.02). BMP4 alone did not result in improved survival (p = 1.0). The bevacizumab (p = 0.006) and bevacizumab plus BMP4 (p = 0.006) groups demonstrated significantly decreased total tumor size compared with control. Tumor invasion was significantly decreased in the bevacizumab (p = 0.005),BMP4 (p = 0.04) alone and bevacizumab plus BMP4 (p = 0.002) groups compared with control. No synergistic effect between bevacizumab and BMP4 was observed. CONCLUSION Bevacizumab treatment did not result in diffuse infiltration of human GBM in a mouse xenograft model. BMP4 did have an independent favorable effect on GBM that was not synergistic with bevacizumab treatment. View Publication

Somatic cell reprogramming may become a powerful approach to generate specific human cell types for cell-fate determination studies and potential transplantation therapies of neurological diseases. Here we report a reprogramming methodology with which human adipose stem cells (hADSCs) can be differentiated into neural cells. After being reprogrammed with polycistronic plasmid carrying defined factor OCT3/4,SOX2,KLF4 and c-MYC,and further treated with neural induce medium,the hADSCs switched to differentiate toward neural cell lineages. The generated cells had normal karyotypes and exogenous vector sequences were not inserted in the genomes. Therefore,this cell lineage conversion methodology bypasses the risk of mutation and gene instability,and provides a novel strategy to obtain patient-specific neural cells for basic research and therapeutic application. View Publication