技术资料

Neurotrophins and their receptors are frequently expressed in malignant gliomas,yet their functions are largely unknown. Previously,we have shown that p75 neurotrophin receptor is required for glioma invasion and proliferation. However,the role of Trk receptors has not been examined. In this study,we investigated the importance of TrkB and TrkC in survival of brain tumor-initiating cells (BTICs). Here,we show that human malignant glioma tissues and also tumor-initiating cells isolated from fresh human malignant gliomas express the neurotrophin receptors TrkB and TrkC,not TrkA,and they also express neurotrophins NGF,BDNF,and neurotrophin 3 (NT3). Specific activation of TrkB and TrkC receptors by ligands BDNF and NT3 enhances tumor-initiating cell viability through activation of ERK and Akt pathways. Conversely,TrkB and TrkC knockdown or pharmacologic inhibition of Trk signaling decreases neurotrophin-dependent ERK activation and BTIC growth. Further,pharmacological inhibition of both ERK and Akt pathways blocked BDNF,and NT3 stimulated BTIC survival. Importantly,attenuation of BTIC growth by EGFR inhibitors could be overcome by activation of neurotrophin signaling,and neurotrophin signaling is sufficient for long term BTIC growth as spheres in the absence of EGF and FGF. Our results highlight a novel role for neurotrophin signaling in brain tumor and suggest that Trks could be a target for combinatorial treatment of malignant glioma. View Publication

Peripheral nerve injuries and neuropathies lead to profound functional deficits. Here,we have demonstrated that muscle-derived stem/progenitor cells (MDSPCs) isolated from adult human skeletal muscle (hMDSPCs) can adopt neuronal and glial phenotypes in vitro and ameliorate a critical-sized sciatic nerve injury and its associated defects in a murine model. Transplanted hMDSPCs surrounded the axonal growth cone,while hMDSPCs infiltrating the regenerating nerve differentiated into myelinating Schwann cells. Engraftment of hMDSPCs into the area of the damaged nerve promoted axonal regeneration,which led to functional recovery as measured by sustained gait improvement. Furthermore,no adverse effects were observed in these animals up to 18 months after transplantation. Following hMDSPC therapy,gastrocnemius muscles from mice exhibited substantially less muscle atrophy,an increase in muscle mass after denervation,and reorganization of motor endplates at the postsynaptic sites compared with those from PBS-treated mice. Evaluation of nerve defects in animals transplanted with vehicle-only or myoblast-like cells did not reveal histological or functional recovery. These data demonstrate the efficacy of hMDSPC-based therapy for peripheral nerve injury and suggest that hMDSPC transplantation has potential to be translated for use in human neuropathies. View Publication

Characterization of tissue surrounding glioblastoma (GBM) is a focus for translational research because tumor recurrence invariably occurs in this area. We investigated the expression of the progenitor/stem cell markers GD3 ganglioside and NG2 proteoglycan in GBM,peritumor tissue (brain adjacent to tumor,BAT) and cancer stem-like cells (CSCs) isolated from GBM (GCSCs) and BAT (PCSCs). GD3 and NG2 immunohistochemistry was performed in paired GBM and BAT specimens from 40 patients. Double-immunofluorescence was carried out to characterize NG2-positive cells of vessel walls. GD3 and NG2 expression was investigated in GCSCs and PCSCs whose tumorigenicity was also evaluated in Scid/bg mice. GD3 and NG2 expression was higher in tumor tissue than in BAT. NG2 decreased as the distance from tumor margin increased,regardless of the tumor cell presence,whereas GD3 correlated with neoplastic infiltration. In BAT,NG2 was coexpressed with a-smooth muscle actin (a-SMA) in pericytes and with nestin in the endothelium. Higher levels of NG2 mRNA and protein were found in GCSCs while GD3 synthase was expressed at similar levels in the 2 CSC populations. PCSCs had lower tumorigenicity than GCSCs. These data suggest the possible involvement of GD3 and NG2 in pre/pro-tumorigenic events occurring in the complex microenvironment of the tissue surrounding GBM. View Publication

Embryonal tumors with multilayered rosettes (ETMRs) are rare,deadly pediatric brain tumors characterized by high-level amplification of the microRNA cluster C19MC. We performed integrated genetic and epigenetic analyses of 12 ETMR samples and identified,in all cases,C19MC fusions to TTYH1 driving expression of the microRNAs. ETMR tumors,cell lines and xenografts showed a specific DNA methylation pattern distinct from those of other tumors and normal tissues. We detected extreme overexpression of a previously uncharacterized isoform of DNMT3B originating at an alternative promoter that is active only in the first weeks of neural tube development. Transcriptional and immunohistochemical analyses suggest that C19MC-dependent DNMT3B deregulation is mediated by RBL2,a known repressor of DNMT3B. Transfection with individual C19MC microRNAs resulted in DNMT3B upregulation and RBL2 downregulation in cultured cells. Our data suggest a potential oncogenic re-engagement of an early developmental program in ETMR via epigenetic alteration mediated by an embryonic,brain-specific DNMT3B isoform. View Publication

BIX01294 (Bix) is known to be a euchromatic histone-lysine N-methyltransferase 2 inhibitor and treatment with Bix suppresses cancer cell survival and proliferation. In the present study,it was observed that sequential treatment with low-dose Bix notably increases glioblastoma cell migration and metastasis. It was demonstrated that U251 cells sequentially treated with low-dose Bix exhibited induced characteristic changes in critical epithelial-mesenchymal transition (EMT) markers,including E-cadherin,N-cadherin,β-catenin and zinc finger protein SNAI2. Notably,sequential treatment with Bix also increased the expression of cancer stem cell-associated markers,including sex determining region Y-box 2,octamer-binding transcription factor 4 and cluster of differentiation 133. Neurosphere formation was significantly enhanced in cells sequentially treated with Bix,compared with control cells (control: P=0.011; single treatment of Bix,P=0.045). The results of the present study suggest that accumulation of low-dose Bix enhanced the migration and metastatic potential of glioblastoma cells by regulating EMT-associated gene expression,which may be the cause of the altered properties of glioblastoma stem cells. View Publication

Glioblastoma multiforme (GBM) is a grade IV malignant brain tumor with high mortality and has been well known to involve many molecular pathways,including G-protein coupled receptor (GPCR)-mediated signaling (such as epithelial growth factor receptor [EGFR] and platelet derived growth factor receptor [PDGFR]). G protein-coupled receptor kinases (GRK) directly regulate GPCR activity by phosphorylating activated agonist-bound receptors to desensitize signaling and internalize receptors through beta-arrestins. Recent studies in various cancers,including prostate and breast cancer,have highlighted the role of change in GRK expression to oncogenesis and tumor proliferation. In this study,we evaluated the expression of GRK5 in grade II to grade IV glioma specimens using immunohistochemistry and found that GRK5 expression levels are highly correlated with aggressiveness of glioma. We used culture conditions to selectively promote the growth of either glioblastoma cells with stem cell markers (GSC) or differentiated glioblastoma cells (DGC) from fresh GBM specimens. GSC are known to be highly invasive and mobile,and have the capacity to self-renew and are more resistant to chemotherapy and radiation compared to differentiated populations of GBM. We examined the expression of GRK5 in these two sets of culturing conditions for GBM cells and found that GRK5 expression is upregulated in GSC compared to differentiated GBM cells. To better understand the role of GRK5 in GBM-derived stem cells,we created stable GRK5 knockdown and evaluated the proliferation rate. Using an ATP chemiluminescence assay,we show,for the first time,that knocking down the expression of GRK5 decreased the proliferation rate of GSC in contrast to control. View Publication

Surgery is an essential component in the treatment of brain tumors. However,delineating tumor from normal brain remains a major challenge. We describe the use of stimulated Raman scattering (SRS) microscopy for differentiating healthy human and mouse brain tissue from tumor-infiltrated brain based on histoarchitectural and biochemical differences. Unlike traditional histopathology,SRS is a label-free technique that can be rapidly performed in situ. SRS microscopy was able to differentiate tumor from nonneoplastic tissue in an infiltrative human glioblastoma xenograft mouse model based on their different Raman spectra. We further demonstrated a correlation between SRS and hematoxylin and eosin microscopy for detection of glioma infiltration (κ = 0.98). Finally,we applied SRS microscopy in vivo in mice during surgery to reveal tumor margins that were undetectable under standard operative conditions. By providing rapid intraoperative assessment of brain tissue,SRS microscopy may ultimately improve the safety and accuracy of surgeries where tumor boundaries are visually indistinct. View Publication

BACKGROUND Glioblastoma (GBM),being a highly vascularised and locally invasive tumour,is an attractive target for anti-angiogenic and anti-invasive therapies. The GBM/endothelial cell response to gossypol/temozolomide (TMZ) treatment was investigated with a particular aim to assess treatment effects on cancer hallmarks. METHODS Cell viability,endothelial tube formation and GBM tumour cell invasion were variously assessed following combined treatment in vitro. The U87MG-luc2 subcutaneous xenograft model was used to investigate therapeutic response in vivo. Viable tumour response to treatment was interrogated using immunohistochemistry. Combined treatment protocols were also tested in primary GBM patient-derived cultures. RESULTS An endothelial/GBM cell viability inhibitory effect,as well as an anti-angiogenic and anti-invasive response,to combined treatment have been demonstrated in vitro. A significantly greater anti-proliferative (P=0.020,P=0.030),anti-angiogenic (P=0.040,P<0.0001) and pro-apoptotic (P=0.0083,P=0.0149) response was observed when combined treatment was compared with single gossypol/TMZ treatment response,respectively. GBM cell line and patient-specific response to gossypol/TMZ treatment was observed. CONCLUSIONS Our results indicate that response to a combined gossypol/TMZ treatment is related to inhibition of tumour-associated angiogenesis,invasion and proliferation and warrants further investigation as a novel targeted GBM treatment strategy. View Publication

INTRODUCTION Despite attempts to prevent brain injury during the hyperacute phase of stroke,most sufferers end up with significant neuronal loss and functional deficits. The use of cell-based therapies to recover the injured brain offers new hope. In the current study,we employed human neural stem cells (hNSCs) isolated from subventricular zone (SVZ),and directed their differentiation into GABAergic neurons followed by transplantation to ischemic brain. METHODS Pre-differentiated GABAergic neurons,undifferentiated SVZ-hNSCs or media alone were stereotaxically transplanted into the rat brain (n=7/group) 7 days after endothelin-1 induced stroke. Neurological outcome was assessed by neurological deficit scores and the cylinder test. Transplanted cell survival,cellular phenotype and maturation were assessed using immunohistochemistry and confocal microscopy. RESULTS Behavioral assessments revealed accelerated improvements in motor function 7 days post-transplant in rats treated with pre-differentiated GABAergic cells in comparison to media alone and undifferentiated hNSC treated groups. Histopathology 28 days-post transplant indicated that pre-differentiated cells maintained their GABAergic neuronal phenotype,showed evidence of synaptogenesis and up-regulated expression of both GABA and calcium signaling proteins associated with neurotransmission. Rats treated with pre-differentiated cells also showed increased neurogenic activity within the SVZ at 28 days,suggesting an additional trophic role of these GABAergic cells. In contrast,undifferentiated SVZ-hNSCs predominantly differentiated into GFAP-positive astrocytes and appeared to be incorporated into the glial scar. CONCLUSION Our study is the first to show enhanced exogenous repopulation of a neuronal phenotype after stroke using techniques aimed at GABAergic cell induction prior to delivery that resulted in accelerated and improved functional recovery. View Publication

Ion channels and transporters have increasingly recognized roles in cancer progression through the regulation of cell proliferation,migration,and death. Glioblastoma stem-like cells (GSCs) are a source of tumor formation and recurrence in glioblastoma multiforme,a highly aggressive brain cancer,suggesting that ion channel expression may be perturbed in this population. However,little is known about the expression and functional relevance of ion channels that may contribute to GSC malignancy. Using RNA sequencing,we assessed the enrichment of ion channels in GSC isolates and non-tumor neural cell types. We identified a unique set of GSC-enriched ion channels using differential expression analysis that is also associated with distinct gene mutation signatures. In support of potential clinical relevance,expression of selected GSC-enriched ion channels evaluated in human glioblastoma databases of The Cancer Genome Atlas and Ivy Glioblastoma Atlas Project correlated with patient survival times. Finally,genetic knockdown as well as pharmacological inhibition of individual or classes of GSC-enriched ion channels constrained growth of GSCs compared to normal neural stem cells. This first-in-kind global examination characterizes ion channels enriched in GSCs and explores their potential clinical relevance to glioblastoma molecular subtypes,gene mutations,survival outcomes,regional tumor expression,and experimental responses to loss-of-function. Together,the data support the potential biological and therapeutic impact of ion channels on GSC malignancy and provide strong rationale for further examination of their mechanistic and therapeutic importance. View Publication

BACKGROUND Neuroblastoma (NB),a tumor of the primitive neural crest,despite aggressive treatment portends a poor long-term survival for patients with advanced high stage NB. New treatment strategies are required. METHODS We investigated coordinated targeting of essential homeostatic regulatory factors involved in cancer progression,histone deacetylases (HDACs) and carbonic anhydrases (CAs). RESULTS We evaluated the antitumor potential of the HDAC inhibitor (HDACi),pyridylmethyl-N-4-[(2-aminophenyl)-carbamoyl]-benzyl-carbamate (MS-275) in combination with a pan CA inhibitor,acetazolamide (AZ) on NB SH-SY5Y,SK-N-SH and SK-N-BE(2) cells. The key observation was that the combination AZ + MS-275 significantly inhibited growth,induced cell cycle arrest and apoptosis,and reduced migration capacity of NB cell line SH-SY5Y. In addition,this combination significantly inhibited tumor growth in vivo,in a pre-clinical xenograft model. Evidence was obtained for a marked reduction in tumorigenicity and in the expression of mitotic,proliferative,HIF-1α and CAIX. NB xenografts of SH-SY5Y showed a significant increase in apoptosis. CONCLUSION MS-275 alone at nanomolar concentrations significantly reduced the putative cancer stem cell (CSC) fraction of NB cell lines,SH-SY5Y and SK-N-BE(2),in reference to NT2/D1,a teratocarcinoma cell line,exhibiting a strong stem cell like phenotype in vitro. Whereas stemness genes (OCT4,SOX2 and Nanog) were found to be significantly downregulated after MS-275 treatment,this was further enhanced by AZ co-treatment. The significant reduction in initial tumorigenicity and subsequent abrogation upon serial xenografting suggests potential elimination of the NB CSC fraction. The significant potentiation of MS-275 by AZ is a promising therapeutic approach and one amenable for administration to patients given their current clinical utility. View Publication