技术资料

Activation of neural stem/progenitor cells (NSPCs) is a potential therapeutic strategy of neurological disorders. In this study,NSPCs of subventricular zone were isolated and cultured from platelet-derived growth factor-β-receptor-knockout (PDGFR-β(-/-)) mice of postnatal day 1 (P1) and P28,and the roles of PDGFR-β were examined in these cells. In PDGFR-β-preserving control NSPCs,stem cell activities,such as numbers and diameters of secondary neurospheres,cell proliferation and survival rates,were significantly higher in P1 NSPCs than those in P28 NSPCs. In PDGFR-β(-/-) NSPCs,most of these parameters were decreased as compared with age-matched controls. Among them,the decrease of secondary neurosphere formation was most striking in P1 and P28 PDGFR-β(-/-) NSPCs and in P28 control NSPCs as compared with P1 control NSPCs. PCR-array and following quantitative real-time PCR (qRT-PCR) analyses demonstrated that expressions of fibroblast growth factor-2 (FGF2) and exons IV-IX of brain-derived neurotrophic factor (BDNF) were decreased,and noggin was increased in P1 PDGFR-β(-/-) as compared with P1 controls. Addition of BDNF rescued the number and diameter of secondary neurospheres in P1 PDGFR-β(-/-) NSPCs to similar levels as controls. The expressions of PDGFs and PDGFRs in control NSPCs were increased along with the differentiation-induction,where phosphorylated PDGFR-β was co-localized with neuronal and astrocyte differentiation markers. In controls,the neuronal differentiation was decreased,and the glial differentiation was increased from P1 to P28 NSPCs. Compared with P1 controls,neuronal differentiation was reduced in P1 PDGFR-β(-/-) NSPCs,whereas glial differentiation was comparable between the two genotypes. These results suggest that PDGFR-β signaling is important for the self-renewal and multipotency of NSPCs,particularly in neonatal NSPCs. BDNF,FGF2,and noggin may be involved in the effects of PDGFR-β signaling in these cells. Accordingly,the activation of PDGFR-β in NSPCs may be a novel therapeutic strategy of neurological diseases. View Publication

Medulloblastoma is the most common pediatric malignant brain tumor. Although current therapies improve survival,these regimens are highly toxic and are associated with significant morbidity. Here,we report that placental growth factor (PlGF) is expressed in the majority of medulloblastomas,independent of their subtype. Moreover,high expression of PlGF receptor neuropilin 1 (Nrp1) correlates with poor overall survival in patients. We demonstrate that PlGF and Nrp1 are required for the growth and spread of medulloblastoma: PlGF/Nrp1 blockade results in direct antitumor effects in vivo,resulting in medulloblastoma regression,decreased metastasis,and increased mouse survival. We reveal that PlGF is produced in the cerebellar stroma via tumor-derived Sonic hedgehog (Shh) and show that PlGF acts through Nrp1-and not vascular endothelial growth factor receptor 1-to promote tumor cell survival. This critical tumor-stroma interaction-mediated by Shh,PlGF,and Nrp1 across medulloblastoma subtypes-supports the development of therapies targeting PlGF/Nrp1 pathway. View Publication

Recent advances in the ability to efficiently characterize tumor genomes is enabling targeted drug development,which requires rigorous biomarker-based patient selection to increase effectiveness. Consequently,representative DNA biomarkers become equally important in pre-clinical studies. However,it is still unclear how well these markers are maintained between the primary tumor and the patient-derived tumor models. Here,we report the comprehensive identification of somatic coding mutations and copy number aberrations in four glioblastoma (GBM) primary tumors and their matched pre-clinical models: serum-free neurospheres,adherent cell cultures,and mouse xenografts. We developed innovative methods to improve the data quality and allow a strict comparison of matched tumor samples. Our analysis identifies known GBM mutations altering PTEN and TP53 genes,and new actionable mutations such as the loss of PIK3R1,and reveals clear patient-to-patient differences. In contrast,for each patient,we do not observe any significant remodeling of the mutational profile between primary to model tumors and the few discrepancies can be attributed to stochastic errors or differences in sample purity. Similarly,we observe 96% primary-to-model concordance in copy number calls in the high-cellularity samples. In contrast to previous reports based on gene expression profiles,we do not observe significant differences at the DNA level between in vitro compared to in vivo models. This study suggests,at a remarkable resolution,the genome-wide conservation of a patient's tumor genetics in various pre-clinical models,and therefore supports their use for the development and testing of personalized targeted therapies. View Publication

Prominin-1 (CD133) is commonly used to isolate stem and progenitor cells from the developing and adult nervous system and to identify cancer stem cells in brain tumors. However,despite extensive characterization of Prominin-1(+) precursor cells from the adult subventricular zone,no information about the expression of Prominin-1 by precursor cells in the subgranular zone (SGZ) of the adult hippocampus has been available. We show here that Prominin-1 is expressed by a significant number of cells in the SGZ of adult mice in vivo and ex vivo,including postmitotic astrocytes. A small subset of Prominin-1(+) cells coexpressed the nonspecific precursor cell marker Nestin as well as GFAP and Sox2. Upon fluorescence-activated cell sorting,only Prominin-1/Nestin double-positive cells fulfilled the defining stem cell criteria of proliferation,self-renewal,and multipotentiality as assessed by a neurosphere assay. In addition,isolated primary Prominin-1(+) cells preferentially migrated to the neurogenic niche in the SGZ upon transplantation in vivo. Finally,despite its expression by various stem and progenitor cells,Prominin-1 turned out to be dispensable for precursor cell proliferation in vitro and in vivo. Nevertheless,a net decrease in hippocampal neurogenesis,by ∼30% was found in Prominin-1 knock-out mice,suggesting other roles in controlling adult hippocampal neurogenesis. Remarkably,an upregulation of Prominin-2 was detected in Prominin-1-deficient mice highlighting a potential compensatory mechanism,which might explain the lack of severe symptoms in individuals carrying mutations in the Prom1 gene. View Publication

Within the two neurogenic niches of the adult mammalian brain,i.e.,the subventricular zone lining the lateral ventricle and the subgranular zone of the hippocampus,there exist distinct populations of proliferating neural precursor cells that differentiate to generate new neurons. Numerous studies have suggested that epigenetic regulation by histone-modifying proteins is important in guiding precursor differentiation during development; however,the role of these proteins in regulating neural precursor activity in the adult neurogenic niches remains poorly understood. Here we examine the role of an NAD(+) -dependent histone deacetylase,SIRT1,in modulating the neurogenic potential of neural precursors in the neurogenic niches of the adult mouse brain. We show that SIRT1 is expressed by proliferating adult subventricular zone and hippocampal neural precursors,although its transcript and protein levels are dramatically reduced during neural precursor differentiation. Utilizing a lentiviral-mediated delivery strategy,we demonstrate that abrogation of SIRT1 signaling by RNAi does not affect neural precursor numbers or their proliferation. However,SIRT1 knock down results in a significant increase in neuronal production in both the subventricular zone and the hippocampus. In contrast,enhancing SIRT1 signaling either through lentiviral-mediated SIRT1 overexpression or through use of the SIRT1 chemical activator Resveratrol prevents adult neural precursors from differentiating into neurons. Importantly,knock down of SIRT1 in hippocampal precursors in vivo,either through RNAi or through genetic ablation,promotes their neurogenic potential. These findings highlight SIRT1 signaling as a negative regulator of neuronal differentiation of adult subventricular zone and hippocampal neural precursors. textcopyright 2013 Wiley Periodicals,Inc. View Publication

Acyl-protein thioesterase-1 (APT1) and APT2 are cytosolic enzymes that catalyze depalmitoylation of membrane-anchored,palmitoylated H-Ras and growth-associated protein-43 (GAP-43),respectively. However,the mechanism(s) of cytosol-membrane shuttling of APT1 and APT2,required for depalmitoylating their substrates H-Ras and GAP-43,respectively,remained largely unknown. Here,we report that both APT1 and APT2 undergo palmitoylation on Cys-2. Moreover,blocking palmitoylation adversely affects membrane localization of both APT1 and APT2 and that of their substrates. We also demonstrate that APT1 not only catalyzes its own depalmitoylation but also that of APT2 promoting dynamic palmitoylation (palmitoylation-depalmitoylation) of both thioesterases. Furthermore,shRNA suppression of APT1 expression or inhibition of its thioesterase activity by palmostatin B markedly increased membrane localization of APT2,and shRNA suppression of APT2 had virtually no effect on membrane localization of APT1. In addition,mutagenesis of the active site Ser residue to Ala (S119A),which renders catalytic inactivation of APT1,also increased its membrane localization. Taken together,our findings provide insight into a novel mechanism by which dynamic palmitoylation links cytosol-membrane trafficking of APT1 and APT2 with that of their substrates,facilitating steady-state membrane localization and function of both. View Publication

Platelet-derived growth factor receptors (PDGFR) α and β have been suggested as potential targets for treatment of rhabdomyosarcoma,the most common soft tissue sarcoma in children. This study identifies biologic activities linked to PDGF signaling in rhabdomyosarcoma models and human sample collections. Analysis of gene expression profiles of 101 primary human rhabdomyosarcomas revealed elevated PDGF-C and -D expression in all subtypes,with PDGF-D as the solely overexpressed PDGFRβ ligand. By immunohistochemistry,PDGF-CC,PDGF-DD,and PDGFRα were found in tumor cells,whereas PDGFRβ was primarily detected in vascular stroma. These results are concordant with the biologic processes and pathways identified by data mining. While PDGF-CC/PDGFRα signaling associated with genes involved in the reactivation of developmental programs,PDGF-DD/PDGFRβ signaling related to wound healing and leukocyte differentiation. Clinicopathologic correlations further identified associations between PDGFRβ in vascular stroma and the alveolar subtype and with presence of metastases. Functional validation of our findings was carried out in molecularly distinct model systems,where therapeutic targeting reduced tumor burden in a PDGFR-dependent manner with effects on cell proliferation,vessel density,and macrophage infiltration. The PDGFR-selective inhibitor CP-673,451 regulated cell proliferation through mechanisms involving reduced phosphorylation of GSK-3α and GSK-3β. Additional tissue culture studies showed a PDGFR-dependent regulation of rhabdosphere formation/cancer cell stemness,differentiation,senescence,and apoptosis. In summary,the study shows a clinically relevant distinction in PDGF signaling in human rhabdomyosarcoma and also suggests continued exploration of the influence of stromal PDGFRs on sarcoma progression. View Publication

Prevalent cell death in forebrain- and Sertoli cell-specific Atrx knockout mice suggest that Atrx is important for cell survival. However,conditional ablation in other tissues is not associated with increased death indicating that diverse cell types respond differently to the loss of this chromatin remodeling protein. Here,primary macrophages isolated from Atrx(f/f) mice were infected with adenovirus expressing Cre recombinase or β-galactosidase,and assayed for cell survival under different experimental conditions. Macrophages survive without Atrx but undergo rapid apoptosis upon lipopolysaccharide (LPS) activation suggesting that chromatin reorganization in response to external stimuli is compromised. Using this system we next tested the effect of different apoptotic stimuli on cell survival. We observed that survival of Atrx-null cells were similar to wild type cells in response to serum withdrawal,anti-Fas antibody,C2 ceramide or dexamethasone treatment but were more sensitive to 5-fluorouracil (5-FU). Cell survival could be rescued by re-introducing Atrx or by removal of p53 demonstrating the cell autonomous nature of the effect and its p53-dependence. Finally,we demonstrate that multiple primary cell types (myoblasts,embryonic fibroblasts and neurospheres) were sensitive to 5-FU,cisplatin,and UV light treatment. Together,our results suggest that cells lacking Atrx are more sensitive to DNA damaging agents and that this may result in enhanced death during development when cells are at their proliferative peak. Moreover,it identifies potential treatment options for cancers associated with ATRX mutations,including glioblastoma and pancreatic neuroendocrine tumors. View Publication

Skin-derived precursor (SKP) cells are a valuable resource for tissue engineering and regenerative medicine,because they represent multipotent stem cells that differentiate into neural and mesodermal progenies. Previous studies suggest that the stem cell pool decreases with age. Here,we show that human multipotent SKP cells can be efficiently collected from adult cheek/chin skin,even in aged individuals of 70-78years. SKP cells were isolated from 38 skin samples by serum-free sphere culture and examined for the ability to differentiate into neural and mesodermal lineages. The number of spheres obtained from adult facial skin was significantly higher than that of trunk or extremity skin. SKP cells derived from cheek/chin skin exhibited a high ability to differentiate into neural and mesodermal cells relative to those derived from eyelid,trunk,or extremity skin. Furthermore,cheek/chin skin SKP cells were shown to express markers for undifferentiated stem cells,including a high expression level of the Sox9 gene. These results indicate that cheek/chin skin is useful for the recovery of multipotent stem cells for tissue engineering and regenerative therapy. View Publication

Neurodevelopmental defects are observed in the hereditary disorder Cockayne syndrome (CS). The gene most frequently mutated in CS,Cockayne Syndrome B (CSB),is required for the repair of bulky DNA adducts in transcribed genes during transcription-coupled nucleotide excision repair. CSB also plays a role in chromatin remodeling and mitochondrial function. The role of CSB in neural development is poorly understood. Here we report that the abundance of neural progenitors is normal in Csb(-/-) mice and the frequency of apoptotic cells in the neurogenic niche of the adult subependymal zone is similar in Csb(-/-) and wild type mice. Both embryonic and adult Csb(-/-) neural precursors exhibited defective self-renewal in the neurosphere assay. In Csb(-/-) neural precursors,self-renewal progressively decreased in serially passaged neurospheres. The data also indicate that Csb and the nucleotide excision repair protein Xpa preserve embryonic neural stem cell self-renewal after UV DNA damage. Although Csb(-/-) neural precursors do not exhibit altered neuronal lineage commitment after low-dose UV (1J/m(2)) in vitro,neurons differentiated in vitro from Csb(-/-) neural precursors that had been irradiated with 1J/m(2) UV exhibited defective neurite outgrowth. These findings identify a function for Csb in neural precursors. View Publication

UNLABELLED A noninvasive technology that indiscriminately detects tumor tissue in the brain could substantially enhance the management of primary or metastatic brain tumors. Although the documented molecular heterogeneity of diseases that initiate or eventually deposit in the brain may preclude identifying a single smoking-gun molecular biomarker,many classes of brain tumors are generally avid for transferrin. Therefore,we reasoned that applying a radiolabeled derivative of transferrin ((89)Zr-labeled transferrin) may be an effective strategy to more thoroughly identify tumor tissue in the brain,regardless of the tumor's genetic background. METHODS Transferrin was radiolabeled with (89)Zr,and its properties with respect to human models of glioblastoma multiforme were studied in vivo. RESULTS In this report,we show proof of concept that (89)Zr-labeled transferrin ((89)Zr-transferrin) localizes to genetically diverse models of glioblastoma multiforme in vivo. Moreover,we demonstrate that (89)Zr-transferrin can detect an orthotopic lesion with exceptional contrast. Finally,the tumor-to-brain contrast conferred by (89)Zr-transferrin vastly exceeded that observed with (18)F-FDG,currently the most widely used radiotracer to assess tumor burden in the brain. CONCLUSION The results from this study suggest that (89)Zr-transferrin could be a broadly applicable tool for identifying and monitoring tumors in the brain,with realistic potential for near-term clinical translation. View Publication

Here we demonstrate,both in vivo and in vitro,that growth hormone (GH) mediates precursor cell activation in the subventricular zone (SVZ) of the aged (12-month-old) brain following exercise,and that GH signaling stimulates precursor activation to a similar extent to exercise. Our results reveal that both addition of GH in culture and direct intracerebroventricular infusion of GH stimulate neural precursor cells in the aged brain. In contrast,no increase in neurosphere numbers was observed in GH receptor null animals following exercise. Continuous infusion of a GH antagonist into the lateral ventricle of wild-type animals completely abolished the exercise-induced increase in neural precursor cell number. Given that the aged brain does not recover well after injury,we investigated the direct effect of exercise and GH on neural precursor cell activation following irradiation. This revealed that physical exercise as well as infusion of GH promoted repopulation of neural precursor cells in irradiated aged animals. Conversely,infusion of a GH antagonist during exercise prevented recovery of precursor cells in the SVZ following irradiation. View Publication