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1.
Cereb Cortex ; 29(10): 4050-4066, 2019 09 13.
Article in English | MEDLINE | ID: mdl-30605503

ABSTRACT

The intermediate filament (nanofilament) protein nestin is a marker of neural stem cells, but its role in neurogenesis, including adult neurogenesis, remains unclear. Here, we investigated the role of nestin in neurogenesis in adult nestin-deficient (Nes-/-) mice. We found that the proliferation of Nes-/- neural stem cells was not altered, but neurogenesis in the hippocampal dentate gyrus of Nes-/- mice was increased. Surprisingly, the proneurogenic effect of nestin deficiency was mediated by its function in the astrocyte niche. Through its role in Notch signaling from astrocytes to neural stem cells, nestin negatively regulates neuronal differentiation and survival; however, its expression in neural stem cells is not required for normal neurogenesis. In behavioral studies, nestin deficiency in mice did not affect associative learning but was associated with impaired long-term memory.


Subject(s)
Astrocytes/metabolism , Brain/metabolism , Nestin/metabolism , Neural Stem Cells/metabolism , Neurogenesis , Receptors, Notch/metabolism , Animals , Astrocytes/cytology , Cell Differentiation , Cell Proliferation , Coculture Techniques , Jagged-1 Protein/metabolism , Male , Memory, Long-Term/physiology , Mice, Inbred C57BL , Mice, Knockout , Nestin/genetics , Rats , Signal Transduction
2.
Environ Sci Technol ; 49(16): 10165-72, 2015 Aug 18.
Article in English | MEDLINE | ID: mdl-26182351

ABSTRACT

Extraction of petrochemicals from the surface mining of oil sand deposits results in generation of large volumes of oil sands process-affected water (OSPW). Naphthenic acids (NA) are generally considered to be among the most toxic components of OSPW. Previous studies have shown that NAs are toxic to aquatic organisms, however knowledge of their effects on mammalian health and development is limited. In the present study, we evaluated the developmental effects of an NA extract prepared from fresh OSPW on differentiating mouse embryonic stem cells (ESC). We found that treatment of differentiating cells with the NA extract at noncytotoxic concentrations alters expression of various lineage specification markers and development of the heart. Notably, expression of cardiac specific markers such as Nkx2.5, Gata4, and Mef2c were significantly up-regulated. Moreover, exposure to the NA extract enhanced differentiation of embryoid bodies and resulted in the early appearance of spontaneously beating clusters. Interestingly, exposure of undifferentiated mouse ESCs to the NA extract did not change the expression level of pluripotency markers (i.e., Oct4, Nanog, and Sox2). Altogether, these data identify some of the molecular pathways affected by components within this NA extract during differentiation of mammalian cells.


Subject(s)
Carboxylic Acids/toxicity , Cell Differentiation/drug effects , Heart/embryology , Mouse Embryonic Stem Cells/cytology , Oil and Gas Fields , Water Pollutants, Chemical/toxicity , Animals , Biomarkers/metabolism , Cell Death/drug effects , Cell Lineage/drug effects , Heart/drug effects , Mice , Mouse Embryonic Stem Cells/drug effects , Mouse Embryonic Stem Cells/metabolism , Myocytes, Cardiac/cytology , Myocytes, Cardiac/drug effects , Myocytes, Cardiac/metabolism , Neural Plate/drug effects , Neural Plate/metabolism , Signal Transduction/drug effects , Up-Regulation/drug effects
3.
PLoS Genet ; 9(11): e1003957, 2013 Nov.
Article in English | MEDLINE | ID: mdl-24244203

ABSTRACT

Oct4 is a widely recognized pluripotency factor as it maintains Embryonic Stem (ES) cells in a pluripotent state, and, in vivo, prevents the inner cell mass (ICM) in murine embryos from differentiating into trophectoderm. However, its function in somatic tissue after this developmental stage is not well characterized. Using a tamoxifen-inducible Cre recombinase and floxed alleles of Oct4, we investigated the effect of depleting Oct4 in mouse embryos between the pre-streak and headfold stages, ~E6.0-E8.0, when Oct4 is found in dynamic patterns throughout the embryonic compartment of the mouse egg cylinder. We found that depletion of Oct4 ~E7.5 resulted in a severe phenotype, comprised of craniorachischisis, random heart tube orientation, failed turning, defective somitogenesis and posterior truncation. Unlike in ES cells, depletion of the pluripotency factors Sox2 and Oct4 after E7.0 does not phenocopy, suggesting that ~E7.5 Oct4 is required within a network that is altered relative to the pluripotency network. Oct4 is not required in extraembryonic tissue for these processes, but is required to maintain cell viability in the embryo and normal proliferation within the primitive streak. Impaired expansion of the primitive streak occurs coincident with Oct4 depletion ∼E7.5 and precedes deficient convergent extension which contributes to several aspects of the phenotype.


Subject(s)
Cell Differentiation/genetics , Embryonic Stem Cells/metabolism , Octamer Transcription Factor-3/metabolism , Pluripotent Stem Cells/metabolism , Animals , Cell Lineage , Cell Proliferation , Embryonic Development , Embryonic Stem Cells/cytology , Gene Expression Regulation, Developmental , Mice , Neural Tube Defects/etiology , Neural Tube Defects/genetics , Neural Tube Defects/pathology , Octamer Transcription Factor-3/antagonists & inhibitors , Octamer Transcription Factor-3/genetics , Pluripotent Stem Cells/cytology , Primitive Streak/growth & development , Primitive Streak/metabolism , SOXB1 Transcription Factors/antagonists & inhibitors , SOXB1 Transcription Factors/genetics , SOXB1 Transcription Factors/metabolism
4.
J Neurosci ; 31(32): 11547-52, 2011 Aug 10.
Article in English | MEDLINE | ID: mdl-21832185

ABSTRACT

Nestin is expressed in many different progenitors during development including those of the CNS, heart, skeletal muscle, and kidney. The adult expression is mainly restricted to the subependymal zone and dentate gyrus of the brain, the neuromuscular junction, and renal podocytes. In addition, this intermediate filament protein has served as a marker of neural stem/progenitor cells for close to 20 years. Therefore it is surprising that its function in development and adult physiology is still poorly understood. Here we report that nestin deficiency is compatible with normal development of the CNS. The mutant mice, however, show impaired motor coordination. Furthermore, we found that the number of acetylcholine receptor clusters, the nerve length, and the endplate bandwidth are significantly increased in neuromuscular junction area of nestin-deficient mice. This is similar to the phenotype described for deficiency of cyclin-dependent kinase 5 (Cdk5), a candidate downstream affecter of nestin. Moreover, we demonstrate that nestin deficiency can rescue maintenance of acetylcholine receptor clusters in the absence of agrin, similar to Cdk5/agrin double knock-outs, suggesting that the observed nestin deficiency phenotype is the consequence of aberrant Cdk5 activity.


Subject(s)
Central Nervous System/embryology , Central Nervous System/metabolism , Cyclin-Dependent Kinase 5/deficiency , Intermediate Filament Proteins/deficiency , Nerve Tissue Proteins/deficiency , Neuromuscular Junction/metabolism , Receptor Aggregation/physiology , Receptors, Cholinergic/metabolism , Agrin/deficiency , Agrin/genetics , Agrin/metabolism , Animals , Cyclin-Dependent Kinase 5/genetics , Cyclin-Dependent Kinase 5/physiology , Female , Gene Targeting/methods , Intermediate Filament Proteins/genetics , Intermediate Filament Proteins/physiology , Male , Mice , Mice, Knockout , Motor Activity/physiology , Nerve Tissue Proteins/genetics , Nerve Tissue Proteins/physiology , Nestin , Neuromuscular Junction/physiology , Receptor Aggregation/genetics , Receptors, Cholinergic/genetics , Receptors, Cholinergic/physiology
5.
Nature ; 458(7239): 771-5, 2009 Apr 09.
Article in English | MEDLINE | ID: mdl-19252477

ABSTRACT

Reprogramming of somatic cells to pluripotency, thereby creating induced pluripotent stem (iPS) cells, promises to transform regenerative medicine. Most instances of direct reprogramming have been achieved by forced expression of defined factors using multiple viral vectors. However, such iPS cells contain a large number of viral vector integrations, any one of which could cause unpredictable genetic dysfunction. Whereas c-Myc is dispensable for reprogramming, complete elimination of the other exogenous factors is also desired because ectopic expression of either Oct4 (also known as Pou5f1) or Klf4 can induce dysplasia. Two transient transfection-reprogramming methods have been published to address this issue. However, the efficiency of both approaches is extremely low, and neither has been applied successfully to human cells so far. Here we show that non-viral transfection of a single multiprotein expression vector, which comprises the coding sequences of c-Myc, Klf4, Oct4 and Sox2 linked with 2A peptides, can reprogram both mouse and human fibroblasts. Moreover, the transgene can be removed once reprogramming has been achieved. iPS cells produced with this non-viral vector show robust expression of pluripotency markers, indicating a reprogrammed state confirmed functionally by in vitro differentiation assays and formation of adult chimaeric mice. When the single-vector reprogramming system was combined with a piggyBac transposon, we succeeded in establishing reprogrammed human cell lines from embryonic fibroblasts with robust expression of pluripotency markers. This system minimizes genome modification in iPS cells and enables complete elimination of exogenous reprogramming factors, efficiently providing iPS cells that are applicable to regenerative medicine, drug screening and the establishment of disease models.


Subject(s)
Cellular Reprogramming/genetics , Genetic Vectors/genetics , Pluripotent Stem Cells/cytology , Transfection/methods , Animals , Biomarkers/analysis , Cell Line , Cells, Cultured , Fibroblasts/cytology , Gene Expression Profiling , Humans , Kruppel-Like Factor 4 , Mice , Pluripotent Stem Cells/metabolism , Transgenes/genetics
6.
Nature ; 458(7239): 766-70, 2009 Apr 09.
Article in English | MEDLINE | ID: mdl-19252478

ABSTRACT

Transgenic expression of just four defined transcription factors (c-Myc, Klf4, Oct4 and Sox2) is sufficient to reprogram somatic cells to a pluripotent state. The resulting induced pluripotent stem (iPS) cells resemble embryonic stem cells in their properties and potential to differentiate into a spectrum of adult cell types. Current reprogramming strategies involve retroviral, lentiviral, adenoviral and plasmid transfection to deliver reprogramming factor transgenes. Although the latter two methods are transient and minimize the potential for insertion mutagenesis, they are currently limited by diminished reprogramming efficiencies. piggyBac (PB) transposition is host-factor independent, and has recently been demonstrated to be functional in various human and mouse cell lines. The PB transposon/transposase system requires only the inverted terminal repeats flanking a transgene and transient expression of the transposase enzyme to catalyse insertion or excision events. Here we demonstrate successful and efficient reprogramming of murine and human embryonic fibroblasts using doxycycline-inducible transcription factors delivered by PB transposition. Stable iPS cells thus generated express characteristic pluripotency markers and succeed in a series of rigorous differentiation assays. By taking advantage of the natural propensity of the PB system for seamless excision, we show that the individual PB insertions can be removed from established iPS cell lines, providing an invaluable tool for discovery. In addition, we have demonstrated the traceless removal of reprogramming factors joined with viral 2A sequences delivered by a single transposon from murine iPS lines. We anticipate that the unique properties of this virus-independent simplification of iPS cell production will accelerate this field further towards full exploration of the reprogramming process and future cell-based therapies.


Subject(s)
Cell Differentiation , Cellular Reprogramming/genetics , Fibroblasts/cytology , Fibroblasts/physiology , Genetic Vectors/genetics , Pluripotent Stem Cells/physiology , Animals , Cell Line , Cells, Cultured , DNA Transposable Elements , Fibroblasts/virology , Gene Order , Gene Transfer Techniques , Humans , Kruppel-Like Factor 4 , Mice , Mice, Nude , Sequence Alignment , Transcription Factors/genetics , Transgenes/genetics
7.
Am J Hum Genet ; 74(5): 1057-63, 2004 May.
Article in English | MEDLINE | ID: mdl-15065015

ABSTRACT

Previously, we have reported linkage of markers from chromosome 1q22 to schizophrenia, a finding supported by several independent studies. We have now examined the region of strongest linkage for evidence of linkage disequilibrium (LD) in a sample of 24 Canadian familial-schizophrenia pedigrees. Analysis of 14 microsatellites and 15 single-nucleotide polymorphisms (SNPs) from the 5.4-Mb region between D1S1653 and D1S1677 produced significant evidence (nominal P<.05) of LD between schizophrenia and 2 microsatellites and 6 SNPs. All of the markers exhibiting significant LD to schizophrenia fall within the genomic extent of the gene for carboxyl-terminal PDZ ligand of neuronal nitric oxide synthase (CAPON), making it a prime positional candidate for the schizophrenia-susceptibility locus on 1q22, although initial mutation analysis of this gene has not identified any schizophrenia-associated changes within exons. Consistent with several recently identified candidate genes for schizophrenia, CAPON is involved in signal transduction in the NMDA receptor system, highlighting the potential importance of this pathway in the etiology of schizophrenia.


Subject(s)
Adaptor Proteins, Signal Transducing , Carrier Proteins/genetics , Chromosome Mapping/methods , Chromosomes, Human, Pair 1 , Genetic Predisposition to Disease/genetics , Linkage Disequilibrium , Schizophrenia/genetics , Alleles , Canada , DNA/chemistry , DNA/genetics , Family , Female , Gene Frequency , Genotype , Haplotypes/genetics , Humans , Japan , Lod Score , Male , Microsatellite Repeats , Polymorphism, Single Nucleotide/genetics
8.
J Bacteriol ; 185(19): 5871-81, 2003 Oct.
Article in English | MEDLINE | ID: mdl-13129960

ABSTRACT

Anthranilate (2-aminobenzoate) is an important intermediate in tryptophan metabolism. In order to investigate the degradation of tryptophan through anthranilate by Burkholderia cepacia, several plasposon mutations were constructed of strain DBO1 and one mutant with the plasposon insertion in the anthranilate dioxygenase (AntDO) genes was chosen for further study. The gene sequence obtained from flanking DNA of the plasposon insertion site revealed unexpected information. B. cepacia DBO1 AntDO (designated AntDO-3C) is a three-component Rieske-type [2Fe-2S] dioxygenase composed of a reductase (AndAa), a ferredoxin (AndAb), and a two-subunit oxygenase (AndAcAd). This is in contrast to the two-component (an oxygenase and a reductase) AntDO enzyme from Acinetobacter sp. strain ADP1, P. aeruginosa PAO1, and P. putida P111. AntDO from strains ADP1, PAO1, and P111 are closely related to benzoate dioxygenase, while AntDO-3C is closely related to aromatic hydrocarbon dioxygenases from Novosphingobium aromaticivorans F199 and Sphingomonas yanoikuyae B1 and 2-chlorobenzoate dioxygenase from P. aeruginosa strains 142 and JB2. Escherichia coli cells expressing the functional AntDO-3C genes transform anthranilate and salicylate (but not 2-chlorobenzoate) to catechol. The enzyme includes a novel reductase whose absence results in less efficient transformation of anthranilate by the oxygenase and ferredoxin. AndR, a possible AraC/XylS-type transcriptional regulator, was shown to positively regulate expression of the andAcAdAbAa genes. Anthranilate was the only effector (of 12 aromatic compounds tested) that was able to induce expression of the genes.


Subject(s)
Bacterial Proteins/genetics , Burkholderia cepacia/enzymology , Gene Expression Regulation, Bacterial , Mixed Function Oxygenases/genetics , ortho-Aminobenzoates/metabolism , Bacterial Proteins/metabolism , Burkholderia cepacia/genetics , Cloning, Molecular , Mixed Function Oxygenases/classification , Mixed Function Oxygenases/metabolism , Molecular Sequence Data , Mutation , Restriction Mapping , Sequence Analysis, DNA , Substrate Specificity , Tryptophan/metabolism
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