Regulation of TrkA and ChAT expression in developing rat basal forebrain: evidence that both exogenous and endogenous NGF regulate differentiation of cholinergic neurons

Li, Yiwen; Holtzman, David M.; Kromer, Lawrence F.; Kaplan, David R.; Chua-Couzens, Jane; Clary, Douglas O.; Knüsel, Beat; Mobley, William C.

doi:10.1523/jneurosci.15-04-02888.1995

Cited by 217 publications

(162 citation statements)

References 58 publications

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“…To identify proteins that interact with the Trks, a yeast twohybrid screen was performed using a P0 rat DRG library and the juxtamembrane domain of TrkB receptor as a bait Lou et al, 2001;). Bex3 was identified once among the 75 positive clones obtained.…”

Section: Bex3 Interacts With Trk Neurotrophin Receptorsmentioning

confidence: 99%

“…In vivo, a 457 bp sequence, highly conserved in mouse, chick, and human genes, upstream from the transcription start site seems to be required to drive coordinated trkA expression in sensory and sympathetic neurons (Ma et al, 2000;Lei and Parada, 2007). Several transcription factors have been reported to influence trkA gene expression, including Sp1, Brn3a, Klf7, and Runx1 (Huang et al, 1999;Sacristán et al, 1999;Lei et al, , 2005Ma et al, 2003;Marmigère et al, 2006;Lanier et al, 2007). It has been established that NGF treatment increases trkA mRNA levels in PC12 cells and cholinergic neurons (Miller et al, 1991;Holtzman et al, 1992;Li et al, 1995;, and HAND transcription factors partially regulate trkA expression in response to NGF in cultured sympathetic neurons without affecting the basal expression of trkA (i.e., in the absence of NGF; Doxakis et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

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Bex3 Dimerization Regulates NGF-Dependent Neuronal Survival and Differentiation by EnhancingtrkAGene Transcription

Calvo

Anta²,

López-Benito³

et al. 2015

J. Neurosci.

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The development of the nervous system is a temporally and spatially coordinated process that relies on the proper regulation of the genes involved. Neurotrophins and their receptors are directly responsible for the survival and differentiation of sensory and sympathetic neurons; however, it is not fully understood how genes encoding Trk neurotrophin receptors are regulated. Here, we show that rat Bex3 protein specifically regulates TrkA expression by acting at the trkA gene promoter level. Bex3 dimerization and shuttling to the nucleus regulate the transcription of the trkA promoter under basal conditions and also enhance nerve growth factor (NGF)-mediated trkA promoter activation. Moreover, qChIP assays indicate that Bex3 associates with the trkA promoter within a 150 bp sequence, immediately upstream from the transcription start site, which is sufficient to mediate the effects of Bex3. Consequently, the downregulation of Bex3 using shRNA increases neuronal apoptosis in NGF-dependent sensory neurons deprived of NGF and compromises PC12 cell differentiation in response to NGF. Our results support an important role for Bex3 in the regulation of TrkA expression and in NGF-mediated functions through modulation of the trkA promoter.

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Section: Bex3 Interacts With Trk Neurotrophin Receptorsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bex3 Dimerization Regulates NGF-Dependent Neuronal Survival and Differentiation by EnhancingtrkAGene Transcription

Calvo

Anta²,

López-Benito³

et al. 2015

J. Neurosci.

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“…NGF is a neurotrophic factor whose actions on BFCNs are required for their normal development and function (9). Given the marked similarities in the changes seen in the BFCNs of Ts65Dn mice and those in which animals have been deprived of NGF (10)(11)(12) or its receptors (13), we tested the hypothesis that the progressive abnormalities in BFCNs in Ts65Dn mice resulted from impaired NGF signaling. Our results suggest that deficient trophic support, because of failed retrograde transport of the NGF signal, contributes significantly to the neurodegenerative phenotype.…”

mentioning

confidence: 99%

Failed retrograde transport of NGF in a mouse model of Down's syndrome: Reversal of cholinergic neurodegenerative phenotypes following NGF infusion

Cooper

Salehi

Delcroix

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

315

312

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Age-related degeneration of basal forebrain cholinergic neurons (BFCNs) contributes to cognitive decline in Alzheimer's disease and Down's syndrome. With aging, the partial trisomy 16 (Ts65Dn) mouse model of Down's syndrome exhibited reductions in BFCN size and number and regressive changes in the hippocampal terminal fields of these neurons with respect to diploid controls. The changes were associated with significantly impaired retrograde transport of nerve growth factor (NGF) from the hippocampus to the basal forebrain. Intracerebroventricular NGF infusion reversed well established abnormalities in BFCN size and number and restored the deficit in cholinergic innervation. The findings are evidence that even BFCNs chronically deprived of endogenous NGF respond to an intervention that compensates for defective retrograde transport. We suggest that age-related cholinergic neurodegeneration may be a treatable disorder of failed retrograde NGF signaling.

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“…However, it remains possible that the development of the cholinergic phenotype occurs preferentially in cells that have settled down in a supportive environment or have established appropriate adhesive contacts on the slice. Other studies have reported expression of the cholinergic phenotype in dissociated cultures (Dreyfus, 1989;Hartikka and Hefti, 1988;Li et al, 1995;Nonomura et al, 1996;Shingai et al, 1990), however, the presence of exogenously applied neurotrophic factors or the presence of normal target cells is important for expression of the cholinergic phenotype and for survival (Dreyfus, 1989;Ha et al, 1996;Hartikka and Hefti, 1988;Li et al, 1995;Morse et al, 1993;Nonomura et al, 1996;Shingai et al, 1990). Grown in isolation, without target contacts or supplemental neurotrophins, the BFCNs do not thrive.…”

Section: Mechanisms Leading To the Non-random Distributionmentioning

confidence: 99%

Basal forebrain cholinergic cell attachment and neurite outgrowth on organotypic slice cultures of hippocampal formation

et al. 2002

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Regulation of TrkA and ChAT expression in developing rat basal forebrain: evidence that both exogenous and endogenous NGF regulate differentiation of cholinergic neurons

Cited by 217 publications

References 58 publications

Bex3 Dimerization Regulates NGF-Dependent Neuronal Survival and Differentiation by EnhancingtrkAGene Transcription

Bex3 Dimerization Regulates NGF-Dependent Neuronal Survival and Differentiation by EnhancingtrkAGene Transcription

Failed retrograde transport of NGF in a mouse model of Down's syndrome: Reversal of cholinergic neurodegenerative phenotypes following NGF infusion

Basal forebrain cholinergic cell attachment and neurite outgrowth on organotypic slice cultures of hippocampal formation

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