Control of Dendritic Arborization by the Phosphoinositide-3′-Kinase–Akt–Mammalian Target of Rapamycin Pathway

Jaworski, Jacek; Spangler, Samantha A.; Seeburg, Daniel P.; Hoogenraad, Casper C.; Sheng, Morgan

doi:10.1523/jneurosci.2270-05.2005

Cited by 534 publications

(519 citation statements)

References 87 publications

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“…The PI3K/AKT signaling pathway plays a central role in regulating cell growth, proliferation, and survival under physiologic and pathologic conditions. 34 In addition, in cultured hippocampal neurons, PI3K/AKT signaling has been shown to be involved in axonal sprouting, [22][23][24][25] which is an important mechanism underlying poststroke functional recovery. 17,18,35 Further, recent work has also shown that modulation of GSK-3 after stroke can enhance axonal outgrowth.…”

Section: Discussionmentioning

confidence: 99%

“…Activation and phosphorylation of PI3K/AKT signaling promotes neurite initiation, outgrowth, and growth cone stability, [22][23][24] as well as contributing to growth and branching of dendrites. 25 In addition, exercise has been shown to facilitate improvements in cognitive function via phosphorylation of AKT and CREB signaling and BNDF expression. [26][27][28] Based on these data, we hypothesized that blocking the combined BDNF and CX1837-induced phosphorylation of AKT using the pan-AKT inhibitor, GSK-690693, would impair the recovery trajectory.…”

Section: Combined Hydrogel Delivery Of Brain-derived Neurotrophic Facmentioning

confidence: 99%

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Combined Ampakine and BDNF Treatments Enhance Poststroke Functional Recovery in Aged Mice via AKT-CREB Signaling

Clarkson

Parker

Nilsson

et al. 2015

J Cereb Blood Flow Metab

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Cerebral ischemia results in damage to neuronal circuits and lasting impairment in function. We have previously reported that stimulation of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptors with the ampakine, CX1837, increases brainderived neurotrophic factor (BDNF) levels and affords significant motor recovery after stroke in young mice. Here, we investigated whether administration of CX1837 in aged (24 months old) mice was equally effective. In a model of focal ischemia, administration of CX1837 from 5 days after stroke resulted in a small gain of motor function by week 6 after stroke. Mice that received a local delivery of BDNF via hydrogel implanted into the stroke cavity also showed a small gain of function from 4 to 6 weeks after stroke. Combining both treatments, however, resulted in a marked improvement in motor function from 2 weeks after insult. Assessment of peri-infarct tissue 2 weeks after stroke revealed a significant increase in p-AKT and p-CREB after the combined drug treatment. Using the pan-AKT inhibitor, GSK-690693, or deletion of CREB from forebrain neurons using the CREB-flox/CAMKii-cre mice, we were able to block the recovery of motor function. These data suggest that combined CX1837 and local delivery of BDNF are required to achieve maximal functional recovery after stroke in aged mice, and is occurring via the AKT-GSK3-CREB signaling pathway.

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Section: Discussionmentioning

confidence: 99%

Section: Combined Hydrogel Delivery Of Brain-derived Neurotrophic Facmentioning

confidence: 99%

Combined Ampakine and BDNF Treatments Enhance Poststroke Functional Recovery in Aged Mice via AKT-CREB Signaling

Clarkson

Parker

Nilsson

et al. 2015

J Cereb Blood Flow Metab

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“…Rapamycin has been previously used to define the mTORC1 contribution to neuronal polarization in neurons cultured longer than 3 days (Jaworski et al. 2005; Choi et al. 2008; Li et al.…”

Section: Resultsmentioning

confidence: 99%

“…To analyze the role of the mTORC1‐S6K pathway (Laplante and Sabatini 2009) in neuritic initiation we used the mTORC1 inhibitor rapamycin, which has been used in previous studies mostly to define the contribution of mTORC1 to neuronal polarization in neurons cultured for more than 3 days (Jaworski et al. 2005; Choi et al. 2008; Li et al.…”

Section: Discussionmentioning

confidence: 99%

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Neuritic complexity of hippocampal neurons depends on WIP‐mediated mTORC1 and Abl family kinases activities

Franco-Villanueva

Antón

2015

Brain and Behavior

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IntroductionNeuronal morphogenesis is governed mainly by two interconnected processes, cytoskeletal reorganization, and signal transduction. The actin‐binding molecule WIP (Wiskott‐Aldrich syndrome protein [WASP]‐interacting protein) was identified as a negative regulator of neuritogenesis. Although WIP controls activity of the actin‐nucleation‐promoting factor neural WASP (N‐WASP) during neuritic differentiation, its implication in signal transduction remains unknown.MethodsUsing primary neurons from WIP‐deficient and wild‐type mice we did an immunofluorescence, morphometric, and biochemical analysis of the signaling modified by WIP deficiency.ResultsHere, we describe the WIP contribution to the regulation of neuritic elaboration and ramification through modification in phosphorylation levels of several kinases that participate in the mammalian target of rapamycin complex 1 (mTORC1)‐p70S6K (phosphoprotein 70 ribosomal protein S6 kinase, S6K) intracellular signaling pathway. WIP deficiency induces an increase in the number of neuritic bifurcations and filopodial protrusions in primary embryonic neurons. This phenotype is not due to modifications in the activity of the phosphoinositide 3 kinase (PI3K)‐Akt pathway, but to reduced phosphorylation of the S6K residues Ser411 and Thr389. The resulting decrease in kinase activity leads to reduced S6 phosphorylation in the absence of WIP. Incubation of control neurons with pharmacological inhibitors of mTORC1 or Abl, two S6K regulators, conferred a morphology resembling that of WIP‐deficient neurons. Moreover, the preferential co‐distribution of phospho‐S6K with polymerized actin is altered in WIP‐deficient neurons.ConclusionThese experiments identify WIP as a member of a signaling cascade comprised of Abl family kinases, mTORC1 and S6K, which regulates neuron development and specifically, neuritic branching and complexity. Thus, we postulated a new role for WIP protein.

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Mutation screening of the PTEN gene in patients with autism spectrum disorders and macrocephaly

Buxbaum

Cai

Chaste

et al. 2007

American J of Med Genetics Pt B

259

170

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Mutations in the PTEN gene are associated with a broad spectrum of disorders, including Cowden syndrome (CS), Bannayan-Riley-Ruvalcaba syndrome, Proteus syndrome, and Lhermitte-Duclos disease. In addition, PTEN mutations have been described in a few patients with autism spectrum disorders (ASDs) and macrocephaly. In this study, we screened the PTEN gene for mutations and deletions in 88 patients with ASDs and macrocephaly (defined as >or=2 SD above the mean). Mutation analysis was performed by direct sequencing of all exons and flanking regions, as well as the promoter region. Dosage analysis of PTEN was carried out using multiplex ligation-dependent probe amplification (MLPA). No partial or whole gene deletions were observed. We identified a de novo missense mutation (D326N) in a highly conserved amino acid in a 5-year-old boy with autism, mental retardation, language delay, extreme macrocephaly (+9.6 SD) and polydactyly of both feet. Polydactyly has previously been described in two patients with Lhermitte-Duclos disease and CS and is thus likely to be a rare sign of PTEN mutations. Our findings suggest that PTEN mutations are a relatively infrequent cause of ASDs with macrocephaly. Screening of PTEN mutations is warranted in patients with autism and pronounced macrocephaly, even in the absence of other features of PTEN-related tumor syndromes.

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Control of Dendritic Arborization by the Phosphoinositide-3′-Kinase–Akt–Mammalian Target of Rapamycin Pathway

Cited by 534 publications

References 87 publications

Combined Ampakine and BDNF Treatments Enhance Poststroke Functional Recovery in Aged Mice via AKT-CREB Signaling

Combined Ampakine and BDNF Treatments Enhance Poststroke Functional Recovery in Aged Mice via AKT-CREB Signaling

Neuritic complexity of hippocampal neurons depends on WIP‐mediated mTORC1 and Abl family kinases activities

Mutation screening of the PTEN gene in patients with autism spectrum disorders and macrocephaly

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