A Tale of the Good and Bad: Remodeling of the Microtubule Network in the Brain by Cdk5

Shah, Kavita; Lahiri, Debomoy K.

doi:10.1007/s12035-016-9792-7

Cited by 53 publications

(35 citation statements)

References 118 publications

(111 reference statements)

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“…Cdk5 is a member of the cyclindependent kinase family, which has been implicated in drug addiction, pain signaling, microtubule dynamics, and learning and memory formation (95,96). Cdk5 is abundant in neuronal cells and is activated by complexing with p35 or p39 protein.…”

Section: Potential Mediators Of Xbp1 Signaling In Neuronsmentioning

confidence: 99%

The Transcription Factor XBP1 in Memory and Cognition: implications in Alzheimer’s Disease

Cissé

Duplan

Checler

2016

Mol Med

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X-box binding protein 1 (XBP1) is a unique basic region leucine zipper transcription factor that was isolated two decades ago in a search for regulators of major histocompatibility complex class II gene expression. XBP1 is a very complex protein that regulates many physiological functions, including the immune system, inflammatory responses and lipid metabolism. Evidence over the past few years suggests that XBP1 also plays an important role in pathological settings, since its activity as a transcription factor has profound effects on the prognosis and progression of diseases such as cancer, neurodegeneration and diabetes. Here we provide an overview of recent advances in our understanding of this multifaceted molecule, particularly in regulating synaptic plasticity and memory function, and the implications in neurodegenerative diseases, with an emphasis on Alzheimer's disease.

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Section: Potential Mediators Of Xbp1 Signaling In Neuronsmentioning

confidence: 99%

The Transcription Factor XBP1 in Memory and Cognition: implications in Alzheimer’s Disease

Cissé

Duplan

Checler

2016

Mol Med

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“…It is well known that cdk 5 dysregulation may cause neuroinflammation and neurodegeneration [51] One study demonstrated that in response to Aβ, neurons will reenter the cell cycle and transit through the cell cycle until the M phase, and that these processes are mediated by CDK 5 and its downstream effectors. So, the importance of CDK 5 as a neuronal ''switch'' is due to the fact that aberrant hyperactivation of CDK 5 by the production of truncated activator p25 results in the formation of hyperphosphorylated TAU, neuroinflamation, amyloid deposition and neuronal death in vivo and in vitro [52].…”

Section: +mentioning

confidence: 99%

Late phase cell cycle proteins in Alzheimer’s disease: a possible target for therapy?

Bajić¹,

Bajić²,

Živković³

et al. 2016

J Syst Integr Neurosci

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Alzheimer's disease (AD) is represented by neuronal loss and this loss is correlated to a constant state of neuronal instability induced by intrinsic and extrinsic factors. In this paper data is presented regarding the possible roles of late phase cell cycle proteins in normal and affected neurons with the goal that understanding the mechanisms involved in the regulation of these proteins may represent a novel strategy for AD treatment. The results demonstrate a relative differential pattern of expression of certain proteins (APC/C, Mad1 and Mad2, Bub R1, Bub1, CDK 11, cohesin subunit Rad 21 and astrin) in the AD brain versus age matched controls, and it is suggested that targeting these proteins might translate into potential treatments for AD. Although the data presented here is of some interest, the ability to translate such information into clinical applications is often a challenge.

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“…Cyclin-dependent kinase-5 (Cdk5) shares high homology with other family members; however, it differs from them by adopting unique activation strategies and distinctive cellular functions [3–5]. Cdk5 is not activated by classical cyclins such as cyclin A, cyclin D, and cyclin E but binds to its own specific protein partners, p35, p39, and cyclin I [6–8].…”

Section: Introductionmentioning

confidence: 99%

Tale of the Good and the Bad Cdk5: Remodeling of the Actin Cytoskeleton in the Brain

Shah

Rossie

2017

Mol Neurobiol

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Cdk5 kinase, a cyclin-dependent kinase family member, is a key regulator of cytoskeletal remodeling in the brain. Cdk5 is essential for brain development during embryogenesis. After birth, it is essential for numerous neuronal processes such as learning and memory formation, drug addiction, pain signaling, and long-term behavior changes, all of which rely on rapid alterations in the cytoskeleton. Cdk5 activity is deregulated in various brain disorders including Alzheimer's disease, Parkinson's disease, amyotrophic lateral sclerosis, and ischemic stroke, resulting in profound remodeling of the neuronal cytoskeleton, loss of synapses, and ultimately neurodegeneration. This review focuses on the "good and bad" Cdk5 in the brain and its pleiotropic contribution in regulating neuronal actin cytoskeletal remodeling. A vast majority of physiological and pathological Cdk5 substrates are associated with the actin cytoskeleton. Thus, our special emphasis is on the numerous Cdk5 substrates identified in the past two decades such as ephexin1, p27, Mst3, CaMKv, kalirin-7, RasGRF2, Pak1, WAVE1, neurabin-1, TrkB, 5-HT6R, talin, drebrin, synapsin I, synapsin III, CRMP1, GKAP, SPAR, PSD-95, and LRRK2. These substrates have unraveled the molecular mechanisms by which Cdk5 plays divergent roles in regulating neuronal actin cytoskeletal dynamics both in healthy and diseased states.

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A Tale of the Good and Bad: Remodeling of the Microtubule Network in the Brain by Cdk5

Cited by 53 publications

References 118 publications

The Transcription Factor XBP1 in Memory and Cognition: implications in Alzheimer’s Disease

The Transcription Factor XBP1 in Memory and Cognition: implications in Alzheimer’s Disease

Late phase cell cycle proteins in Alzheimer’s disease: a possible target for therapy?

Tale of the Good and the Bad Cdk5: Remodeling of the Actin Cytoskeleton in the Brain

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