Microtubules: A Key to Understand and Correct Neuronal Defects in CDKL5 Deficiency Disorder?

CDKL5 deficiency disorder (CDD) is a severe neurodevelopmental encephalopathy caused by mutations in the X-linked gene that encodes a serine/threonine kinase. CDD is characterised by the early onset of seizures and impaired cognitive and motor skills. Loss of CDKL5 in vitro and in vivo affects neuro...

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Veröffentlicht in:	International journal of molecular sciences 2019-08, Vol.20 (17), p.4075
Hauptverfasser:	Barbiero, Isabella, De Rosa, Roberta, Kilstrup-Nielsen, Charlotte
Format:	Artikel
Sprache:	eng
Schlagworte:	Actin Animals Binding sites Cell adhesion & migration Cell division Cyclin-dependent kinase Cyclin-dependent kinases Cytoskeleton Epileptic Syndromes - metabolism Filaments Gene mapping Genes Genetic disorders Humans Hypotonia Intellectual disabilities Intermediate filaments Isoleucine Kinases Mapping Microtubules Microtubules - drug effects Microtubules - metabolism Mutation Neurons - drug effects Neurons - metabolism Polyposis Polyposis coli Polyps Pregnenolone - pharmacology Proline Proteins Review Seizures Serine Sleep disorders Spasms, Infantile - metabolism Synaptic plasticity Transcription Tumors
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description	CDKL5 deficiency disorder (CDD) is a severe neurodevelopmental encephalopathy caused by mutations in the X-linked gene that encodes a serine/threonine kinase. CDD is characterised by the early onset of seizures and impaired cognitive and motor skills. Loss of CDKL5 in vitro and in vivo affects neuronal morphology at early and late stages of maturation, suggesting a link between CDKL5 and the neuronal cytoskeleton. Recently, various microtubule (MT)-binding proteins have been identified as interactors of CDKL5, indicating that its roles converge on regulating MT functioning. MTs are dynamic structures that are important for neuronal morphology, migration and polarity. The delicate control of MT dynamics is fundamental for proper neuronal functions, as evidenced by the fact that aberrant MT dynamics are involved in various neurological disorders. In this review, we highlight the link between CDKL5 and MTs, discussing how CDKL5 deficiency may lead to deranged neuronal functions through aberrant MT dynamics. Finally, we discuss whether the regulation of MT dynamics through microtubule-targeting agents may represent a novel strategy for future pharmacological approaches in the CDD field.
doi_str_mv	10.3390/ijms20174075
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CDD is characterised by the early onset of seizures and impaired cognitive and motor skills. Loss of CDKL5 in vitro and in vivo affects neuronal morphology at early and late stages of maturation, suggesting a link between CDKL5 and the neuronal cytoskeleton. Recently, various microtubule (MT)-binding proteins have been identified as interactors of CDKL5, indicating that its roles converge on regulating MT functioning. MTs are dynamic structures that are important for neuronal morphology, migration and polarity. The delicate control of MT dynamics is fundamental for proper neuronal functions, as evidenced by the fact that aberrant MT dynamics are involved in various neurological disorders. In this review, we highlight the link between CDKL5 and MTs, discussing how CDKL5 deficiency may lead to deranged neuronal functions through aberrant MT dynamics. 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subjects	Actin Animals Binding sites Cell adhesion & migration Cell division Cyclin-dependent kinase Cyclin-dependent kinases Cytoskeleton Epileptic Syndromes - metabolism Filaments Gene mapping Genes Genetic disorders Humans Hypotonia Intellectual disabilities Intermediate filaments Isoleucine Kinases Mapping Microtubules Microtubules - drug effects Microtubules - metabolism Mutation Neurons - drug effects Neurons - metabolism Polyposis Polyposis coli Polyps Pregnenolone - pharmacology Proline Proteins Review Seizures Serine Sleep disorders Spasms, Infantile - metabolism Synaptic plasticity Transcription Tumors
title	Microtubules: A Key to Understand and Correct Neuronal Defects in CDKL5 Deficiency Disorder?
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