The X-Linked Intellectual Disability Gene Zdhhc9 Is Essential for Dendrite Outgrowth and Inhibitory Synapse Formation

Summary: Palmitoylation is a reversible post-translational lipid modification that facilitates vesicular transport and subcellular localization of modified proteins. This process is catalyzed by ZDHHC enzymes that are implicated in several neurological and neurodevelopmental disorders. Loss-of-funct...

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Main Authors: Jordan J. Shimell, Bhavin S. Shah, Stuart M. Cain, Samrat Thouta, Naila Kuhlmann, Igor Tatarnikov, D. Blair Jovellar, G. Stefano Brigidi, Jennifer Kass, Austen J. Milnerwood, Terrance P. Snutch, Shernaz X. Bamji
Format: Article
Language:English
Published: Elsevier 2019-11-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124719313798
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Summary:Summary: Palmitoylation is a reversible post-translational lipid modification that facilitates vesicular transport and subcellular localization of modified proteins. This process is catalyzed by ZDHHC enzymes that are implicated in several neurological and neurodevelopmental disorders. Loss-of-function mutations in ZDHHC9 have been identified in patients with X-linked intellectual disability (XLID) and associated with increased epilepsy risk. Loss of Zdhhc9 function in hippocampal cultures leads to shorter dendritic arbors and fewer inhibitory synapses, altering the ratio of excitatory-to-inhibitory inputs formed onto Zdhhc9-deficient cells. While Zdhhc9 promotes dendrite outgrowth through the palmitoylation of the GTPase Ras, it promotes inhibitory synapse formation through the palmitoylation of another GTPase, TC10. Zdhhc9 knockout mice exhibit seizure-like activity together with increased frequency and amplitude of both spontaneous and miniature excitatory and inhibitory postsynaptic currents. These findings present a plausible mechanism for how the loss of ZDHHC9 function may contribute to XLID and epilepsy. : Shimell et al. demonstrate that the palmitoylating enzyme Zdhhc9 controls dendritic growth and maintains excitatory/inhibitory synapse balance through distinct substrates. Loss of Zdhhc9 increases network excitability and seizure activity in accordance with Zdhhc9’s association with X-linked intellectual disability and epilepsy. Keywords: Zdhhc9, palmitoylation, neuron morphology, synapse, hippocampal culture, X-linked intellectual disability, dendrite growth, dendrite retraction, Ras GTPase, TC10 GTPase, epilepsy
ISSN:2211-1247