The Neurodevelopmental Spectrum of Synaptic Vesicle Cycling Disorders

AbstractIn this review, we describe and discuss neurodevelopmental phenotypes arising from rare, high penetrance genomic variants which directly influence synaptic vesicle cycling (SVC disorders). Pathogenic variants in each SVC disorder gene lead to disturbance of at least one SVC sub ‐process, namely vesicle trafficking (for exampleKIF1A andGDI1), clustering (for exampleTRIO,NRXN1 andSYN1), docking and priming (for exampleSTXBP1), fusion (for exampleSYT1 andPRRT2) or re ‐uptake (for exampleDNM1, AP1S2 andTBC1D24). We observe that SVC disorders share a common set of neurological symptoms (movement disorders, epilepsies), cognitive impairments (developmental delay, intellectual disabilities, cerebral visual impairment) and mental health difficulties (autism, ADHD, psychiatric symptoms). On the other hand, there is notable phenotypic variation between and within disorders, which may reflect selective disruption to SVC sub ‐processes, spatiotemporal and cell‐specific gene expression profiles, mutation‐specific effects, or modifying factors. Understanding the common cellular and systems mechanisms underlying neurodevelopmental phenotypes in SVC disorders, and the factors responsible for variation in clinical pres entations and outcomes, may translate to personalised clinical management and improved quality of life for patients and families.
Source: Journal of Neurochemistry - Category: Neuroscience Authors: Tags: REVIEW Source Type: research