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Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia.

Kimberley M ReidDora SteelSanjana NairSanjay BhateLorenzo BiassoniSniya SudhakarMichelle HeysElizabeth BurkeErik-Jan Kamsteegnull Genomics England Research ConsortiumBiju HameedMichael ZechNiccolo E MencacciKaty BarwickAndriy KryshtafovychManju A Kurian
Published in: Cells (2023)
The human dopaminergic system is vital for a broad range of neurological processes, including the control of voluntary movement. Here we report a proband presenting with clinical features of dopamine deficiency: severe infantile parkinsonism-dystonia, characterised by frequent oculogyric crises, dysautonomia and global neurodevelopmental impairment. CSF neurotransmitter analysis was unexpectedly normal. Triome whole-genome sequencing revealed a homozygous variant (c.110C>A, (p.T37K)) in DRD1 , encoding the most abundant dopamine receptor (D 1 ) in the central nervous system, most highly expressed in the striatum. This variant was absent from gnomAD, with a CADD score of 27.5. Using an in vitro heterologous expression system, we determined that DRD1 -T37K results in loss of protein function. Structure-function modelling studies predicted reduced substrate binding, which was confirmed in vitro. Exposure of mutant protein to the selective D 1 agonist Chloro APB resulted in significantly reduced cyclic AMP levels. Numerous D 1 agonists failed to rescue the cellular defect, reflected clinically in the patient, who had no benefit from dopaminergic therapy. Our study identifies DRD1 as a new disease-associated gene, suggesting a crucial role for the D 1 receptor in motor control.
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