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

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, dys...

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Autores principales: Reid, Kimberley M., Steel, Dora, Nair, Sanjana, Bhate, Sanjay, Biassoni, Lorenzo, Sudhakar, Sniya, Heys, Michelle, Burke, Elizabeth, Kamsteeg, Erik-Jan, Hameed, Biju, Zech, Michael, Mencacci, Niccolo E., Barwick, Katy, Topf, Maya, Kurian, Manju A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10093404/
https://www.ncbi.nlm.nih.gov/pubmed/37048120
http://dx.doi.org/10.3390/cells12071046
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author Reid, Kimberley M.
Steel, Dora
Nair, Sanjana
Bhate, Sanjay
Biassoni, Lorenzo
Sudhakar, Sniya
Heys, Michelle
Burke, Elizabeth
Kamsteeg, Erik-Jan
Hameed, Biju
Zech, Michael
Mencacci, Niccolo E.
Barwick, Katy
Topf, Maya
Kurian, Manju A.
author_facet Reid, Kimberley M.
Steel, Dora
Nair, Sanjana
Bhate, Sanjay
Biassoni, Lorenzo
Sudhakar, Sniya
Heys, Michelle
Burke, Elizabeth
Kamsteeg, Erik-Jan
Hameed, Biju
Zech, Michael
Mencacci, Niccolo E.
Barwick, Katy
Topf, Maya
Kurian, Manju A.
author_sort Reid, Kimberley M.
collection PubMed
description 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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spelling pubmed-100934042023-04-13 Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia Reid, Kimberley M. Steel, Dora Nair, Sanjana Bhate, Sanjay Biassoni, Lorenzo Sudhakar, Sniya Heys, Michelle Burke, Elizabeth Kamsteeg, Erik-Jan Hameed, Biju Zech, Michael Mencacci, Niccolo E. Barwick, Katy Topf, Maya Kurian, Manju A. Cells Article 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. MDPI 2023-03-30 /pmc/articles/PMC10093404/ /pubmed/37048120 http://dx.doi.org/10.3390/cells12071046 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Reid, Kimberley M.
Steel, Dora
Nair, Sanjana
Bhate, Sanjay
Biassoni, Lorenzo
Sudhakar, Sniya
Heys, Michelle
Burke, Elizabeth
Kamsteeg, Erik-Jan
Hameed, Biju
Zech, Michael
Mencacci, Niccolo E.
Barwick, Katy
Topf, Maya
Kurian, Manju A.
Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia
title Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia
title_full Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia
title_fullStr Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia
title_full_unstemmed Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia
title_short Loss-of-Function Variants in DRD1 in Infantile Parkinsonism-Dystonia
title_sort loss-of-function variants in drd1 in infantile parkinsonism-dystonia
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10093404/
https://www.ncbi.nlm.nih.gov/pubmed/37048120
http://dx.doi.org/10.3390/cells12071046
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