KIF1A variants are a frequent cause of autosomal dominant hereditary spastic paraplegia

Christine De Die‐Smulders ,Bart P Van De Warrenburg,Jacques Bruijn,Christiaan G J Saris ,Leonard H Van Den Berg,Eva H Brilstra,Karin Y Van Spaendonck‐Zwarts ,Bert B.a De Vries ,Jolanda Schieving ,Rowdy Meijer ,Jiddeke M Van De Kamp,Erik Jan Kamsteeg ,Corien Verschuuren ,Susanne T De Bot,Maartje Pennings,Judith Van Gaalen,Mariet W Elting,Meyke Schouten ,Kalliopi Sofou,Dick M.h Zuidgeest ,Michael A Van Es,Marjolein Kriek,Floor A.m Duijkers ,Bregje Jaeger

doi:10.1038/s41431-019-0497-z

Abstract

Variants in the KIF1A gene can cause autosomal recessive spastic paraplegia 30, autosomal recessive hereditary sensory neuropathy, or autosomal (de novo) dominant mental retardation type 9. More recently, variants in KIF1A have also been described in a few cases with autosomal dominant spastic paraplegia. Here, we describe 20 KIF1A variants in 24 patients from a clinical exome sequencing cohort of 347 individuals with a mostly ‘pure’ spastic paraplegia. In these patients, spastic paraplegia was slowly progressive and mostly pure, but with a highly variable disease onset (0–57 years). Segregation analyses showed a de novo occurrence in seven cases, and a dominant inheritance pattern in 11 families. The motor domain of KIF1A is a hotspot for disease causing variants in autosomal dominant spastic paraplegia, similar to mental retardation type 9 and recessive spastic paraplegia type 30. However, unlike these allelic disorders, dominant spastic paraplegia was also caused by loss-of-function variants outside this domain in six families. Finally, three missense variants were outside the motor domain and need further characterization. In conclusion, KIF1A variants are a frequent cause of autosomal dominant spastic paraplegia in our cohort (6–7%). The identification of KIF1A loss-of-function variants suggests haploinsufficiency as a possible mechanism in autosomal dominant spastic paraplegia.

Highlights

Subjects and methodsHereditary spastic paraplegia (HSP) is a neurodegenerative disorder that affects motor control over the lower limbs and the bladder, with an incidence of ~1–10 per 100,000 individuals [1]
Unlike these allelic disorders, dominant spastic paraplegia was caused by loss-of-function variants outside this domain in six families
KIF1A variants are a frequent cause of autosomal dominant spastic paraplegia in our cohort (6–7%)

Summary

Subjects and methods

Hereditary spastic paraplegia (HSP) is a neurodegenerative disorder that affects motor control over the lower limbs and the bladder, with an incidence of ~1–10 per 100,000 individuals [1]. At least 17 de novo missense variants affecting the kinesin motor domain of KIF1A have been described in this syndrome [5,6,7,8]. The third disorder associated with KIF1A is autosomal recessive SPG type 30 (MIM#610357), characterized by slowly progressive pure HSP with an onset in the first or second decade. Missense variants in the kinesin domain of KIF1A are responsible for the three autosomal recessive SPG30 families described to date [9, 10]. Similar to dominant mental retardation type 9 and recessive SPG30, all currently reported KIF1A variants in dominant, pure HSP were missense variants affecting the kinesin motor domain, with the exception of one variant of uncertain significance. Sanger sequencing was used for segregation analyses and to exclude the possibility of bi-allelic KIF1A variants

Results

Discussion

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