TY - JOUR
T1 - De novo mutations in the motor domain of KIF1A cause cognitive impairment, spastic paraparesis, axonal neuropathy, and cerebellar atrophy
AU - Lee, Jae Ran
AU - Srour, Myriam
AU - Kim, Doyoun
AU - Hamdan, Fadi F.
AU - Lim, So Hee
AU - Brunel-Guitton, Catherine
AU - Décarie, Jean Claude
AU - Rossignol, Elsa
AU - Mitchell, Grant A.
AU - Schreiber, Allison
AU - Moran, Rocio
AU - Van Haren, Keith
AU - Richardson, Randal
AU - Nicolai, Joost
AU - Oberndorff, Karin M E J
AU - Wagner, Justin D.
AU - Boycott, Kym M.
AU - Rahikkala, Elisa
AU - Junna, Nella
AU - Tyynismaa, Henna
AU - Cuppen, Inge
AU - Verbeek, Nienke E.
AU - Stumpel, Connie T R M
AU - Willemsen, Michel A.
AU - de Munnik, Sonja A.
AU - Rouleau, Guy A.
AU - Kim, Eunjoon
AU - Kamsteeg, Erik Jan
AU - Kleefstra, Tjitske
AU - Michaud, Jacques L.
PY - 2015/1/1
Y1 - 2015/1/1
N2 - KIF1A is a neuron-specific motor protein that plays important roles in cargo transport along neurites. Recessive mutations in KIF1A were previously described in families with spastic paraparesis or sensory and autonomic neuropathy type-2. Here, we report 11 heterozygous de novo missense mutations (p.S58L, p.T99M, p.G102D, p.V144F, p.R167C, p.A202P, p.S215R, p.R216P, p.L249Q, p.E253K, and p.R316W) in KIF1A in 14 individuals, including two monozygotic twins. Two mutations (p.T99M and p.E253K) were recurrent, each being found in unrelated cases. All these de novo mutations are located in the motor domain (MD) of KIF1A. Structural modeling revealed that they alter conserved residues that are critical for the structure and function of the MD. Transfection studies suggested that at least five of these mutations affect the transport of the MD along axons. Individuals with de novo mutations in KIF1A display a phenotype characterized by cognitive impairment and variable presence of cerebellar atrophy, spastic paraparesis, optic nerve atrophy, peripheral neuropathy, and epilepsy. Our findings thus indicate that de novo missense mutations in the MD of KIF1A cause a phenotype that overlaps with, while being more severe, than that associated with recessive mutations in the same gene.
AB - KIF1A is a neuron-specific motor protein that plays important roles in cargo transport along neurites. Recessive mutations in KIF1A were previously described in families with spastic paraparesis or sensory and autonomic neuropathy type-2. Here, we report 11 heterozygous de novo missense mutations (p.S58L, p.T99M, p.G102D, p.V144F, p.R167C, p.A202P, p.S215R, p.R216P, p.L249Q, p.E253K, and p.R316W) in KIF1A in 14 individuals, including two monozygotic twins. Two mutations (p.T99M and p.E253K) were recurrent, each being found in unrelated cases. All these de novo mutations are located in the motor domain (MD) of KIF1A. Structural modeling revealed that they alter conserved residues that are critical for the structure and function of the MD. Transfection studies suggested that at least five of these mutations affect the transport of the MD along axons. Individuals with de novo mutations in KIF1A display a phenotype characterized by cognitive impairment and variable presence of cerebellar atrophy, spastic paraparesis, optic nerve atrophy, peripheral neuropathy, and epilepsy. Our findings thus indicate that de novo missense mutations in the MD of KIF1A cause a phenotype that overlaps with, while being more severe, than that associated with recessive mutations in the same gene.
KW - Axonal neuropathy
KW - De novo mutations
KW - Intellectual disability
KW - KIF1A
KW - Spastic paraparesis
UR - http://www.scopus.com/inward/record.url?scp=84920091648&partnerID=8YFLogxK
U2 - 10.1002/humu.22709
DO - 10.1002/humu.22709
M3 - Article
C2 - 25265257
AN - SCOPUS:84920091648
SN - 1059-7794
VL - 36
SP - 69
EP - 78
JO - Human Mutation
JF - Human Mutation
IS - 1
ER -