Lemke JR, Geider K, Helbig KL, Heyne HO, Schütz H, Hentschel
J, Courage C,
Depienne C, Nava C, Heron D, Møller RS, Hjalgrim H, Lal D,
Neubauer BA, Nürnberg
P, Thiele H, Kurlemann G, Arnold GL, Bhambhani V, Bartholdi
D, Pedurupillay CR,
Misceo D, Frengen E, Strømme P, Dlugos DJ, Doherty ES,
Bijlsma EK, Ruivenkamp CA,
Hoffer MJ, Goldstein A, Rajan DS, Narayanan V, Ramsey K,
Belnap N, Schrauwen I,
Richholt R, Koeleman BP, Sá J, Mendonça C, de Kovel CG,
Weckhuysen S, Hardies K,
De Jonghe P, De Meirleir L, Milh M, Badens C, Lebrun M, Busa
T, Francannet C,
Piton A, Riesch E, Biskup S, Vogt H, Dorn T, Helbig I,
Michaud JL, Laube B, Syrbe
S. Delineating the GRIN1 phenotypic spectrum: A distinct
genetic NMDA receptor
encephalopathy. Neurology. 2016 Jun 7;86(23):2171-8.
Abstract
OBJECTIVE:
To determine the phenotypic spectrum caused by mutations in
GRIN1 encoding the NMDA receptor subunit GluN1 and to investigate their
underlying functional pathophysiology.
METHODS:
We collected molecular and clinical data from several
diagnostic and research cohorts. Functional consequences of GRIN1 mutations
were investigated in Xenopus laevis oocytes.
RESULTS:
We identified heterozygous de novo GRIN1 mutations in 14
individuals and reviewed the phenotypes of all 9 previously reported patients.
These 23 individuals presented with a distinct phenotype of profound
developmental delay, severe intellectual disability with absent speech,
muscular hypotonia, hyperkinetic movement disorder, oculogyric crises, cortical
blindness, generalized cerebral atrophy, and epilepsy. Mutations cluster within
transmembrane segments and result in loss of channel function of varying
severity with a dominant-negative effect. In addition, we describe 2 homozygous
GRIN1 mutations (1 missense, 1 truncation), each segregating with severe
neurodevelopmental phenotypes in consanguineous families.
CONCLUSIONS:
De novo GRIN1 mutations are associated with severe
intellectual disability with cortical visual impairment as well as oculomotor
and movement disorders being discriminating phenotypic features. Loss of NMDA
receptor function appears to be the underlying disease mechanism. The identification
of both heterozygous and homozygous mutations blurs the borders of dominant and
recessive inheritance of GRIN1-associated disorders.
See http://childnervoussystem.blogspot.com/2015/11/grin1-mutation.html
See http://childnervoussystem.blogspot.com/2015/11/grin1-mutation.html
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