A GRM7 mutation associated with developmental delay reduces mGlu7 expression and produces neurological phenotypes
Nicole M. Fisher, Aqeela AlHashim, Aditi B. Buch, Hana Badivuku, Manar M. Samman, Kelly M. Weiss, Gabriela I. Cestero, Mark D. Does, Jerri M. Rook, Craig W. Lindsley, P. Jeffrey Conn, Rocco G. Gogliotti, Colleen M. Niswender
Nicole M. Fisher, Aqeela AlHashim, Aditi B. Buch, Hana Badivuku, Manar M. Samman, Kelly M. Weiss, Gabriela I. Cestero, Mark D. Does, Jerri M. Rook, Craig W. Lindsley, P. Jeffrey Conn, Rocco G. Gogliotti, Colleen M. Niswender
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Research Article Neuroscience

A GRM7 mutation associated with developmental delay reduces mGlu7 expression and produces neurological phenotypes

Abstract

The metabotropic glutamate receptor 7 (mGlu7) is a G protein–coupled receptor that has been recently linked to neurodevelopmental disorders. This association is supported by the identification of GRM7 variants in patients with autism spectrum disorder, attention deficit hyperactivity disorder, and severe developmental delay. One GRM7 mutation previously reported in 2 patients results in a single amino acid change, I154T, within the mGlu7 ligand-binding domain. Here, we report 2 new patients with this mutation who present with severe developmental delay and epilepsy. Functional studies of the mGlu7-I154T mutant reveal that this substitution resulted in significant loss of mGlu7 protein expression in HEK293A cells and in mice. We show that this occurred posttranscriptionally at the level of protein expression and trafficking. Similar to mGlu7–global KO mice, mGlu7-I154T animals exhibited reduced motor coordination, deficits in contextual fear learning, and seizures. This provides functional evidence that a disease-associated mutation affecting the mGlu7 receptor was sufficient to cause neurological dysfunction in mice and further validates GRM7 as a disease-causing gene in the human population.

Authors

Nicole M. Fisher, Aqeela AlHashim, Aditi B. Buch, Hana Badivuku, Manar M. Samman, Kelly M. Weiss, Gabriela I. Cestero, Mark D. Does, Jerri M. Rook, Craig W. Lindsley, P. Jeffrey Conn, Rocco G. Gogliotti, Colleen M. Niswender

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Figure 6

Mice homozygous for mGlu7-I154T exhibit deficits in motor coordination and associative learning.

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Mice homozygous for mGlu7-I154T exhibit deficits in motor coordination a...
(A) Spontaneous activity over time in an open field. Genotypes are as follows: Grm7+/+ (+/+), Grm7I154T/+ (I154T/+), and Grm7I154T/I154T (I154T/I154T). Two-way ANOVA. (B) Quantification of time spent in the center of the open field. For A and B, n = 20 +/+, 27 I154T/+, 22 I154T/I154T. (C) Latency to fall from an accelerating rotarod. n = 20 +/+, 29 I154T/+, 23 I154T/I154T. (D) Quantification of hindlimb clasping. n = 20 +/+, 29 I154T/+, 22 I154T/I154T. Representative images shown at right. (E) Percent freezing in a contextual fear assay 24 hours after training. n = 26 +/+, 32 I154T/+, 25 I154T/I154T. For BE, 1-way ANOVA with Dunnett’s comparisons to Grm7+/+. *P < 0.05, ***P < 0.001, ****P < 0.0001. mGlu7, metabotropic glutamate receptor subtype 7.