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Autism spectrum disorder is related to endoplasmic reticulum stress induced by mutations in the synaptic cell adhesion molecule, CADM1

by Momoi, T , Zhiling, Y , Miyakawa, T , Momoi, M Y , Fujita, E , Dai, H , Tanabe, Y , Yamagata, T , Tanokura, M

in 631/208/2489/144 / 631/208/737 / 631/378/1689/1373 / Amino Acid Sequence / Amino Acid Substitution / Animals / Anti-Bacterial Agents - pharmacology / Antibodies / Biochemistry / Biomedical and Life Sciences / Cell Adhesion Molecule-1 / Cell Adhesion Molecules - chemistry / Cell Adhesion Molecules - genetics / Cell Adhesion Molecules - metabolism / Cell Adhesion Molecules, Neuronal - chemistry / Cell Adhesion Molecules, Neuronal - genetics / Cell Adhesion Molecules, Neuronal - metabolism / Cell Biology / Cell Culture / Cells, Cultured / Child / Child Development Disorders, Pervasive - genetics / Child Development Disorders, Pervasive - metabolism / Child, Preschool / Endoplasmic Reticulum - metabolism / Humans / Immunoglobulins - chemistry / Immunoglobulins - genetics / Immunoglobulins - metabolism / Immunology / Life Sciences / Membrane Proteins - chemistry / Membrane Proteins - genetics / Membrane Proteins - metabolism / Mice / Mutation, Missense / Nerve Tissue Proteins - chemistry / Nerve Tissue Proteins - genetics / Nerve Tissue Proteins - metabolism / Neurons - metabolism / Original / original-article / Phenylbutyrates - pharmacology / Protein Structure, Tertiary / Sirolimus - pharmacology / Transcription Factor CHOP - metabolism / Up-Regulation

2010

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Autism spectrum disorder is related to endoplasmic reticulum stress induced by mutations in the synaptic cell adhesion molecule, CADM1

by Momoi, T , Zhiling, Y , Miyakawa, T , Momoi, M Y , Fujita, E , Dai, H , Tanabe, Y , Yamagata, T , Tanokura, M

2010

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Autism spectrum disorder is related to endoplasmic reticulum stress induced by mutations in the synaptic cell adhesion molecule, CADM1

by Momoi, T , Zhiling, Y , Miyakawa, T , Momoi, M Y , Fujita, E , Dai, H , Tanabe, Y , Yamagata, T , Tanokura, M

2010

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Journal Article

Autism spectrum disorder is related to endoplasmic reticulum stress induced by mutations in the synaptic cell adhesion molecule, CADM1

Momoi, T,

Zhiling, Y,

Miyakawa, T,

Momoi, M Y,

Fujita, E,

Dai, H,

Tanabe, Y,

Yamagata, T,

Tanokura, M

2010

Overview

Autism spectrum disorder (ASD) is a neurodevelopmental disorder with an unknown molecular pathogenesis. A recent molecular focus has been the mutated neuroligin 3, neuroligin 3(R451C), in gain-of-function studies and for its role in induced impairment of synaptic function, but endoplasmic reticulum (ER) stress induced by mutated molecules also deserves investigation. We previously found two missense mutations, H246N and Y251S, in the gene-encoding synaptic cell adhesion molecule-1 (CADM1) in ASD patients, including cleavage of the mutated CADM1 and its intracellular accumulation. In this study, we found that the mutated CADM1 showed slightly reduced homophilic interactions in vitro but that most of its interactions persist. The mutated CADM1 also showed morphological abnormalities, including shorter dendrites, and impaired synaptogenesis in neurons. Wild-type CADM1 was partly localized to the ER of C2C5 cells, whereas mutated CADM1 mainly accumulated in the ER despite different sensitivities toward 4-phenyl butyric acid with chemical chaperone activity and rapamycin with promotion activity for degradation of the aggregated protein. Modeling analysis suggested a direct relationship between the mutations and the conformation alteration. Both mutated CADM1 and neuroligin 3(R451C) induced upregulation of C/EBP-homologous protein (CHOP), an ER stress marker, suggesting that in addition to the trafficking impairment, this CHOP upregulation may also be involved in ASD pathogenesis.

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Publisher

Nature Publishing Group UK,Springer Nature B.V,Nature Publishing Group

Subject

631/208/2489/144

/ 631/208/737

/ 631/378/1689/1373

/ Amino Acid Sequence

/ Amino Acid Substitution

/ Animals

/ Anti-Bacterial Agents - pharmacology