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Autism and Intellectual Disability-Associated KIRREL3 Interacts with Neuronal Proteins MAP1B and MYO16 with Potential Roles in Neurodevelopment. | LitMetric

Autism and Intellectual Disability-Associated KIRREL3 Interacts with Neuronal Proteins MAP1B and MYO16 with Potential Roles in Neurodevelopment.

PLoS One

J.C. Self Research Institute of Human Genetics, Greenwood Genetic Center, Greenwood, South Carolina, United States of America; Department of Genetics and Biochemistry, Clemson University, Clemson, South Carolina, United States of America.

Published: April 2016

AI Article Synopsis

  • Cell-adhesion molecules, particularly KIRREL3, are crucial for brain development and synaptic plasticity, linking their dysfunction to neurodevelopmental disorders like autism and intellectual disabilities.
  • Research unveiled interactions between KIRREL3 and several brain proteins (MAP1B, MYO16, ATP1B1, UFC1, SHMT2) through various experiments, suggesting a complex network involved in neuronal function.
  • Genetic analyses revealed deletions in MAP1B and MYO16 in patients with intellectual disabilities, hinting that KIRREL3's interacting proteins might be critical for understanding and addressing conditions like autism and cognitive impairments.

Article Abstract

Cell-adhesion molecules of the immunoglobulin superfamily play critical roles in brain development, as well as in maintaining synaptic plasticity, the dysfunction of which is known to cause cognitive impairment. Recently dysfunction of KIRREL3, a synaptic molecule of the immunoglobulin superfamily, has been implicated in several neurodevelopmental conditions including intellectual disability, autism spectrum disorder, and in the neurocognitive delay associated with Jacobsen syndrome. However, the molecular mechanisms of its physiological actions remain largely unknown. Using a yeast two-hybrid screen, we found that the KIRREL3 extracellular domain interacts with brain expressed proteins MAP1B and MYO16 and its intracellular domain can potentially interact with ATP1B1, UFC1, and SHMT2. The interactions were confirmed by co-immunoprecipitation and colocalization analyses of proteins expressed in human embryonic kidney cells, mouse neuronal cells, and rat primary neuronal cells. Furthermore, we show KIRREL3 colocalization with the marker for the Golgi apparatus and synaptic vesicles. Previously, we have shown that KIRREL3 interacts with the X-linked intellectual disability associated synaptic scaffolding protein CASK through its cytoplasmic domain. In addition, we found a genomic deletion encompassing MAP1B in one patient with intellectual disability, microcephaly and seizures and deletions encompassing MYO16 in two unrelated patients with intellectual disability, autism and microcephaly. MAP1B has been previously implicated in synaptogenesis and is involved in the development of the actin-based membrane skeleton. MYO16 is expressed in hippocampal neurons and also indirectly affects actin cytoskeleton through its interaction with WAVE1 complex. We speculate KIRREL3 interacting proteins are potential candidates for intellectual disability and autism spectrum disorder. Moreover, our findings provide further insight into understanding the molecular mechanisms underlying the physiological action of KIRREL3 and its role in neurodevelopment.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4406691PMC
http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0123106PLOS

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