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Kirrel3-Mediated Synapse Formation Is Attenuated by Disease-Associated Missense Variants

Matthew R. Taylor, Elizabeth A. Martin, Brooke L. Sinnen, Rajdeep Trilokekar, Emmanuelle Ranza, Stylianos E. Antonarakis, Megan E. Williams

2020Journal of Neuroscience28 citationsDOIOpen Access PDF

Abstract

Missense variants in Kirrel3 are repeatedly identified as risk factors for autism spectrum disorder and intellectual disability, but it has not been reported if or how these variants disrupt Kirrel3 function. Previously, we studied Kirrel3 loss of function using KO mice and showed that Kirrel3 is a synaptic adhesion molecule necessary to form one specific type of hippocampal synapse in vivo. Here, we developed an in vitro, gain-of-function assay for Kirrel3 using neuron cultures prepared from male and female mice and rats. We find that WT Kirrel3 induces synapse formation selectively between Kirrel3-expressing neurons via homophilic, transcellular binding. We tested six disease-associated Kirrel3 missense variants and found that five attenuate this synaptogenic function. All variants tested traffic to the cell surface and localize to synapses similar to WT Kirrel3. Two tested variants lack homophilic transcellular binding, which likely accounts for their reduced synaptogenic function. Interestingly, we also identified variants that bind in trans but cannot induce synapses, indicating that Kirrel3 transcellular binding is necessary but not sufficient for its synaptogenic function. Collectively, these results suggest Kirrel3 functions as a synaptogenic, cell-recognition molecule, and this function is attenuated by missense variants associated with autism spectrum disorder and intellectual disability. Thus, we provide critical insight to the mechanism of Kirrel3 function and the consequences of missense variants associated with autism and intellectual disability.

Topics & Concepts

Missense mutationTranscellularSynapseBiologyAutismNeuroscienceSynaptogenesisAutism spectrum disorderGeneticsCell biologyPsychologyMutationPsychiatryGeneGenetics and Neurodevelopmental DisordersRNA regulation and diseaseRNA modifications and cancer