The IgLON Family of Cell Adhesion Molecules Expressed in Developing Neural Circuits Ensure the Proper Functioning of the Sensory System in Mice

Overview

Journal Sci Rep

Specialty Science

Date 2024 Sep 30

PMID 39349721

Authors

Katyayani Singh

Mohan Jayaram

Arpana Hanumantharaju

Tambet Tonissoo

Toomas Jagomae

Kaie Mikheim

Srirathi Muthuraman

Scott F Gilbert

Mario Plaas

Michael K E Schafer

Jurgen Innos

Kersti Lillevali

Mari-Anne Philips

Eero Vasar

Affiliations

Soon will be listed here.

Abstract

Deletions and malfunctions of the IgLON family of cell adhesion molecules are associated with anatomical, behavioral, and metabolic manifestations of neuropsychiatric disorders. We have previously shown that IgLON genes are expressed in sensory nuclei/pathways and that IgLON proteins modulate sensory processing. Here, we examined the expression of IgLON alternative promoter-specific isoforms during embryonic development and studied the sensory consequences of the anatomical changes when one of the IgLON genes, Negr1, is knocked out. At the embryonal age of E12.5 and E13.5, various IgLONs were distributed differentially and dynamically in the developing sensory areas within the central and peripheral nervous system, as well as in limbs and mammary glands. Sensory tests showed that Negr1 deficiency causes differences in vestibular function and temperature sensitivity in the knockout mice. Sex-specific differences were noted across olfaction, vestibular functioning, temperature regulation, and mechanical sensitivity. Our findings highlight the involvement of IgLON molecules during sensory circuit formation and suggest Negr1's critical role in somatosensory processing.

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