TY - JOUR
T1 - Highly Conserved Molecular Features in IgLONs Contrast Their Distinct Structural and Biological Outcomes
AU - Venkannagari, Harikanth
AU - Kasper, James
AU - Misra, Anurag
AU - Rush, Scott A.
AU - Fan, Shanghua
AU - Lee, Hubert
AU - Sun, Hong
AU - Seshadrinathan, Suchithra
AU - Machius, Mischa
AU - Hommel, Jonathan D.
AU - Rudenko, Gabby
N1 - Publisher Copyright:
© 2020 Elsevier Ltd
PY - 2020/9/4
Y1 - 2020/9/4
N2 - Neuronal growth regulator 1 (NEGR1) and neurotrimin (NTM) are abundant cell-surface proteins found in the brain and form part of the IgLON (Immunoglobulin LSAMP, OBCAM, Neurotrimin) family. In humans, NEGR1 is implicated in obesity and mental disorders, while NTM is linked to intelligence and cognitive function. IgLONs dimerize homophilically and heterophilically, and they are thought to shape synaptic connections and neural circuits by acting in trans (spanning cellular junctions) and/or in cis (at the same side of a junction). Here, we reveal homodimeric structures of NEGR1 and NTM. They assemble into V-shaped complexes via their Ig1 domains, and disruption of the Ig1–Ig1 interface abolishes dimerization in solution. A hydrophobic ridge from one Ig1 domain inserts into a hydrophobic pocket from the opposing Ig1 domain producing an interaction interface that is highly conserved among IgLONs but remarkably plastic structurally. Given the high degree of sequence conservation at the interaction interface, we tested whether different IgLONs could elicit the same biological effect in vivo. In a small-scale study administering different soluble IgLONs directly into the brain and monitoring feeding, only NEGR1 altered food intake significantly. Taking NEGR1 as a prototype, our studies thus indicate that while IgLONs share a conserved mode of interaction and are able to bind each other as homomers and heteromers, they are structurally plastic and can exert unique biological action.
AB - Neuronal growth regulator 1 (NEGR1) and neurotrimin (NTM) are abundant cell-surface proteins found in the brain and form part of the IgLON (Immunoglobulin LSAMP, OBCAM, Neurotrimin) family. In humans, NEGR1 is implicated in obesity and mental disorders, while NTM is linked to intelligence and cognitive function. IgLONs dimerize homophilically and heterophilically, and they are thought to shape synaptic connections and neural circuits by acting in trans (spanning cellular junctions) and/or in cis (at the same side of a junction). Here, we reveal homodimeric structures of NEGR1 and NTM. They assemble into V-shaped complexes via their Ig1 domains, and disruption of the Ig1–Ig1 interface abolishes dimerization in solution. A hydrophobic ridge from one Ig1 domain inserts into a hydrophobic pocket from the opposing Ig1 domain producing an interaction interface that is highly conserved among IgLONs but remarkably plastic structurally. Given the high degree of sequence conservation at the interaction interface, we tested whether different IgLONs could elicit the same biological effect in vivo. In a small-scale study administering different soluble IgLONs directly into the brain and monitoring feeding, only NEGR1 altered food intake significantly. Taking NEGR1 as a prototype, our studies thus indicate that while IgLONs share a conserved mode of interaction and are able to bind each other as homomers and heteromers, they are structurally plastic and can exert unique biological action.
KW - IgLONs
KW - neuropsychiatric disorders
KW - obesity
KW - protein structure
KW - synaptic organizer
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U2 - 10.1016/j.jmb.2020.07.014
DO - 10.1016/j.jmb.2020.07.014
M3 - Article
C2 - 32710982
AN - SCOPUS:85089186798
SN - 0022-2836
VL - 432
SP - 5287
EP - 5303
JO - Journal of Molecular Biology
JF - Journal of Molecular Biology
IS - 19
ER -