Molecular contacts in self-assembling clusters of membrane proteins

Venkata Shiva Mandala; Ziao Fu; Roderick MacKinnon

doi:10.1073/pnas.2507112122

Molecular contacts in self-assembling clusters of membrane proteins

Venkata Shiva Mandala
, Ziao Fu
, Roderick MacKinnon

Research output: Contribution to journal › Article › peer-review

Abstract

Motivated by recent data pointing to the existence of homo-oligomeric assemblies of membrane proteins called higher-order transient structures, and their apparent role in connecting components of membrane signal pathways, we examine here by cryoelectron microscopy some of the protein–protein interactions that occur in cluster formation. Metabotropic glutamate receptors and HCN ion channels inside clusters contact their neighbors through structured extracellular and intracellular domains, respectively. Other ion channels, including Kv2.1 and Slo1, appear to form clusters through prominent intrinsically disordered sequences in the cytoplasm. These distinct modes of interaction are associated with clusters exhibiting varying degrees of compactness and order. We conclude that nature utilizes a variety of ways to form connections between membrane proteins in self-assembled clusters.

Original language	English
Article number	e2507112122
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	122
Issue number	26
DOIs	https://doi.org/10.1073/pnas.2507112122
State	Published - Jul 1 2025

Keywords

HOTS
clustering
cryo-EM
membrane proteins

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10.1073/pnas.2507112122

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title = "Molecular contacts in self-assembling clusters of membrane proteins",

abstract = "Motivated by recent data pointing to the existence of homo-oligomeric assemblies of membrane proteins called higher-order transient structures, and their apparent role in connecting components of membrane signal pathways, we examine here by cryoelectron microscopy some of the protein–protein interactions that occur in cluster formation. Metabotropic glutamate receptors and HCN ion channels inside clusters contact their neighbors through structured extracellular and intracellular domains, respectively. Other ion channels, including Kv2.1 and Slo1, appear to form clusters through prominent intrinsically disordered sequences in the cytoplasm. These distinct modes of interaction are associated with clusters exhibiting varying degrees of compactness and order. We conclude that nature utilizes a variety of ways to form connections between membrane proteins in self-assembled clusters.",

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AU - Mandala, Venkata Shiva

AU - Fu, Ziao

AU - MacKinnon, Roderick

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N2 - Motivated by recent data pointing to the existence of homo-oligomeric assemblies of membrane proteins called higher-order transient structures, and their apparent role in connecting components of membrane signal pathways, we examine here by cryoelectron microscopy some of the protein–protein interactions that occur in cluster formation. Metabotropic glutamate receptors and HCN ion channels inside clusters contact their neighbors through structured extracellular and intracellular domains, respectively. Other ion channels, including Kv2.1 and Slo1, appear to form clusters through prominent intrinsically disordered sequences in the cytoplasm. These distinct modes of interaction are associated with clusters exhibiting varying degrees of compactness and order. We conclude that nature utilizes a variety of ways to form connections between membrane proteins in self-assembled clusters.

AB - Motivated by recent data pointing to the existence of homo-oligomeric assemblies of membrane proteins called higher-order transient structures, and their apparent role in connecting components of membrane signal pathways, we examine here by cryoelectron microscopy some of the protein–protein interactions that occur in cluster formation. Metabotropic glutamate receptors and HCN ion channels inside clusters contact their neighbors through structured extracellular and intracellular domains, respectively. Other ion channels, including Kv2.1 and Slo1, appear to form clusters through prominent intrinsically disordered sequences in the cytoplasm. These distinct modes of interaction are associated with clusters exhibiting varying degrees of compactness and order. We conclude that nature utilizes a variety of ways to form connections between membrane proteins in self-assembled clusters.

KW - HOTS

KW - clustering

KW - cryo-EM

KW - membrane proteins

UR - https://www.scopus.com/pages/publications/105009578807

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DO - 10.1073/pnas.2507112122

M3 - Article

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AN - SCOPUS:105009578807

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VL - 122

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 26

M1 - e2507112122

ER -

Molecular contacts in self-assembling clusters of membrane proteins

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