The Neuroplastin adhesion molecules: key regulators of neuronal plasticity and synaptic function

Beesley, PW; Herrera-Molina, R; Smalla, KH; Seidenbecher, C

Keywords: neurite outgrowth, long-term potentiation, monocarboxylate transporter, immunoglobulin superfamily, postsynaptic density, GABA Receptors

Abstract

The Neuroplastins Np65 and Np55 are neuronal and synapse-enriched immunoglobulin superfamily molecules that play important roles in a number of key neuronal and synaptic functions including, for Np65, cell adhesion. In this review we focus on the physiological roles of the Neuroplastins in promoting neurite outgrowth, regulating the structure and function of both inhibitory and excitatory synapses in brain, and in neuronal and synaptic plasticity. We discuss the underlying molecular and cellular mechanisms by which the Neuroplastins exert their physiological effects and how these are dependent upon the structural features of Np65 and Np55, which enable them to bind to a diverse range of protein partners. In turn this enables the Neuroplastins to interact with a number of key neuronal signalling cascades. These include: binding to and activation of the fibroblast growth factor receptor; Np65 trans-homophilic binding leading to activation of p38 MAPK and internalization of glutamate (GluR1) receptor subunits; acting as accessory proteins for monocarboxylate transporters, thus affecting neuronal energy supply, and binding to GABA(A) 1, 2 and 5 subunits, thus regulating the composition and localization of GABA(A) receptors. An emerging theme is the role of the Neuroplastins in regulating the trafficking and subcellular localization of specific binding partners. We also discuss the involvement of Neuroplastins in a number of pathophysiological conditions, including ischaemia, schizophrenia and breast cancer and the role of a single nucleotide polymorphism in the human Neuroplastin (NPTN) gene locus in impairment of cortical development and cognitive functions. Neuroplastins are neuronal cell adhesion molecules, which induce neurite outgrowth and play important roles in synaptic maturation and plasticity. This review summarizes the functional implications of Neuroplastins for correct synaptic membrane protein localization, neuronal energy supply, expression of LTP and LTD, animal and human behaviour, and pathophysiology and disease. It focuses particularly on Neuroplastin binding partners and signalling mechanisms, and proposes perspectives for future research on these important immunoglobulin superfamily members.

Más información

Título según WOS: The Neuroplastin adhesion molecules: key regulators of neuronal plasticity and synaptic function
Título según SCOPUS: The Neuroplastin adhesion molecules: Key regulators of neuronal plasticity and synaptic function
Título de la Revista: JOURNAL OF NEUROCHEMISTRY
Volumen: 131
Número: 3
Editorial: Wiley
Fecha de publicación: 2014
Página de inicio: 268
Página final: 283
Idioma: English
DOI:

10.1111/jnc.12816

Notas: ISI, SCOPUS