Actin Cytoskeleton at the Synapse: An Alzheimer's Disease Perspective

Abstract

Actin, a ubiquitous and highly conserved cytoskeletal protein, plays a pivotal role in various cellular functions such as structural support, facilitating cell motility, and contributing to the dynamic processes of synaptic function. Apart from its established role in inducing morphological changes, recent developments in the field indicate an active involvement of actin in modulating both the structure and function of pre- and postsynaptic terminals. Within the presynapse, it is involved in the organization and trafficking of synaptic vesicles, contributing to neurotransmitter release. In the postsynapse, actin dynamically modulates dendritic spines, influencing the postsynaptic density organization and anchoring of neurotransmitter receptors. In addition, the dynamic interplay of actin at the synapse underscores its essential role in regulating neural communication. This review strives to offer a comprehensive overview of the recent advancements in understanding the multifaceted role of the actin cytoskeleton in synaptic functions. By emphasizing its aberrant regulation, we aim to provide valuable insights into the underlying mechanisms of Alzheimer's disease pathophysiology.