A cytoskeleton symphony: Actin and microtubules in microglia dynamics and aging

Abstract

Microglia dynamically reorganize their cytoskeleton to perform essential functions such as phagocytosis of toxic protein aggregates, surveillance of the brain parenchyma, and regulation of synaptic plasticity during neuronal activity bursts. Recent studies have shed light on the critical role of the microtubule cytoskeleton in microglial reactivity and function, revealing key regulators like cyclin-dependent kinase 1 and centrosomal nucleation in the remodeling of microtubules in activated microglia. Concurrently, the role of the actin cytoskeleton is also pivotal, particularly in the context of small GTPases like RhoA, Rac1, and Cdc42 and actin-binding molecules such as profilin-1 and cofilin. This article delves into the intricate molecular landscape of actin and microtubules, exploring their synergistic roles in driving microglial cytoskeletal dynamics. We propose a more integrated view of actin and microtubule cooperation, which is fundamental to understanding the functional coherence of the microglial cytoskeleton and its pivotal role in propelling brain homeostasis. Furthermore, we discuss how alterations in microglial cytoskeleton dynamics during aging and in disease states could have far-reaching implications for brain function. By unraveling the complexities of microglia cytoskeletal dynamics, we can deepen our understanding of microglial functional states and their implications in health and disease, offering insights into potential therapeutic interventions for neurologic disorders.