Microtubule organization and tubulin post-translational modifications in intact tissues and during regeneration in calcareous sponges.

Abstract

Microtubules are the principal cytoskeletal component in cells, integral to various morphogenetic processes in Metazoa, including cell migration, adhesion, and polarity. Their dynamics and functions are modulated by tubulin post-translational modifications (PTMs). While studies on model species have provided insights into microtubule functions, understanding their evolutionary aspects necessitates exploring non-model organisms. Sponges (phylum Porifera) are an early-branching metazoan group with outstanding regenerative capacities. This research presents the first comprehensive analysis of microtubule organization and tubulin PTMs in calcareous sponges. The intact sponge cells show various but typical types of microtubule organization, while detected tubulin PTMs are associated with certain cell types, indicating specific functions in particular cellular contexts. During regeneration, relying on the coordinated movement of epithelial-like cell sheets, microtubule networks in exopinacocytes and choanocytes undergo significant reorganization. These rearranged microtubules potentially stabilize cellular migration direction and facilitate cargo transport, essential for cell contact and polarity establishment. This study enhances our understanding of microtubule functionality and regulation in early-diverging metazoans, contributing to the broader evolutionary context of cytoskeletal dynamics.