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A dynamic basal complex modulates mammalian sperm movement

Sushil Khanal, Miguel Ricardo Leung, Abigail Royfman, Emily Fishman, Barbara Saltzman, Hermes Gadêlha, Tzviya Zeev‐Ben‐Mordehai, Tomer Avidor‐Reiss

2021Nature Communications78 citationsDOIOpen Access PDF

Abstract

Reproductive success depends on efficient sperm movement driven by axonemal dynein-mediated microtubule sliding. Models predict sliding at the base of the tail - the centriole - but such sliding has never been observed. Centrioles are ancient organelles with a conserved architecture; their rigidity is thought to restrict microtubule sliding. Here, we show that, in mammalian sperm, the atypical distal centriole (DC) and its surrounding atypical pericentriolar matrix form a dynamic basal complex (DBC) that facilitates a cascade of internal sliding deformations, coupling tail beating with asymmetric head kinking. During asymmetric tail beating, the DC's right side and its surroundings slide ~300 nm rostrally relative to the left side. The deformation throughout the DBC is transmitted to the head-tail junction; thus, the head tilts to the left, generating a kinking motion. These findings suggest that the DBC evolved as a dynamic linker coupling sperm head and tail into a single self-coordinated system.

Topics & Concepts

MicrotubuleCentrioleSpermBasal bodyCell biologyAnatomyBiologyBiophysicsOrganelleCoupling (piping)FlagellumMaterials scienceGeneticsMetallurgyGeneMicrotubule and mitosis dynamicsReproductive Biology and FertilityCellular Mechanics and Interactions
A dynamic basal complex modulates mammalian sperm movement | Litcius