Multi-scale structures of the mammalian radial spoke and divergence of axonemal complexes in ependymal cilia

Author:

Meng XuemingORCID,Xu Cong,Li Jiawei,Qiu Benhua,Luo Jiajun,Hong QinORCID,Tong Yujie,Fang Chuyu,Feng Yanyan,Ma Rui,Shi Xiangyi,Lin Cheng,Pan Chen,Zhu XueliangORCID,Yan XiuminORCID,Cong YaoORCID

Abstract

AbstractRadial spokes (RS) transmit mechanochemical signals between the central pair (CP) and axonemal dynein arms to coordinate ciliary motility. Atomic-resolution structures of metazoan RS and structures of axonemal complexes in ependymal cilia, whose rhythmic beating drives the circulation of cerebrospinal fluid, however, remain obscure. Here, we present near-atomic resolution cryo-EM structures of mouse RS head-neck complex in both monomer and dimer forms and reveal the intrinsic flexibility of the dimer. We also map the genetic mutations related to primary ciliary dyskinesia and asthenospermia on the head-neck complex. Moreover, we present the cryo-ET and sub-tomogram averaging map of mouse ependymal cilia and build the models for RS1-3, IDAs, and N-DRC. Contrary to the conserved RS structure, our cryo-ET map reveals the lack of IDA-b/c/e and the absence of Tektin filaments within the A-tubule of doublet microtubules in ependymal cilia compared with mammalian respiratory cilia and sperm flagella, further exemplifying the structural diversity of mammalian motile cilia. Our findings shed light on the stepwise mammalian RS assembly mechanism, the coordinated rigid and elastic RS-CP interaction modes beneficial for the regulation of asymmetric ciliary beating, and also facilitate understanding on the etiology of ciliary dyskinesia-related ciliopathies and on the ependymal cilia in the development of hydrocephalus.

Funder

National Natural Science Foundation of China

Ministry of Science and Technology of the People’s Republic of China

Publisher

Springer Science and Business Media LLC

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