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Merck

Actin polymerization controls cilia-mediated signaling.

The Journal of cell biology (2018-06-28)
Michael L Drummond, Mischa Li, Eric Tarapore, Tuyen T L Nguyen, Baina J Barouni, Shaun Cruz, Kevin C Tan, Anthony E Oro, Scott X Atwood
초록

Primary cilia are polarized organelles that allow detection of extracellular signals such as Hedgehog (Hh). How the cytoskeleton supporting the cilium generates and maintains a structure that finely tunes cellular response remains unclear. Here, we find that regulation of actin polymerization controls primary cilia and Hh signaling. Disrupting actin polymerization, or knockdown of N-WASp/Arp3, increases ciliation frequency, axoneme length, and Hh signaling. Cdc42, a potent actin regulator, recruits both atypical protein pinase C iota/lambda (aPKC) and Missing-in-Metastasis (MIM) to the basal body to maintain actin polymerization and restrict axoneme length. Transcriptome analysis implicates the Src pathway as a major aPKC effector. aPKC promotes whereas MIM antagonizes Src activity to maintain proper levels of primary cilia, actin polymerization, and Hh signaling. Hh pathway activation requires Smoothened-, Gli-, and Gli1-specific activation by aPKC. Surprisingly, longer axonemes can amplify Hh signaling, except when aPKC is disrupted, reinforcing the importance of the Cdc42-aPKC-Gli axis in actin-dependent regulation of primary cilia signaling.

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Sigma-Aldrich
Monoclonal Anti-β-Actin antibody produced in mouse, clone AC-74, purified immunoglobulin, buffered aqueous solution
Sigma-Aldrich
Anti-Acetylated Tubulin antibody, Mouse monoclonal, clone 6-11B-1, purified from hybridoma cell culture
Sigma-Aldrich
Anti-Tubulin γ, C-Terminal antibody produced in rabbit, affinity isolated antibody
Sigma-Aldrich
Anti-PAR-3 Antibody, clone 8E8, clone 8E8, from mouse