A role for Cep70 in centriole amplification in multiciliated cells.

Centriole amplification in multiciliated cells occurs in a pseudo-cell cycle regulated process that typically utilizes a poorly characterized molecularly dense structure called the deuterosome. We identified the centrosomal protein Cep70 as a novel deuterosome-associated protein that forms a complex with other deuterosome proteins, CCDC78 and Deup1. Cep70 dynamically associates with deuterosomes during centriole amplification in the ciliated epithelia of Xenopus embryos.

CAMSAP3 facilitates basal body polarity and the formation of the central pair of microtubules in motile cilia.

Synchronized beating of cilia on multiciliated cells (MCCs) generates a directional flow of mucus across epithelia. This motility requires a "9 + 2" microtubule (MT) configuration in axonemes and the unidirectional array of basal bodies of cilia on the MCCs. However, it is not fully understood what components are needed for central MT-pair assembly as they are not continuous with basal bodies in contrast to the nine outer MT doublets.

Massive centriole production can occur in the absence of deuterosomes in multiciliated cells.

Multiciliated cells (MCCs) amplify large numbers of centrioles that convert into basal bodies, which are required for producing multiple motile cilia. Most centrioles amplified by MCCs grow on the surface of organelles called deuterosomes, whereas a smaller number grow through the centriolar pathway in association with the two parent centrioles. Here, we show that MCCs lacking deuterosomes amplify the correct number of centrioles with normal step-wise kinetics.

Lack of GAS2L2 Causes PCD by Impairing Cilia Orientation and Mucociliary Clearance.

Primary ciliary dyskinesia (PCD) is a genetic disorder in which impaired ciliary function leads to chronic airway disease. Exome sequencing of a PCD subject identified an apparent homozygous frameshift variant, c.887_890delTAAG (p.

The small molecule AMBMP disrupts microtubule growth, ciliogenesis, cell polarity, and cell migration.

2-Amino-4-(3,4-[methylenedioxy]benzylamino)-6-(3-methoxyphenyl)pyrimidine (AMBMP) is a small molecule that has been previously reported to be both a Wnt agonist and a microtubule (MT) regulator. Here we report a detailed analysis of AMBMPs effects on MTs and on MT associated cellular processes including cell polarity, ciliogenesis, and cell migration. Specifically, treatment of Xenopus embryos with AMBMP leads to defects similar to the MT depolymerizing drug nocodazole, including a failure to generate or polarize cilia (depending on the timing of treatment) and a loss of the cell movements associated with radial intercalation.

CLAMP/Spef1 regulates planar cell polarity signaling and asymmetric microtubule accumulation in the ciliated epithelia.

Most epithelial cells polarize along the axis of the tissue, a feature known as planar cell polarity (PCP). The initiation of PCP requires cell-cell signaling via the noncanonical Wnt/PCP pathway. Additionally, changes in the cytoskeleton both facilitate and reflect this polarity.