Marina Weidemann scite author profile

Motile cilia move extracellular fluids or mediate cellular motility. Their function is essential for embryonic development, adult tissue homeostasis and reproduction throughout vertebrates. FOXJ1 is a key transcription factor for the formation of motile cilia but its downstream genetic programme is only partially understood. Here, we characterise a novel FOXJ1 target, Cfap157, that is specifically expressed in motile ciliated tissues in mouse and Xenopus in a FOXJ1-dependent manner. CFAP157 protein localises to basal bodies and interacts with tubulin and the centrosomal protein CEP350. Cfap157 knockout mice appear normal but homozygous males are infertile. Spermatozoa display impaired motility and a novel phenotype: Cfap157-deficient sperm exhibit axonemal loops, supernumerary axonemal profiles with ectopic accessory structures, excess cytoplasm and clustered mitochondria in the midpiece regions, and defective axonemes along the flagella. Our study thus demonstrates an essential sperm-specific function for CFAP157 and suggests that this novel FOXJ1 effector is part of a mechanism that acts during spermiogenesis to suppress the formation of supernumerary axonemes and ensures a correct ultrastructure.

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1700012B09Rik, a FOXJ1 effector gene active in ciliated tissues of the mouse but not essential for motile ciliogenesis

Stauber

Boldt

Wrede

et al. 2017

Developmental Biology

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In humans and mice, motile cilia occur on the surface of the embryonic ventral node, on respiratory and ependymal epithelia and in reproductive organs where they ensure normal left-right asymmetry of the organism, mucociliary clearance of airways, homeostasis of the cerebrospinal fluid and fertility. The genetic programme for the formation of motile cilia, thus critical for normal development and health, is switched on by the key transcription factor FOXJ1. In previous microarray screens for murine FOXJ1 effectors, we identified candidates for novel factors involved in motile ciliogenesis, including both genes that are well conserved throughout metazoa and beyond, like FOXJ1 itself, and genes without overt homologues outside higher vertebrates. Here we examine one of the novel murine FOXJ1 effectors, the uncharacterised 1700012B09Rik whose homologues appear to be restricted to higher vertebrates. In mouse embryos and adults, 1700012B09Rik is predominantly expressed in motile ciliated tissues in a FOXJ1-dependent manner. 1700012B09RIK protein localises to basal bodies of cilia in cultured cells. Detailed analysis of 1700012B09Rik knock-out mice reveals no impaired function of motile cilia or non-motile cilia. In conclusion, this novel FOXJ1 effector is associated mainly with motile cilia but - in contrast to other known FOXJ1 targets - its putative ciliary function is not essential for development or health in the mouse, consistent with a late emergence during evolution of motile ciliogenesis.

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Marina Weidemann

Identification of FOXJ1 effectors during ciliogenesis in the foetal respiratory epithelium and embryonic left-right organiser of the mouse

An in vitro urinary tract catheter system to investigate biofilm development in catheter-associated urinary tract infections

CFAP157 is a murine downstream effector of FOXJ1 that is specifically required for flagellum morphogenesis and sperm motility

1700012B09Rik, a FOXJ1 effector gene active in ciliated tissues of the mouse but not essential for motile ciliogenesis

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