Fruzsina Kotsis scite author profile

The mTOR pathway is the central regulator of cell size1. External signals from growth factors and nutrients converge on the mTORC1 multi-protein complex to modulate downstream targets, but how the different inputs are integrated and translated into specific cellular responses is incompletely understood2–4. Deregulation of the mTOR pathway occurs in polycystic kidney disease (PKD)5–7, where cilia (filiform sensory organelles) fail to sense urine flow because of inherited mutations in ciliary proteins8. We therefore investigated if cilia have a role in mTOR regulation. Here, we show that ablation of cilia in transgenic mice results in enlarged cells when compared with control animals. In vitro analysis demonstrated that bending of the cilia by flow is required for mTOR downregulation and cell-size control. Surprisingly, regulation of cell size by cilia is independent of flow-induced calcium transients, or Akt. However, the tumour-suppressor protein Lkb1 localises in the cilium, and flow results in increased AMPK phosphorylation at the basal body. Conversely, knockdown of Lkb1 prevents normal cell-size regulation under flow conditions. Our results demonstrate that the cilium regulates mTOR signalling and cell size, and identify the cilium-basal body compartment as a spatially restricted activation site for Lkb1 signalling.

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TRPP2 and TRPV4 form a polymodal sensory channel complex

Köttgen

et al. 2008

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Crystal structures of IFT70/52 and IFT52/46 provide insight into intraflagellar transport B core complex assembly

et al. 2014

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Genetic studies of urinary metabolites illuminate mechanisms of detoxification and excretion in humans

Li²,

et al. 2020

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The von Hippel-Lindau tumor suppressor protein controls ciliogenesis by orienting microtubule growth

Schermer¹,

Ghenoiu²,

Bartram³

et al. 2006

164

126

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Cilia are specialized organelles that play an important role in several biological processes, including mechanosensation, photoperception, and osmosignaling. Mutations in proteins localized to cilia have been implicated in a growing number of human diseases. In this study, we demonstrate that the von Hippel-Lindau (VHL) protein (pVHL) is a ciliary protein that controls ciliogenesis in kidney cells. Knockdown of pVHL impeded the formation of cilia in mouse inner medullary collecting duct 3 kidney cells, whereas the expression of pVHL in VHL-negative renal cancer cells rescued the ciliogenesis defect. Using green fluorescent protein–tagged end-binding protein 1 to label microtubule plus ends, we found that pVHL does not affect the microtubule growth rate but is needed to orient the growth of microtubules toward the cell periphery, a prerequisite for the formation of cilia. Furthermore, pVHL interacts with the Par3–Par6–atypical PKC complex, suggesting a mechanism for linking polarity pathways to microtubule capture and ciliogenesis.

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Fruzsina Kotsis

Primary cilia regulate mTORC1 activity and cell size through Lkb1

TRPP2 and TRPV4 form a polymodal sensory channel complex

Crystal structures of IFT70/52 and IFT52/46 provide insight into intraflagellar transport B core complex assembly

Genetic studies of urinary metabolites illuminate mechanisms of detoxification and excretion in humans

The von Hippel-Lindau tumor suppressor protein controls ciliogenesis by orienting microtubule growth

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