Kif3a Controls Murine Nephron Number Via GLI3 Repressor, Cell Survival, and Gene Expression in a Lineage-Specific Manner

Lijun Chi,Lin Chen,Norman D Rosenblum,Rong Mo,Alevtina Galtseva,Chi-Chung Hui,Nick Ashton

doi:10.1371/journal.pone.0065448

Lijun Chi, Lin Chen + Show 5 more

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https://doi.org/10.1371/journal.pone.0065448

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Abstract

The primary cilium is required during early embryo patterning, epithelial tubulogenesis, and growth factor-dependent signal transduction. The requirement for primary cilia during renal epithelial-mesenchymal tissue interactions that give rise to nephrons is undefined. Here, we used Cre-mediated recombination to generate mice with Kif3a deficiency targeted to the ureteric and/or metanephric mesenchyme cell lineages in the embryonic kidney. Gradual loss of primary cilia in either lineage leads to a phenotype of reduced nephron number. Remarkably, in addition to cyst formation, loss of primary cilia in the ureteric epithelial cell leads to decreased expression of Wnt11 and Ret and reduced ureteric branching. Constitutive expression of GLI3 repressor (Gli3Δ699/+) rescues these abnormalities. In embryonic metanephric mesenchyme cells, Kif3a deficiency limits survival of nephrogenic progenitor cells and expression of genes required for nephron formation. Together, our data demonstrate that Kif3a controls nephron number via distinct cell lineage-specific mechanisms.

Highlights

Primary cilia are microtubule-based organelles that function as signaling centers during development and cell differentiation [1]
We investigated the functional contribution of the primary cilium to renal development by generating mice with loss of primary cilia in both ureteric and metanephric mesenchyme cells
Cilia proteins KIF3A, IFT88 and IFT20, which are involved in intraflagellar transport (IFT) [2,32,33], are required for renal ciliogenesis; inactivation of each is known to cause cystic kidney disease [3,14,34,35]

Summary

Introduction

Primary cilia are microtubule-based organelles that function as signaling centers during development and cell differentiation [1]. Cilia assembly and maintenance and growth of the axoneme is mediated by a kinesin motor protein-based transport process termed intraflagellar transport (IFT), by which particles are transported in a bidirectional manner along the axoneme [2]. Hh ligands signal by binding the cell surface protein Patched (PTC), which functions as a constitutive inhibitor of Smoothened (SMO). PTC, SMO, and GLI are localized to the primary cilium [5,6,7]. The primary cilium is implicated in WNT signaling since NPHP2 (inversin), NPHP3, and GLIS2, each of which promotes noncanonical WNT signaling, are localized to the cilium. The localization of FGF receptors to cilia in murine airway cells suggests a possible role for the cilium in regulating FGF signaling [12]

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