Litcius/Paper detail

Whole-genome screen identifies diverse pathways that negatively regulate ciliogenesis

Marion Failler, Ariadna Giró‐Perafita, Mikito Owa, Shalini Srivastava, Chi Young Yun, David J. Kahler, Derya Unutmaz, Francisco J. Esteva, Irma Sánchez, Brian David Dynlacht

2020Molecular Biology of the Cell29 citationsDOIOpen Access PDF

Abstract

We performed a high-throughput whole-genome RNAi screen to identify novel inhibitors of ciliogenesis in normal and basal breast cancer cells. Our screen uncovered a previously undisclosed, extensive network of genes linking integrin signaling and cellular adhesion to the extracellular matrix (ECM) with inhibition of ciliation in both normal and cancer cells. Surprisingly, a cohort of genes encoding ECM proteins was also identified. We characterized several ciliation inhibitory genes and showed that their silencing was accompanied by altered cytoskeletal organization and induction of ciliation, which restricts cell growth and migration in normal and breast cancer cells. Conversely, supplying an integrin ligand, vitronectin, to the ECM rescued the enhanced ciliation observed on silencing this gene. Aberrant ciliation could also be suppressed through hyperactivation of the YAP/TAZ pathway, indicating a potential mechanistic basis for our findings. Our findings suggest an unanticipated reciprocal relationship between ciliation and cellular adhesion to the ECM and provide a resource that could vastly expand our understanding of controls involving "outside-in" and "inside-out" signaling that restrain cilium assembly.

Topics & Concepts

CiliogenesisBiologyGenomeGeneticsComputational biologyCell biologyCiliumGeneGenetic and Kidney Cyst DiseasesRenal and related cancersProtist diversity and phylogeny
Whole-genome screen identifies diverse pathways that negatively regulate ciliogenesis | Litcius