It's complicated: the interplay of Kif1c mRNA localization in cell protrusions, assembly of protein binding partners on the KIF1C protein, and cell migration

  1. Esther Braselmann
  1. Department of Chemistry, Georgetown University, Washington, District of Columbia 20057, USA
  1. Corresponding authors: esther.braselmann{at}georgetown.edu

Abstract

Distinct subcellular localizations of mRNAs have been described across a wide variety of cell types. While common themes emerge for neuronal cells, functional roles of mRNA localization in space and time are much less understood in nonneuronal cells. Emerging areas of interest are cell models with protrusions, often linked with cell mobility in cancer systems. In this issue of Genes & Development, Norris and Mendell (pp. 191–203) systematically investigate a link between mRNA localization to cell protrusions in a mouse melanoma cell system and a mechanistic link to downstream consequences for cell mobility. The study first identifies a model mRNA of interest in an unbiased way that exhibits a set of phenotypes associated with cell mobility. The candidate mRNA that fulfills all requirements is Kif1c mRNA. Further systematic investigation links Kif1c mRNA localization to assembly of a protein–protein network on the KIF1C protein itself. What's clear is that this work will inspire a further mechanistic dissection of the Kif1c mRNA/KIF1C protein interplay in this important nonneuronal model cell system. More broadly, this work suggests that a broad set of model mRNAs should be investigated to understand mRNA dynamics and downstream functional consequences across a variety of cell models.

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