FOXQ1 Controls the Induced Differentiation of Melanocytic Cells

Overview

Journal Cell Death Differ

Specialty Cell Biology

Date 2018 Feb 22

PMID 29463842

Citations 10

Authors

Archis Bagati

Anna Bianchi-Smiraglia

Sudha Moparthy

Kateryna Kolesnikova

Emily E Fink

Masha Kolesnikova

Matthew V Roll

Peter Jowdy

David W Wolff

Anthony Polechetti

Dong Hyun Yun

Brittany C Lipchick

Leslie M Paul

Brian Wrazen

Kalyana Moparthy

Shaila Mudambi

Galina E Morozevich

Sofia G Georgieva

Jianmin Wang

Gal Shafirstein

Song Liu

Eugene S Kandel

Albert E Berman

Neil F Box

Gyorgy Paragh

Mikhail A Nikiforov

Affiliations

Soon will be listed here.

Abstract

Oncogenic transcription factor FOXQ1 has been implicated in promotion of multiple transformed phenotypes in carcinoma cells. Recently, we have characterized FOXQ1 as a melanoma tumor suppressor that acts via repression of N-cadherin gene, and invasion and metastasis. Here we report that FOXQ1 induces differentiation in normal and transformed melanocytic cells at least partially via direct transcriptional activation of MITF gene, melanocytic lineage-specific regulator of differentiation. Importantly, we demonstrate that pigmentation induced in cultured melanocytic cells and in mice by activation of cAMP/CREB1 pathway depends in large part on FOXQ1. Moreover, our data reveal that FOXQ1 acts as a critical mediator of BRAF-dependent regulation of MITF levels, thus providing a novel link between two major signal transduction pathways controlling MITF and differentiation in melanocytic cells.

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