Abstract
Activation of AP-1 transcription factors, composed of the Jun and Fos proteins, regulates cellular fates, such as proliferation, differentiation or apoptosis. Among other stimuli, the AP-1 pathway can be initiated by extracellular ligands, such as growth factors or cytokines, which undergo internalization in complex with their receptors. Endocytosis has been implicated in the regulation of several signaling pathways; however its possible impact on AP-1 signaling remains unknown. Here we show that inhibition of dynamin 2 (Dyn2), a major regulator of endocytic internalization, strongly stimulates the AP-1 pathway. Specifically, expression of a dominant-negative Dyn2 K44A mutant increases the total levels of c-Jun, its phosphorylation on Ser63/73 and transcription of AP-1 target genes. Interestingly, DNM2 mutations implicated in human neurological disorders exhibit similar effects on AP-1 signaling. Mechanistically, Dyn2 K44A induces AP-1 by increasing phosphorylation of several receptor tyrosine kinases. Their activation is required to initiate a Src- and JNK-dependent signaling cascade converging on c-Jun and stimulating expression of AP-1 target genes. Cumulatively, our data uncover a link between the Dyn2 function and JNK signaling which leads to AP-1 induction.
Highlights
Signaling via activator protein-1 (AP-1) transcription factors can control a wide range of cellular processes, including proliferation, differentiation, migration, survival or death
We demonstrate that inhibition of dynamin activity drives AP-1 dependent signaling, reflected by increased activation of JNK, c-Jun and enhanced target gene expression
Basal AP-1 activity was measured in serumgrown HEK293 cells, upon overexpression of a dominant-negative K44A mutant of dynamin 2 (Dyn2 K44A)
Summary
Signaling via activator protein-1 (AP-1) transcription factors can control a wide range of cellular processes, including proliferation, differentiation, migration, survival or death. The AP-1 proteins belong to three main subfamilies: Jun (c-Jun, JunB, JunD), Fos (c-Fos, FosB, Fra-1, Fra-2) and ATF [4,5]. Individual AP-1 proteins differ with respect to their dimerization and transactivation abilities. Members of the Jun subfamily can homo- and heterodimerize, while Fos or ATF proteins cannot form homodimers [2]. The transactivation ability of c-Jun, c-Fos and FosB is strong, relative to the weak activities of JunB, JunD or Fra-1/2. The latter proteins can act as transcriptional repressors by heterodimerizing with strong activators [5,6,7]
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