Abstract
RACK1 is a scaffolding protein that contributes to the specificity and propagation of several signaling cascades including the cAMP pathway. As such, RACK1 participates in numerous cellular functions ranging from cell migration and morphology to gene transcription. To obtain further insights on the mechanisms whereby RACK1 regulates cAMP-dependent processes, we set out to identify new binding partners of RACK1 during activation of the cAMP signaling using a proteomics strategy. We identified β-actin as a direct RACK1 binding partner and found that the association between β-actin and RACK1 is increased in response to the activation of the cAMP pathway. Furthermore, we show that cAMP-dependent increase in BDNF expression requires filamentous actin. We further report that β-actin associates with the BDNF promoter IV upon the activation of the cAMP pathway and present data to suggest that the association of β-actin with BDNF promoter IV is RACK1-dependent. Taken together, our data suggest that β-actin is a new RACK1 binding partner and that the RACK1 and β-actin association participate in the cAMP-dependent regulation of BDNF transcription.
Highlights
RACK1 is a ubiquitous scaffolding protein that belongs to the tryptophan-aspartate (WD-40) repeat family of proteins [1, 2]
We aimed at identifying proteins that interact with RACK1 interactions that occurr in response to the activation of the cAMP signaling
We report that β-actin is a new direct binding partner of the scaffolding protein RACK1, and provide evidence to suggest that this interaction is modulated by cAMP signaling
Summary
RACK1 is a ubiquitous scaffolding protein that belongs to the tryptophan-aspartate (WD-40) repeat family of proteins [1, 2]. A critical feature of RACK1 is its multifaceted and compact propeller structure, which allows the protein to associate with several binding partners at the same time [1, 2], and this characteristic makes RACK1 a unique molecular node with the capacity for integrating and converting several signals into a cellular response. RACK1 was originally identified as a βII protein kinase C (βII PKC) binding protein that targets the active kinase to its proper subcellular location [3]. PLOS ONE | DOI:10.1371/journal.pone.0160948 August 9, 2016
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