Research Papers:
Molecular and functional crosstalk between extracellular Hsp90 and ephrin A1 signaling
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Abstract
Abdelkader Daoud1,*, Udhayakumar Gopal1,2,*, Jasmine Kaur1 and Jennifer S. Isaacs1
1Department of Cell and Molecular Pharmacology, Medical University of South Carolina, SC, 29412, Charleston, USA
2Current address: Department of Pathology, Duke University School of Medicine, NC, 27708, Durham, USA
*These authors contributed equally to this work
Correspondence to:
Jennifer S. Isaacs, email: [email protected]
Keywords: extracellular Hsp90 (eHsp90), RhoA, myosin, Src, EphA2
Received: August 16, 2017 Accepted: September 30, 2017 Published: November 03, 2017
ABSTRACT
The Eph receptor tyrosine kinase family member EphA2 plays a pivotal role in modulating cytoskeletal dynamics to control cancer cell motility and invasion. EphA2 is frequently upregulated in diverse solid tumors and has emerged as a viable druggable target. We previously reported that extracellular Hsp90 (eHsp90), a known pro-motility and invasive factor, collaborates with EphA2 to regulate tumor invasion in the absence of its cognate ephrin ligand. Here, we aimed to further define the molecular and functional relationship between EphA2 and eHsp90. Ligand dependent ephrin A1 signaling promotes RhoA activation and altered cell morphology to favor transient cell rounding, retraction, and diminished adhesion. Exposure of EphA2-expressing cancer cells to ligand herein revealed a unique role for eHsp90 as an effector of cytoskeletal remodeling. Notably, blockade of eHsp90 via either neutralizing antibodies or administration of cell-impermeable Hsp90-targeted small molecules significantly attenuated ligand dependent cell rounding in diverse tumor types. Although eHsp90 blockade did not appear to influence receptor internalization, downstream signaling events were augmented. In particular, eHsp90 activated a Src-RhoA axis to enhance ligand dependent cell rounding, retraction, and ECM detachment. Moreover, eHsp90 signaling via this axis stimulated activation of the myosin pathway, culminating in formation of an EphA2-myosin complex. Inhibition of either eHsp90 or Src was sufficient to impair ephrin A1 mediated Rho activation, activation of myosin intermediates, and EphA2-myosin complex formation. Collectively, our data support a paradigm whereby eHsp90 and EphA2 exhibit molecular crosstalk and functional cooperation within a ligand dependent context to orchestrate cytoskeletal events controlling cell morphology and attachment.
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