Epac1 activation optimizes cellular functions of BMSCs and promotes wound healing via Erk/ACLY/PGC-1α signaling pathway.

Restrained cell function of relocated bone marrow mesenchymal stem cells (BMSCs) largely impedes the clinical benefits of BMSCs-mediated tissue repair. Exchange protein directly activated by cAMP (Epac), a novel protein discovered in cAMP signaling pathway, has a potential role in regulating cell migration and proliferation by triggering the downstream Rap signaling. However, whether and how Epac may exert effects on BMSCs' bioactivity have less been investigated. Here we showed that Epac1 was predominantly expressed in BMSCs and Epac1 activation by 8-pCPT enhanced BMSCs proliferation. 8-pCPT also altered F-actin cytoskeleton and promoted BMSCs migration. By contrast, Epac1 inhibitor ESI-09 resulted in retarded cell migration in 8-pCPT-treated BMSCs. Epac1 activation was further found to be contributed directly to the chemotactic responses induced by CXCL12. The proteomic analysis revealed that ACLY expression significantly increased and Chemokine signaling pathway was robustly activated in 8-pCPT-treated BMSCs. In addition, 8-pCPT up-regulated the protein levels of active Rap1, p-Erk, p-ACLY, VEGF-A and PGC-1α in BMSCs; however, ESI-09 prevented the increase of p-Erk, VEGF-A and PGC-1α induced by 8-pCPT, but further enhanced the p-ACLY level, which consequently stimulated an apoptosis signal as revealed by increased caspase-3 cleavage. Notably, 8-pCPT promoted VEGF paracrine of BMSCs. Finally, we demonstrated that 8-pCPT-treated BMSCs accelerated the cutaneous wound healing process in a mice wound model, while treatment with ESI-09 obviously inhibited these effects. In conclusion, this study suggests that appropriate manipulation of Epac1 may enhance the therapeutic effects of BMSCs and facilitate their future clinical applications in tissue repair. • Epac1 activation promotes the proliferation, migration and VEGF paracrine of BMSCs. • Epac1/Rap1/Erk signaling downstream of CXCL12 controls BMSCs migration. • Activation of Epac1 by 8-pCPT up-regulates ACLY activity in BMSCs. • Epac1 activation enhances the therapeutic effects of BMSCs on wound healing in vivo. [ABSTRACT FROM AUTHOR]