Abstract Body: ABSTRACT
Dysfunction of beta-adrenergic receptor (βAR) is a key hallmark of heart failure, wherein mechanisms of phosphorylation-mediated desensitization of βARs are well understood. However, less is known about dephosphorylation-mediated resensitization of βARs that is regulated by protein phosphatase 2A (PP2A) in heart failure. Our previous studies have shown that agonist stimulation of βAR activates phosphoinositide 3-kinase γ (PI3Kγ) which phosphorylates endogenous inhibitor of PP2A (I2PP2A) on serine residues 9 & 93. Phosphorylated I2PP2A (pI2PP2A) binds to PP2A inhibiting its activity thereby, impairing βAR resensitization. Although structural studies have shown I2PP2A to be a dimer, yet little is understood about the mechanistic basis of PP2A inhibition by I2PP2A. We therefore hypothesized that phosphorylation of I2PP2A promotes dimerization driving robust interaction with PP2A resulting in inhibition of PP2A and impairment in βAR resensitization. To test for dimerization, hemagglutinin (HA)-tagged I2PP2A and Myc-tagged I2PP2A were generated and co-expressed in HEK 293 cells. Immunoprecipitation of HA-I2PP2A led to significant co-immunoprecipitation of Myc-I2PP2A reflecting the ability of I2PP2A to dimerize. To determine whether phosphorylation is key for dimerization, phospho-mimetic mutants of I2PP2A (S9,93A (inactive) or S9,93D (active)) were generated. Immunoblotting of cellular lysates with expression of these phospho-mimetics showed that S9,93D exclusively formed dimers, while S9,93A I2PP2A only formed monomers suggesting that phosphorylation is key facilitator of dimerization. The role of I2PP2A phosphorylation in its dimerization and PP2A interaction with consequences on βAR resensitization will be presented. Determining the mechanistic basis of this understudied pathway is critical as human heart failure is associated with increased PI3Kγ activity, elevated expression of I2PP2A and reduced βAR function.

Key words: Desensitization, Resensitization, I2PP2A, PP2A, Dimerization