Objective: Synapse-associated protein 97 (SAP97) is a scaffold protein widely expressed in the brain, heart, and kidney. SAP97 has been suggested function in the regulation of cardiac contractility. SAP97 directly binds to cardiac beta1 adrenceptor. Our recent studies have shown that increased cAMP and cGMP levels are involved in enhancing excitation-contraction (E-C) coupling after sympathetic nervous system activation. We aim to study the role of SAP97 in beta1 adrenoceptor-induced increases in cyclic nucleotides and cardiac E-C coupling. Results and Methods: Cardiac function in mice with cardiomyocyte-specific deletion of the SAP97 (SAP97-cKO) was comparable to that in flox/flox control littermates. Ligand-induced cGMP signal in freshly isolated adult ventricular myocytes (AVMs) using FRET biosensor Gi500. The cGMP responsiveness caused by β1AR agonist as dobutamine was reduced in SAP97-cKO versus f/f cells. No significant difference between the groups using nonselective beta-adrenergic stimulation isoproterenol (ISO). In comparison, the dobutamine-induced cAMP levels were not reduced in SAP97-cKO when compared to f/f controls. The dobutamine-induced ejection fraction in hearts and sarcomere shortening in AVMs were significantly attenuated in SAP97-cKO hearts and AVMs when compared to f/f controls, respectively. On the other hand, no difference was observed between f/f and cKO AVMs and hearts after stimulation by ISO. To further examine the LTCC activity, whole-cell currents (ICa) were recorded from freshly isolated AVMs. The results showed that the LTCC current was attenuated in SAP97-cKO AVMs than cKO controls when exposed to dobutamine. These results show SAP97 is necessary for increasing intracellular cGMP level, LTCC current, and cardiac E-C coupling and contractility after β1AR stimulation. Conclusion: SAP97 plays a crucial role in β 1 AR signaling, which is necessary for triggering E-C coupling through cAMP and cGMP pathways.