Background: Intracellular second messenger cyclic guanosine monophosphate (cGMP) mediates bioactivity of the natriuretic peptides and nitric oxide, and is key to circulatory homeostasis and protection against cardiovascular disease. Inhibition of cGMP-degrading phosphodiesterases (PDEs) PDE5 and PDE9 are emerging as pharmacological targets in heart failure (HF)., Objectives: The present study investigated dual enhancement of cGMP in experimental HF by combining inhibition of PDE-5 (P5-I) and PDE-9 (P9-I)., Methods: Eight sheep with pacing-induced HF received on separate days intravenous P5-I (sildenafil), P9-I (PF-04749982), P5-I+P9-I, and vehicle control, in counterbalanced order., Results: Compared with control, separate P5-I and P9-I significantly increased circulating cGMP concentrations in association with reductions in mean arterial pressure (MAP), left atrial pressure (LAP), and pulmonary arterial pressure (PAP), with effects of P5-I on cGMP, MAP, and PAP greater than those of P9-I. Only P5-I decreased pulmonary vascular resistance. Combination P5-I+P9-I further reduced MAP, LAP, and PAP relative to inhibition of either phosphodiesterase alone. P9-I and, especially, P5-I elevated urinary cGMP levels relative to control. However, whereas inhibition of either enzyme increased urine creatinine excretion and clearance, only P9-I induced a significant diuresis and natriuresis. Combined P5-I+P9-I further elevated urine cGMP with concomitant increases in urine volume, sodium and creatinine excretion, and clearance similar to P9-I alone, despite the greater MAP reductions induced by combination treatment., Conclusions: Combined P5-I+P9-I amalgamated the superior renal effects of P9-I and pulmonary effects of P5-1, while concurrently further reducing cardiac preload and afterload. These findings support combination P5-I+P9-I as a therapeutic strategy in HF., Competing Interests: Funding Support and Author Disclosures Financial support was provided by grants from the Heart Foundation of New Zealand (#1861) and the Canterbury Medical Research Foundation (#07-20). Dr Rademaker was named investigator on research grants from the Heart Foundation of New Zealand (#1861) and Canterbury Medical Research Foundation (#07-20). PF-04749982 and Sildenafil were provided by Pfizer via a Compound Transfer Agreement (CG#60248811 [WI215594]). Dr Scott was named investigator and received significant salary support from research grants from the Heart Foundation of New Zealand (#1861) and the Canterbury Medical Research Foundation (#07-20). Drs Charles and Richards were named investigators on research grants from the Heart Foundation of New Zealand (#1861) and the Canterbury Medical Research Foundation (#07-20)., (Copyright © 2024 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)