BackgroundLeft heart failure is the most common cause of pulmonary hypertension and increases morbidity and mortality. We investigate the use of canagliflozin, an antidiabetic Sodium-glucose Cotransporter-2 Inhibitor, which is first-line therapy in congestive heart failure, on pulmonary fibrosis in a porcine model of chronic myocardial ischemia.MethodologySixteen Yorkshire swine, eight in a normal diet control arm (NDC) and eight in the canagliflozin arm (CAN), underwent left thoracotomy and ameroid constrictor placement on the left circumflex artery. Seven weeks after placement, the swine underwent harvest procedure. During harvest, left ventricular contractility was quantified by direct left ventricular pressure-volume loops. Protein expression was quantified by immunoblotting and Masson's trichrome staining was utilized to assess perivascular collagen deposition.ResultsAnalysis of left ventricular ejection fraction demonstrated no significant difference between CAN and NDC. Western blot analysis demonstrated increases in TGFβ signaling pathways with decreased free TGFβ and TGFβ monomers in CAN pigs (p < 0.01). Downstream mediators of TGFβ were also increased in NDC with an increase in phospho-SMAD2/3 activity (p = 0.005). Masson's Trichrome analysis of lung tissue demonstrated a trend toward reduced perivascular collagen deposition in CAN swine lungs (p = 0.086).ConclusionsCanagliflozin ameliorates chronic fibrotic changes related to pulmonary hypertension in left ventricular failure. While there was a strong trend toward significance in histologic analysis, this may be limited by the duration of our model. Western blot analysis, however, demonstrates that CAN's modulation of TGFβ signaling pathways may play a role in the management of secondary pulmonary hypertension.
Keywords: Myocardial ischemia; cardiac; ischemic cardiomyopathy; lung—other; pulmonary arteries/veins (incl normal and diseased); pulmonary vascular resistance/hypertension; thoracic.