Abstract P006: Systematic Identification Of Metabolites Associated With Manp, A Novel Anp Analog, In Human Hypertension With Metabolic Syndrome

Abstract

Introduction: The atrial natriuretic peptide (ANP) regulates blood pressure (BP) and cardiorenal homeostasis via activation of guanylyl cyclase A (GC-A) receptor and second messenger cGMP. We recently demonstrated the safety, tolerability, and BP-lowering properties of MANP, an ANP analog and best-in-class GC-A activator, in subjects with essential hypertension (HTN). However, the effects of MANP on human metabolome during HTN remains undefined. Hypothesis: A single subcutaneous (SQ) administration of MANP can trigger metabolomic changes in humans. Methods: Twenty-two patients with HTN and metabolic syndrome (MetS) were randomized to receive placebo (N=5) or MANP (N=17, 2.5 μg/kg). Untargeted liquid chromatography mass spectrometry-based metabolomics and informatics were conducted on plasma of all subjects at baseline, 1 h post injection (hpi), and 6 hpi. Top circulating metabolites associated with MANP treatment were identified via a comparison of abundance between before and after MANP administration. Results: Compared to placebo, MANP resulted in the most prominent cGMP increase at 1 hpi and BP lowering effect at 6 hpi. With untargeted approach, we identified totally 1384 circulating metabolites. Principal component analysis supported distinct metabolic signatures at baseline, 1 hpi and 6 hpi in subjects receiving MANP. In MANP group, we found 31 metabolites at 1 hpi and 148 metabolites at 6 hpi showing significant change in abundance (adjusted P value < 0.05) compared to baseline. By contrast, <10 metabolites with difference in circulating abundance at either 1 hpi or 6 hpi compared to baseline were found in placebo group. Specifically, 8 annotated metabolites were identified with significant and progressive changes at both 1 and 6 hpi after treatment of MANP but not placebo, which included spisulosine, paecilaminol, quinine ethyl carbonate, thyrotropin releasing hormone, 3-epideoxycholic acid, hellicoside, pentanorvitamin D3, and tetracosanal. Conclusion: SQ administration of MANP triggers changes in a wide range of circulating metabolites beyond cGMP activation and BP reduction in humans. The biological outcome and clinical impact of these MANP-associated metabolites may help guide a precision medicine approach in HTN with MetS.