[125I]-DNP selectively binds to NPR-A in the human heart, and NPR-A density is significantly downregulated in the heart and coronary arteries of patients with ischemic heart disease.
The novel snake venom ligand DNP selectively binds to NPR-A in human hearts, revealing a significant downregulation of these receptors in patients with ischemic heart disease which may explain attenuated natriuretic peptide responses.
The natriuretic peptides are considered to be cardioprotective; however, their receptors have not been identified in human myocardium using radiolabeled analogs. Dendroaspis natriuretic peptide (DNP) has been recently identified as a new member of this peptide family and is thought to be less susceptible to enzymatic degradation. Therefore, we have developed the novel radiolabeled analog 125I-DNP and used this to localize high-affinity (K(D)=0.2 nmol/L), saturable, specific binding sites in adult human heart (n=6) and coronary artery (n=8). In competition binding experiments, atrial natriuretic peptide and brain type natriuretic peptide had greater affinity for 125I-DNP binding sites than C-type natriuretic peptide and the natriuretic peptide receptor (NPR)-C ligand, cANF. This rank order of potency suggested binding of 125I-DNP was specific to NPR-A. Messenger RNA encoding NPR-A was identified in left ventricle and coronary artery smooth muscle, and expression was confirmed by immunocytochemical studies at the protein level. In addition, fluorescence dual labeling immunocytochemistry localized NPR-A protein to cardiomyocytes, endocardial endothelial cells, and smooth muscle of intramyocardial vessels. Importantly, we demonstrated a significant downregulation in the density of NPR-A in heart and coronary artery of patients with ischemic heart disease that may explain, in part, the attenuated natriuretic peptide response reported in this patient group.
Singh et al. (Fri,) conducted a other in Ischemic heart disease (n=14). [125I]-Dendroaspis natriuretic peptide ([125I]-DNP) vs. Normal tissue vs Ischemic heart disease tissue was evaluated on Localization, binding affinity to NPR-A, and receptor density. [125I]-DNP selectively binds to NPR-A in the human heart, and NPR-A density is significantly downregulated in the heart and coronary arteries of patients with ischemic heart disease.