The nitroxyl donor isopropylamine-NONOate elicits soluble guanylyl cyclase-dependent antihypertrophic actions: comparison of the potential therapeutic advantages of HNO over NO•

Results IPA-NO elicited concentration-dependent inhibition of endothelin-1 (ET1)-induced increases in neonatal rat cardiomyocyte size, with similar suppression of hypertrophic genes. Antihypertrophic IPA-NO actions were significantly attenuated by L-cysteine (HNO scavenger), Rp-8-pCTPcGMPS (cGMP-dependent protein kinase inhibitor), and ODQ (to target soluble guanylyl cyclase, sGC), but were unaffected by carboxy-PTIO (NO• scavenger) or CGRP837 (calcitonin gene-related peptide antagonist). Furthermore, IPA-NO significantly increased cardiomyocyte cGMP 3.5-fold (an L-cysteine-sensitive effect), and stimulated sGC activity 3-fold, without detectable NO• release. IPA-NO also suppressed ET1-induced cardiomyocyte superoxide generation. The pure NO• donor, DEA-NO, reproduced these IPA-NO actions, but were sensitive to carboxy-PTIO rather than L-cysteine. Although IPA-NO stimulation of purified sGC was preserved under pyrogallol oxidant stress (in direct contrast to DEA-NO), cardiomyocyte sGC activity after either donor were attenuated by this stress. Excitingly IPA-NO also exhibited acute antihypertrophic actions in response to acute pressureoverload in the intact heart, at doses that did not affect coronary perfusion pressure or LV function.