CORM-A1: a new pharmacologically active carbon monoxide-releasing molecule

Roberto Motterlini, Philip Sawle, Jehad Hammad, Sandip Bains, Roger Alberto, Roberta Foresti, Colin J Green

Research output: Contribution to journalArticlepeer-review

289 Citations (Scopus)


Carbon monoxide (CO) is emerging as an important and versatile mediator of physiological processes to the extent that treatment of animals with exogenous CO gas has beneficial effects in a range of vascular- and inflammatory-related disease models. The recent discovery that certain transition metal carbonyls function as CO-releasing molecules (CO-RMs) in biological systems highlighted the potential of exploiting this and similar classes of compounds as a stratagem to deliver CO for therapeutic purposes. Here we describe the biochemical features and pharmacological actions of a newly identified water-soluble CO releaser (CORM-A1) that, unlike the first prototypic molecule recently described (CORM-3), does not contain a transition metal and liberates CO at a much slower rate under physiological conditions. Using a myoglobin assay and an amperometric CO electrode, we demonstrated that the release of CO from CORM-A1 is both pH- and temperature-dependent with a half-life of approximately 21 min at 37 degrees C and pH 7.4. In isolated aortic rings, CORM-A1 promoted a gradual but profound concentration-dependent vasorelaxation over time, which was highly amplified by YC-1 (1 microM) and attenuated by ODQ, a stimulator and inhibitor of guanylate cyclase, respectively. Similarly, administration of CORM-A1 (30 micromol/kg i.v.) in vivo produced a mild decrease in mean arterial pressure, which was markedly potentiated by pretreatment with YC-1 (1.2 micromol/kg i.v.). Interestingly, an inactive form of CORM-A1 that is incapable of releasing CO failed to promote both vasorelaxation and hypotension, thus directly implicating CO as the mediator of the observed pharmacological effects. Our results reveal that the bioactivities exerted by CORM-A1 reflect its intrinsic biochemical behavior of a slow CO releaser, which may be advantageous in the treatment of chronic conditions that require CO to be delivered in a carefully controlled manner.

Original languageEnglish
Pages (from-to)284-6
Number of pages3
JournalFASEB Journal
Issue number2
Publication statusPublished - Feb 2005


  • Animals
  • Aorta
  • Blood
  • Boranes
  • Carbon Monoxide
  • Carbonates
  • Carboxyhemoglobin
  • Humans
  • Hydrogen-Ion Concentration
  • Indazoles
  • Male
  • Organometallic Compounds
  • Pharmaceutical Preparations
  • Rats
  • Rats, Inbred Lew
  • Rats, Sprague-Dawley
  • Temperature
  • Vasodilator Agents
  • Journal Article
  • Research Support, Non-U.S. Gov't


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