Jehad Hammad scite author profile

1 Carbon monoxide (CO), one of the end products of heme catabolism by heme oxygenase, possesses antihypertensive and vasodilatory characteristics. We have recently discovered that certain transition metal carbonyls are capable of releasing CO in biological fluids and modulate physiological functions via the delivery of CO. Because the initial compounds identified were not water soluble, we have synthesized new CO-releasing molecules that are chemically modified to allow solubility in water. The aim of this study was to assess the vasoactive properties of tricarbonylchloro(glycinato)ruthenium(II) (CORM-3) in vitro and in vivo. 2 CORM-3 produced a concentration-dependent relaxation in vessels precontracted with phenylephrine, exerting significant vasodilatation starting at concentrations of 25-50 mM. Inactive CORM-3, which does not release CO, did not affect vascular tone. 3 Blockers of ATP-dependent potassium channels (glibenclamide) or guanylate cyclase activity (ODQ) considerably reduced CORM-3-dependent relaxation, confirming that potassium channels activation and cGMP partly mediate the vasoactive properties of CO. In fact, increased levels of cGMP were detected in aortas following CORM-3 stimulation. 4 The in vitro and in vivo vasorelaxant activities of CORM-3 were further enhanced in the presence of YC-1, a benzylindazole derivative which is known to sensitize guanylate cyclase to activation by CO. Interestingly, inhibiting nitric oxide production or removing the endothelium significantly decreased vasodilatation by CORM-3, suggesting that factors produced by the endothelium influence CORM-3 vascular activities. 5 These results, together with our previous findings on the cardioprotective functions of CORM-3, indicate that this molecule is an excellent prototype of water-soluble CO carriers for studying the pharmacological and biological features of CO.

show abstract

Bioactive Properties of Iron-Containing Carbon Monoxide-Releasing Molecules

Sawle

Hammad²,

Fairlamb³

et al. 2006

J Pharmacol Exp Ther

View full text Add to dashboard Cite

Carbon monoxide-releasing molecules (CO-RMs) are compounds capable of delivering controlled amounts of CO within a cellular environment. Ruthenium-based carbonyls [tricarbonyldichloro ruthenium(II) dimer and tricarbonylchloro-(glycinato)ruthenium(II)] and boronacorbonates (sodium boranocarbonate) have been shown to promote vasodilatory, cardioprotective, and anti-inflammatory activities in a variety of experimental models. Here, we extend our previous studies by showing that -4-(4-bromo-6-methyl-2-pyrone)tricarbonyl iron (0) (CORM-F3), an irontricarbonyl complex that contains a 2-pyrone motif, liberates CO in vitro and exerts pharmacological actions that are typical of CO gas. Specifically, CORM-F3 caused vasorelaxation in isolated aortic rings and inhibited the inflammatory response (e.g., nitrite production) of RAW264.7 macrophages stimulated with endotoxin in a dose-dependent fashion. By analyzing the rate of CO release, we found that when the bromide at the 4-position of the 2-pyrone CORM-F3 is substituted with a chloride group [-4-(4-chloro-6-methyl-2-pyrone)tricarbonyl iron (0) (CORM-F8)], the rate of CO release is significantly decreased (4.5-fold), and a further decrease is observed when the 4-and 6-positions are substituted with a methyl group [-4-(4-methyl-6-methyl-2-pyrone)tricarbonyl iron (0) (CORM-F11)] or a hydrogen [-4-(4-chloro-2-pyrone)tricarbonyl iron (0) (CORM-F7)], respectively. Interestingly, the compounds containing halogens at the 4-position and the methyl at the 6-position of the 2-pyrone ring (CORM-F3 and CORM-F8) were found to be less cytotoxic compared with other CO-RMs when tested in RAW246.7 macrophages. Thus, iron-based carbonyls mediate pharmacological responses that are achieved through liberation of CO and the nature of the substituents in the organic ligand have a profound effect on both the rate of CO release and cytotoxicity.

show abstract

η⁴‐Pyrone Iron(0)carbonyl Complexes as Effective CO‐Releasing Molecules (CO‐RMs).

et al. 2006

View full text Add to dashboard Cite

2006Medicinal chemistry V 1100 η 4 -Pyrone Iron(0)carbonyl Complexes as Effective CO-Releasing Molecules (CO-RMs). -In order to rationalize the CO-releasing activity of some pyrone Fe(0)carbonyl complexes, the new products (I) are synthesized. Their intrinsic stability seems to influence the extent and rate of CO release, a feature which is affected by the presence of a halogen substituent on the pyrone ring. The cell viability index demonstrates that active carbon monoxide-releasing molecules such as (Ib) and (Ic) are promising compounds with potential therapeutic applications. -(FAIRLAMB*, I. J. S.; DUHME-KLAIR, A.-K.; LYNAM, J. M.; MOULTON, B. E.; O'BRIEN, C. T.; SAWLE, P.; HAMMAD, J.; MOTTERLINI, R.; Bioorg. Med. Chem. Lett. 16 (2006) 4, 995-998; Dep. Chem., Univ. York, Heslington, York YO10 5DD, UK; Eng.) -H. Hoennerscheid

show abstract

Vasorelaxing effects and inhibition of nitric oxide in macrophages by new iron-containing carbon monoxide-releasing molecules (CO-RMs)

Motterlini

Sawle

Hammad

et al. 2013

Pharmacological Research

View full text Add to dashboard Cite

Carbon monoxide-releasing molecules (CO-RMs) are a class of organometallo carbonyl complexes capable of delivering controlled quantities of CO gas to cells and tissues thus exerting a broad spectrum of pharmacological effects. Here we report on the chemical synthesis, CO releasing properties, cytotoxicity profile and pharmacological activities of four novel structurally related iron-allyl carbonyls. The major difference among the new CO-RMs tested was that three compounds (CORM-307, CORM-308 and CORM-314) were soluble in dimethylsulfoxide (DMSO), whereas a fourth one (CORM-319) was rendered water-soluble by reacting the iron-carbonyl with hydrogen tetrafluoroborate. We found that despite the fact all compounds liberated CO, CO-RMs soluble in DMSO caused a more pronounced toxic effect both in vascular and inflammatory cells as well as in isolated vessels. More specifically, iron carbonyls soluble in DMSO released CO with a fast kinetic and displayed a marked cytotoxic effect in smooth muscle cells and RAW 247.6 macrophages despite exerting a rapid and pronounced vasorelaxation ex vivo. In contrast, CORM-319 that is soluble in water and liberated CO with a slower rate, preserved smooth muscle cell viability, relaxed aortic tissue and exerted a significant anti-inflammatory effect in macrophages challenged with endotoxin. These data suggest that iron carbonyls can be used as scaffolds for the design and synthesis of pharmacologically active CO-RMs and indicate that increasing water solubility and controlling the rate of CO release are important parameters for limiting their potential toxic effects.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Jehad Hammad

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

Vasoactive properties of CORM‐3, a novel water‐soluble carbon monoxide‐releasing molecule

Bioactive Properties of Iron-Containing Carbon Monoxide-Releasing Molecules

η⁴‐Pyrone Iron(0)carbonyl Complexes as Effective CO‐Releasing Molecules (CO‐RMs).

Vasorelaxing effects and inhibition of nitric oxide in macrophages by new iron-containing carbon monoxide-releasing molecules (CO-RMs)

Contact Info

Product

Resources

About

Jehad Hammad

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

Vasoactive properties of CORM‐3, a novel water‐soluble carbon monoxide‐releasing molecule

Bioactive Properties of Iron-Containing Carbon Monoxide-Releasing Molecules

η4‐Pyrone Iron(0)carbonyl Complexes as Effective CO‐Releasing Molecules (CO‐RMs).

Vasorelaxing effects and inhibition of nitric oxide in macrophages by new iron-containing carbon monoxide-releasing molecules (CO-RMs)

Contact Info

Product

Resources

About

η⁴‐Pyrone Iron(0)carbonyl Complexes as Effective CO‐Releasing Molecules (CO‐RMs).