Literature DB >> 21134596

Dicarbonyl-bis(cysteamine)iron(II): a light induced carbon monoxide releasing molecule based on iron (CORM-S1).

Robert Kretschmer1, Guido Gessner, Helmar Görls, Stefan H Heinemann, Matthias Westerhausen.   

Abstract

Carbon monoxide releasing molecules (CORMs) deliver controlled amounts of CO to biological targets and organs. The reaction of cysteamine with triirondodecacarbonyl yields dicarbonyl bis(aminoethylthiolato)iron(II) that represents an iron-based CORM with biogenic ligands. X-ray diffraction studies at a single crystal show a cis-arrangement of the carbonyl ligands in trans-position to the amino groups with average Fe-C and C-O distances of 176.8 and 114.8 pm. The CO release is mediated by irradiation with visible light (λ>400 nm). Physiological tests using ion channels sensitive to CO revealed the light- and time-dependent decomposition of CORM-S1 without obvious adverse effects on the cellular level. CORM-S1 is thus suitable for selective CO release and possesses a high potential for therapeutic application.
Copyright © 2010 Elsevier Inc. All rights reserved.

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Year:  2010        PMID: 21134596     DOI: 10.1016/j.jinorgbio.2010.10.006

Source DB:  PubMed          Journal:  J Inorg Biochem        ISSN: 0162-0134            Impact factor:   4.155


  15 in total

Review 1.  Carbon monoxide: an emerging regulator of ion channels.

Authors:  William J Wilkinson; Paul J Kemp
Journal:  J Physiol       Date:  2011-04-26       Impact factor: 5.182

2.  Fe2+-Mediated Activation of BKCa Channels by Rapid Photolysis of CORM-S1 Releasing CO and Fe2.

Authors:  Guido Gessner; Philipp Rühl; Matthias Westerhausen; Toshinori Hoshi; Stefan H Heinemann
Journal:  ACS Chem Biol       Date:  2020-07-29       Impact factor: 5.100

3.  Visible-to-NIR-Light Activated Release: From Small Molecules to Nanomaterials.

Authors:  Roy Weinstain; Tomáš Slanina; Dnyaneshwar Kand; Petr Klán
Journal:  Chem Rev       Date:  2020-10-30       Impact factor: 60.622

4.  Photoactivated in Vitro Anticancer Activity of Rhenium(I) Tricarbonyl Complexes Bearing Water-Soluble Phosphines.

Authors:  Sierra C Marker; Samantha N MacMillan; Warren R Zipfel; Zhi Li; Peter C Ford; Justin J Wilson
Journal:  Inorg Chem       Date:  2018-01-11       Impact factor: 5.165

5.  A Peptide-Based Material for Therapeutic Carbon Monoxide Delivery.

Authors:  John B Matson; Matthew J Webber; Vibha K Tamboli; Benjamin Weber; Samuel I Stupp
Journal:  Soft Matter       Date:  2012-05-24       Impact factor: 3.679

Review 6.  Targeting heme oxygenase-1 and carbon monoxide for therapeutic modulation of inflammation.

Authors:  Stefan W Ryter; Augustine M K Choi
Journal:  Transl Res       Date:  2015-06-23       Impact factor: 7.012

Review 7.  Carbon monoxide--physiology, detection and controlled release.

Authors:  Stefan H Heinemann; Toshinori Hoshi; Matthias Westerhausen; Alexander Schiller
Journal:  Chem Commun (Camb)       Date:  2014-04-11       Impact factor: 6.222

Review 8.  Carbon monoxide in lung cell physiology and disease.

Authors:  Stefan W Ryter; Kevin C Ma; Augustine M K Choi
Journal:  Am J Physiol Cell Physiol       Date:  2017-11-08       Impact factor: 4.249

9.  CO-independent modification of K+ channels by tricarbonyldichlororuthenium(II) dimer (CORM-2).

Authors:  Guido Gessner; Nirakar Sahoo; Sandip M Swain; Gianna Hirth; Roland Schönherr; Ralf Mede; Matthias Westerhausen; Hans Henning Brewitz; Pascal Heimer; Diana Imhof; Toshinori Hoshi; Stefan H Heinemann
Journal:  Eur J Pharmacol       Date:  2017-10-05       Impact factor: 4.432

10.  Toxicity of tryptophan manganese(i) carbonyl (Trypto-CORM), against Neisseria gonorrhoeae.

Authors:  Jonathan S Ward; Rebecca Morgan; Jason M Lynam; Ian J S Fairlamb; James W B Moir
Journal:  Medchemcomm       Date:  2016-12-06       Impact factor: 3.597
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