Abstract
Therapy with inhaled carbon monoxide (CO) is being tested in human clinical trials, yet the alternative use of prodrugs, CO-Releasing Molecules (CORMs), is conceptually advantageous. These molecules are designed to release carbon monoxide in specific tissues, in response to some locally expressed stimulus, where CO can trigger a cytoprotective response. The design of such prodrugs, mostly metal carbonyl complexes, must consider their ADMET profiles, including their interaction with transport plasma proteins. However, the molecular details of this interaction remain elusive. To shed light into this matter, we focused on the CORM prototype [Mo(η5-Cp)(CH2COOH)(CO)3] (ALF414) and performed a detailed molecular characterization of its interaction with bovine serum albumin (BSA), using spectroscopic and computational methods. The experimental results show that ALF414 partially quenches the intrinsic fluorescence of BSA without changing its secondary structure. The interaction between BSA and ALF414 follows a dynamic quenching mechanism, indicating that no stable complex is formed between the protein Trp residues and ALF414. The molecular dynamics simulations are in good agreement with the experimental results and confirm the dynamic and unspecific character of the interaction between ALF414 and BSA. The simulations also provide important insights into the nature of the interactions of this CORM prototype with BSA, which are dominated by hydrophobic contacts, with a contribution from hydrogen bonding. This kind of information is useful for future CORM design.
Highlights
The cytoprotective activity of induced heme oxygenase (HO-1) is a well-recognized property of this enzyme, which is induced to destroy toxic, free heme, liberated from injured or dead cells, thereby producing Fe2+ ions, bilirubin and free carbon monoxide (CO)[1]
It is stable to serum, as no CO is released after 6 h when the compound is incubated with pure Fetal Bovine Serum (FBS), which has bovine serum albumin (BSA) as its main component
The interaction of BSA with the CO-Releasing Molecules (CORMs) prototype ALF414, which belongs to the family of the so-called 4-legged piano stool complexes, was analyzed for the first time using a combination of spectroscopic and molecular simulation methods
Summary
The cytoprotective activity of induced heme oxygenase (HO-1) is a well-recognized property of this enzyme, which is induced to destroy toxic, free heme, liberated from injured or dead cells, thereby producing Fe2+ ions, bilirubin and free carbon monoxide (CO)[1]. If they are too strong, the CORM may fail to exchange SA for the target disease tissue or may fail to react with the chemical or enzymatic triggers required for CO release [23,24]. We report spectroscopic (fluorescence spectroscopy and circular dichroism) and computational approaches to characterize the interactions of ALF414 with bovine serum albumin (BSA), which was chosen due to its low cost, availability and its 76% sequence homology with HSA
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