AI Article Synopsis
- Nitroalkene fatty acid derivatives are reactive, can be measured clinically, and promote anti-inflammatory responses.
- The study introduces a new trans-nitroalkylation reaction technique that helps accurately identify and quantify how these derivatives interact with other molecules, particularly proteins.
- This method enhances sensitivity and specificity in detecting fatty acid interactions in biological systems, proving particularly useful for analyzing their behavior during inflammatory conditions related to heart issues.
Article Abstract
Nitroalkene fatty acid derivatives manifest a strong electrophilic nature, are clinically detectable, and induce multiple transcriptionally regulated anti-inflammatory responses. At present, the characterization and quantification of endogenous electrophilic lipids are compromised by their Michael addition with protein and small-molecule nucleophilic targets. Herein, we report a trans-nitroalkylation reaction of nitro-fatty acids with beta-mercaptoethanol (BME) and apply this reaction to the unbiased identification and quantification of reaction with nucleophilic targets. Trans-nitroalkylation yields are maximal at pH 7 to 8 and occur with physiological concentrations of target nucleophiles. This reaction is also amenable to sensitive mass spectrometry-based quantification of electrophilic fatty acid-protein adducts upon electrophoretic resolution of proteins. In-gel trans-nitroalkylation reactions also permit the identification of protein targets without the bias and lack of sensitivity of current proteomic approaches. Using this approach, it was observed that fatty acid nitroalkenes are rapidly metabolized in vivo by a nitroalkene reductase activity and mitochondrial beta-oxidation, yielding a variety of electrophilic and nonelectrophilic products that could be structurally characterized upon BME-based trans-nitroalkylation reaction. This strategy was applied to the detection and quantification of fatty acid nitration in mitochondria in response to oxidative inflammatory conditions induced by myocardial ischemia-reoxygenation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3144282 | PMC |
| http://dx.doi.org/10.1016/j.freeradbiomed.2008.12.025 | DOI Listing |
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