AI Article Synopsis
- Many metabolites with two carboxylic acid groups can't easily enter cells, so researchers are exploring ways to enhance their uptake, especially into mitochondria.
- The study introduces a method using triphenylphosphonium (TPP) to attach dicarboxylates via a single ester bond, allowing these molecules to be selectively released inside mitochondria through the action of intramitochondrial enzymes.
- A specific compound, TPP-malonate, was identified as the most effective at delivering malonate into mitochondria, allowing for the selective release of bioactive dicarboxylates where they are needed.
Article Abstract
Many mitochondrial metabolites and bioactive molecules contain two carboxylic acid moieties that make them unable to cross biological membranes. Hence, there is considerable interest in facilitating the uptake of these molecules into cells and mitochondria to modify or report on their function. Conjugation to the triphenylphosphonium (TPP) lipophilic cation is widely used to deliver molecules selectively to mitochondria in response to the membrane potential. However, permanent attachment to the cation can disrupt the biological function of small dicarboxylates. Here, we have developed a strategy using TPP to release dicarboxylates selectively within mitochondria. For this, the dicarboxylate is attached to a TPP compound via a single ester bond, which is then cleaved by intramitochondrial esterase activity, releasing the dicarboxylate within the organelle. Leaving the second carboxylic acid free also means mitochondrial uptake is dependent on the pH gradient across the inner membrane. To assess this strategy, we synthesized a range of TPP monoesters of the model dicarboxylate, malonate. We then tested their mitochondrial accumulation and ability to deliver malonate to isolated mitochondria and to cells, and . A TPP-malonate monoester compound, TPP-malonate, in which the dicarboxylate group was attached to the TPP compound via a hydrophobic undecyl link, was most effective at releasing malonate within mitochondria in cells and . Therefore, we have developed a TPP-monoester platform that enables the selective release of bioactive dicarboxylates within mitochondria.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7482397 | PMC |
| http://dx.doi.org/10.1021/acs.molpharmaceut.0c00533 | DOI Listing |
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Article Synopsis
- Obesity is a big health problem around the world, and scientists are looking for ways to help fix it quickly.
- A special part of cells called mitochondria helps with energy use and has been studied for its role in changing white fat into brown fat, which is better for burning energy.
- Researchers found that a protein called NDUFA8 helps make mitochondria work better and encourages the transformation of white fat to brown fat, which could help treat obesity in animals.
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