Difference between revisions of "Nigericin"

|description= Nigericin is a H+/K+ antiporter, which allows the electroneutral transport of these two ions in opposite directions across the mitochondrial inner membrane following the K+ concentration gradient. In the presence of K+, nigericin decreases pH in the mitchondrial matrix, thus, almost fully collapses the transmembrane pH gradient, which leads to the compensatory increase of [[Mitochondrial membrane potential|mt-membrane potential]]. Therefore, it is ideal to use to dissect the two components of the [[Protonmotive force|protonmotive force]], delta pH and [[Mitochondrial membrane potential|mt-membrane potential]]. It is recommended to use the lowest possible concentration of nigericin, which creates a maximal mitochondrial hyperpolarization. In the study of [[Komlodi 2018 J Bioenerg Biomembr]], 20 nM was applied on brain mitochondria isolated from guinea-pigs using 5 mM [[Succinate|succinate]] in the [[LEAK respiration|LEAK state]] which caused maximum hyperpolarisation, but did not fully dissipate transmembrane pH gradient. Selivanov and his co-workers [https://www.ncbi.nlm.nih.gov/pubmed/18687689] and Lambert [https://www.ncbi.nlm.nih.gov/pubmed/15175007], however, used 100 nM nigericin, which in their hands fully collapsed transmembrane pH gradient using succinate as a respiratory substrate on isolated rat brain and skeletal muscle in the [[LEAK respiration|LEAK state]].