Zn(2+) can enter mitochondria and promote a plethora of physiological and patho-physiological effects. The issue of measuring changes in intramitochondrial levels is therefore critical. Past studies have employed fluorescent Zn(2+) indicators, like Rhod-2 and RhodZin-3, however, the use of these probes is impaired by their extramitochondrial sequestration. In this study, we show that the ratiometric mitochondria-targeted pericam, RPmt, can be employed to detect changes of intramitochondrial free Zn(2+) ([Zn(2+)](m)) levels. Using RPmt in neuronal and non neuronal cell lines we demonstrate that mitochondria can take up the cation mobilized from the cytosolic pool of protein-bound Zn(2+) and that mitochondrial Zn(2+) sequestration is largely mediated by the activity of the Ca(2+) uniporter.
Ratiometric-pericam-mt, a novel tool to evaluate intramitochondrial zinc
CIAVARDELLI, DOMENICO;
2009-01-01
Abstract
Zn(2+) can enter mitochondria and promote a plethora of physiological and patho-physiological effects. The issue of measuring changes in intramitochondrial levels is therefore critical. Past studies have employed fluorescent Zn(2+) indicators, like Rhod-2 and RhodZin-3, however, the use of these probes is impaired by their extramitochondrial sequestration. In this study, we show that the ratiometric mitochondria-targeted pericam, RPmt, can be employed to detect changes of intramitochondrial free Zn(2+) ([Zn(2+)](m)) levels. Using RPmt in neuronal and non neuronal cell lines we demonstrate that mitochondria can take up the cation mobilized from the cytosolic pool of protein-bound Zn(2+) and that mitochondrial Zn(2+) sequestration is largely mediated by the activity of the Ca(2+) uniporter.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
