Acetyl-L-Carnitine selectively prevents post-ischemic LTP via a possible action on mitochondrial energy metabolism

It has been hypothesized that Acetyl-L-Carnitine (ALC) contributes to mitochondrial ATP production through maintenance of key mitochondrial proteins and protects mitochondria against oxidative stress. We have investigated the role of ALC on the expression of two forms of synaptic plasticity in the striatum: (i) the physiological long-term potentiation (LTP) and (ii) the ischemic long-term potentiation (i-LTP), an aberrant form of synaptic plasticity occurring after in vitro ischemia. The application in vitro of ALC did not alter the induction or the maintenance of physiological activity-dependent UP, while it prevented i-LTP in a dose-dependent manner. The ability of ALC to prevent i-LTP was not affected by previous application of scopolamine, a non-selective muscarinic receptors antagonist. Given the susceptibility of mitochondrial complex IV to ischemic oxidative insult, we investigated the role of this complex as possible target of ALC action. Thus, the application of a low dose of the mitochondrial toxin sodium azide, conventionally used as a model of hypoxia due to its capability to inhibit mitochondrial complex IV, induced a pathological synaptic potentiation that was fully prevented by ALC application. In the presence of a very low dose of the mitochondrial uncoupler FCCP, ALC no longer prevented i-LTP suggesting that neuroprotective effects of ALC require a compensatory activity of mitochondrial energy metabolism. Our data demonstrate that ALC exerts neuroprotective effects by preventing the expression of pathological synaptic plasticity induced by ischemia. These effects crucially depend on the ability on ALC to affect mitochondrial processes. (C) 2008 Elsevier Ltd. All rights reserved.