Histopathologic and biochemical studies also revealed that VPA evokes hepatic necrosis, apoptosis, and oxidative CHIR98014 mouse stress [9, 10]. However, VPA toxicity that can lead to death has also been reported. The basis of such paradoxical subacute and idiosyncratic VPA toxicity has remained largely enigmatic [11]. At the molecular
level, multiple lines of evidence suggest that hepatic accumulation of 4-en-VPA and its β-oxidation products triggers a cascade of reactions that culminates in hepatic injury. Some such reactions involve lipid peroxidation and glutathione (GSH) depletion [12, 13]. Conceivably, therefore, a big need arises to seek avenues that could either alleviate VPA-induced hepatic injury or reduce its dose down to a safer level, thus possibly improving its overall see more therapeutic index. Thus far, diverse concepts have been adopted, which focused merely on lessening oxidative stress or disrupted mitochondrial fatty-acyl β-oxidation [14, 15]. Conversely, no attempts have been made to boost the pharmacologic efficacy of VPA so as to reduce its toxicity, while also augmenting its therapeutic efficacy. Docosahexaenoic acid (DHA) is a cold-water-fish-oil-derived omega-3 FA that has demonstrated numerous health benefits against malignant, inflammatory, proliferative, and selleck compound vascular diseases [16]. Furthermore, we recently demonstrated that DHA can reverse a vicious, fatal, cisplatin-induced nephrotoxicity in rats
by ablating oxidative stress and suppressing cytokine-mediated inflammation [17]. As far as central effects are concerned; DHA was effectively used to treat neuronal hyperexcitability
models in animals and some neurological disorders in humans [18, 19]. Therefore, we currently envisaged that such responses, along with established hypolipidemic effects elicited mostly at the liver level [20], could make DHA supplementation a superb candidate to blunt toxicity and confer therapeutic synergy with VPA. Accordingly, this study was marshaled to investigate whether, and how, DHA may abate VPA-induced liver toxicity. To accomplish this, we monitored levels of hepatocellular oxidative stress, inflammatory cytokines, and markers for hepatic integrity/function and for neutrophil infiltration. We further substantiated these results with histopathologic O-methylated flavonoid investigation to figure out relevant hepatic subcellular changes. On the other hand, the possibility of pharmacologic synergy with VPA was explored in a pentylenetetrazole (PTZ) mouse convulsion model. Lastly, to verify any role for DHA via kinetic interaction (clearance of VPA), we measured plasma concentrations of VPA in the presence and absence of DHA. 2 Materials 2.1 Drugs and Chemicals Sodium valproate, a white pure powder, was a gift from Sanofi-synthelabo, Cairo, Egypt, and was dissolved in distilled water. DHA was purchased from Healthspan Co., UK, as capsules; each provides 100 mg of pure DHA.