Toxicology
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Because of the significant morbidity and lethality caused by alcoholic liver disease (ALD), there remains a need to elucidate the regulatory mechanisms that can be targeted to prevent and treat ALD. Toward this goal, minimally invasive biomarker discovery represents an outstanding approach for these purposes. The mechanisms underlying ALD include hepatic lipid accumulation. ⋯ Interestingly, urinary excretion of taurine was present in ethanol-fed wild-type mice but markedly lower in similarly treated Pparβ/δ-null mice. Evidence suggests that PPARβ/δ modulates pyridoxal kinase activity by altering Km, consistent with the observed decreased in urinary taurine excretion. These data collectively suggest that PPARβ/δ prevents ethanol-induced hepatic effects by inhibiting hepatic lipogenesis, modulation of amino acid metabolism, and altering pyridoxal kinase activity.
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Amyotrophic lateral sclerosis (ALS) is a neurodegenerative progressive currently untreatable disease, characterized by selective motor neuron degeneration; the incidence and prevalence of ALS are greater in men than in women. Although some important mechanisms that might contribute to the death of motor neurons have been identified, the mechanisms underlying disease pathophysiology are still uncertain. In particular, the mechanisms underlying the role of gender in ALS and whether treatments should take into account sexual dimorphism remain only partially understood. ⋯ The treatment effect was gender-dependent: amelioration was greater in male than in female. In conclusions, we suggest that not only pathogenetic mechanism of motor neuron toxicity but also the drug treatment effectiveness may depend on gender; sexual dimorphism should be considered when investigating on ALS treatment efficacy in the ALS animal model. Our findings also point on the potential relevance of P2X7 receptor antagonism for ALS treatment, and highlight the importance of adopting a sex-specific approach to searching for treatment of ALS.