Abstract
Curare, a selective skeletal muscle relaxant, has been used clinically to reduce shivering and as an anesthetic auxiliary in abdominal surgery. It is also widely used in animal experiments to block neuromuscular junction activity. Effective doses of curare diminish muscle contraction without affecting brain function, but at higher doses it is known to be lethal. However, the exact dose of curare initiating muscle relaxation vs. lethal effect has not been fully characterized in mice. In this study we carefully examined the dose-response for achieving muscle inactivity over lethality in both male and female mice (C57BL6/J). The most striking finding of this study is that female mice were highly susceptible to curare; both the ED₅₀ and LD₅₀ were at least 3-fold lower than male littermates. This study shows that gender-specific differences can be an important factor when administering skeletal muscle relaxants, particularly curare or other analogous agents targeted to the neuromuscular junction.
Highlights
Curare has long been used by the Indians of South America as an arrow poison for hunting wild game (Bisset, 1992)
In this study we examined the dose-dependent effects of curare on both male and female mice littermates by monitoring physical activity, core body temperature (Tc), whole animal oxygen consumption, circadian rhythm and feeding behavior
We were interested in studying the role of muscle shivering over non-shivering thermogenic (NST) mechanisms contributing to heat production and Tc maintenance (Bal et al, 2012)
Summary
Curare has long been used by the Indians of South America as an arrow poison for hunting wild game (Bisset, 1992). High doses of curare are lethal, low doses are well tolerated and the effect is completely reversible (Clement, 1978). It is not known if curare has a gender-specific effect on physical activity and whole body metabolic rate. In this study we examined the dose-dependent effects of curare on both male and female mice littermates by monitoring physical activity, core body temperature (Tc), whole animal oxygen consumption, circadian rhythm and feeding behavior
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