Department of General Physiology of Nervous System, Bogomoletz Institute of Physiology, Bogomoletz st. 4, Kiev, Ukraine.
Pharmacol Rep. 2011;63(3):840-4. doi: 10.1016/s1734-1140(11)70597-7.
Negatively charged sialic acid residues located close to pores of voltage-gated sodium channels substantially influence their gating properties. The in vitro low Mg²⁺ seizure model is used to emulate difficult-to-treat status epilepticus. Using this model on cultured hippocampal slices, we examined the effectiveness of desialylation in reducing persistent seizure-like activity. We show that desialylation in cultured hippocampal slices effectively suppresses seizure-like activity induced by low Mg²⁺. These findings suggest that targeting negatively charged sialic acids may be an effective strategy to treat status epilepticus.
带负电荷的唾液酸残基位于电压门控钠离子通道的孔附近,对其门控特性有很大影响。体外低镁²⁺惊厥模型用于模拟治疗困难的癫痫持续状态。我们使用该模型在培养的海马切片上检查了脱唾液酸化在减少持续性惊厥样活动中的效果。我们发现,培养的海马切片中的脱唾液酸化可有效抑制低镁²⁺诱导的惊厥样活动。这些发现表明,靶向带负电荷的唾液酸可能是治疗癫痫持续状态的有效策略。