Department of Pharmacology and Physiology, Oklahoma State University College of Osteopathic Medicine, Tahlequah, OK, USA.
Behavioral Analysis Platform SCAC, Institute for Research and Innovation in Biomedicine (IRIB), University of Rouen Normandy, Rouen, France.
Prog Neuropsychopharmacol Biol Psychiatry. 2020 Jul 13;101:109930. doi: 10.1016/j.pnpbp.2020.109930. Epub 2020 Mar 16.
To determine whether (+)-catharanthine induces sedative- or anxiolytic/anxiogenic-like activity in male mice, proper animal paradigms were used. The results showed that (+)-catharanthine induces sedative-like activity in the 63-72 mg/Kg dose range in a flumazenil-insensitive manner, but neither this effect nor anxiolytic/anxiogenic-like activity was observed at lower doses. To determine the underlying molecular mechanism of the sedative-like activity, electrophysiological and radioligand binding experiments were performed with (+)-catharanthine and (±)-18-methoxycoronaridine [(±)-18-MC] on GABA (GABARs) and glycine receptors (GlyRs). Coronaridine congeners both activated and potentiated a variety of human (h) GABARs, except hρ1. (+)-Catharanthine-induced potentiation followed this receptor selectivity (EC's in μM): hα1β2 (4.6 ± 0.8) > hα2β2γ2 (12.6 ± 3.8) ~ hα1β2γ2 (14.4 ± 4.6) indicating that both α1 and α2 are equally important, whereas γ2 is not necessary. (+)-Catharanthine was >2-fold more potent and efficient than (±)-18-MC at hα1β2γ2. (+)-Catharanthine also potentiated, whereas (±)-18-MC inhibited, hα1 GlyRs with very low potency. Additional [H]-flunitrazepam competition binding experiments using rat cerebellum membranes clearly demonstrated that these ligands do not bind to the benzodiazepine site. This is supported by the observed activity at hα1β2 (lacking the BDZ site) and similar effects between α1- and α2-containing GABARs. Our study shows, for the first time, that (+)-catharanthine induced sedative-like effects in mice, and coronaridine congeners potentiated human α1β2γ2, α1β2, and hα2β2γ2, but not ρ1, GABARs, both in a benzodiazepine-insensitive fashion, whereas only (+)-catharanthine slightly potentiated GlyRs.
为了确定(+)-石蒜堿是否在雄性小鼠中诱导镇静或焦虑/焦虑样活性,使用了适当的动物模型。结果表明,(+)-石蒜堿在 63-72mg/kg 剂量范围内以氟马西尼不敏感的方式诱导镇静样活性,但在较低剂量下既没有这种作用也没有观察到焦虑/焦虑样活性。为了确定镇静样活性的潜在分子机制,用(+)-石蒜堿和(±)-18-甲氧基冠堿[(±)-18-MC]对 GABA(GABARs)和甘氨酸受体(GlyRs)进行了电生理和放射性配体结合实验。冠堿类似物均可激活和增强多种人类(h)GABARs,除了 hρ1。(+)-石蒜堿诱导的增强作用遵循这种受体选择性(以 μM 表示的 EC50):hα1β2(4.6±0.8)>hα2β2γ2(12.6±3.8)~hα1β2γ2(14.4±4.6),表明α1 和 α2 同样重要,而 γ2 则不重要。(+)-石蒜堿在 hα1β2γ2 上的效力和效率比(±)-18-MC 高 2 倍以上。(+)-石蒜堿还增强了 hα1 GlyRs 的活性,而(±)-18-MC 则以非常低的效力抑制了 hα1 GlyRs 的活性。使用大鼠小脑膜进行的额外 [H]-氟硝西泮竞争结合实验清楚地表明,这些配体不与苯二氮䓬结合位点结合。这一点得到了在 hα1β2(缺乏 BDZ 位点)中观察到的活性以及在 α1-和 α2-包含的 GABARs 之间的相似作用的支持。我们的研究首次表明,(+)-石蒜堿在小鼠中诱导镇静样作用,而冠堿类似物以苯二氮䓬不敏感的方式增强了人类 α1β2γ2、α1β2 和 hα2β2γ2,但不增强 ρ1,同时,(+)-石蒜堿仅略微增强 GlyRs。
