Cook N S, Haylett D G
J Physiol. 1985 Jan;358:373-94. doi: 10.1113/jphysiol.1985.sp015556.
The bee venom peptide, apamin, has been radiolabelled with 125I, the monoiodinated derivative purified, and its binding to intact guinea-pig liver cells studied. At 37 degrees C 125I-monoiodoapamin associated with, and dissociated from, guinea-pig hepatocytes remarkably rapidly. The association and dissociation rate constants were 1.4 X 10(8) M-1 s-1 and 0.035 s-1 respectively. Equilibrium binding studies demonstrated a saturable binding component compatible with 1:1 binding to a single class of site and having an equilibrium dissociation constant (KL) of 390 pM. The maximal binding capacity was 1.1 fmol mg-1 dry wt. of tissue. Unlabelled apamin displaced bound 125I-monoiodoapamin with a KI of 380 pM, which is consistent with the concentration of apamin required to inhibit Ca2+-activated K+ permeability (PK(Ca) ) in these cells. Inhibitable binding of 125I-monoiodoapamin to rat hepatocytes was much less than to guinea-pig hepatocytes and could not be reliably quantified. Neither was there any discernible inhibitable binding to human erythrocytes. This is in keeping with the reported lack of apamin-sensitive Ca2+-activated K+ channels in these cell types. Various agents were tested for their ability to inhibit monoiodoapamin binding to, and Ca2+-mediated K+ efflux from, guinea-pig hepatocytes. All compounds tested which inhibited binding also blocked K+ efflux at similar concentrations. TEA and quinine affected hepatocytes only at high concentration (KI = 5.8 and 0.51 mM respectively). 9-aminoacridine, quinacrine and chloroquine were slightly more effective (KI = 70-180 microM). By far the most active compounds (apart from apamin) were the neuromuscular blocking agents; tubocurarine, pancuronium and atracurium (KI = 7.5, 6.8 and 4.5 microM respectively). Gallamine was slightly less effective (KI = 14 microM) and decamethonium and hexamethonium much less so (KI = 620 and 760 microM respectively). 3,4-diaminopyridine, alpha-bungarotoxin and tetrodotoxin were among several compounds which showed little or no affinity for apamin binding sites or inhibition of K+ efflux in guinea-pig hepatocytes. The saturable binding of 125I-monoiodoapamin to guinea-pig hepatocytes corresponds to about 1700 sites per cell. Assuming, tentatively, that binding sites correspond to channels the rate of K+ loss observed following agonist action can readily be explained if these channels have unitary conductances in the range reported for PK(Ca) in other tissues.
蜂毒肽——蜂毒明肽,已用125I进行放射性标记,纯化了单碘化衍生物,并研究了其与完整豚鼠肝细胞的结合情况。在37℃时,125I - 单碘蜂毒明肽与豚鼠肝细胞的结合和解离都非常迅速。结合速率常数和解离速率常数分别为1.4×10(8) M-1 s-1和0.035 s-1。平衡结合研究表明,存在一个可饱和的结合成分,符合与单一类位点的1:1结合,平衡解离常数(KL)为390 pM。最大结合容量为1.1 fmol mg-1组织干重。未标记的蜂毒明肽能以380 pM的抑制常数(KI)取代结合的125I - 单碘蜂毒明肽,这与抑制这些细胞中Ca2+激活的K+通透性(PK(Ca))所需的蜂毒明肽浓度一致。125I - 单碘蜂毒明肽与大鼠肝细胞的可抑制性结合远低于与豚鼠肝细胞的结合,且无法可靠定量。对人红细胞也没有可识别的可抑制性结合。这与报道的这些细胞类型中缺乏蜂毒明肽敏感的Ca2+激活的K+通道一致。测试了各种试剂抑制单碘蜂毒明肽与豚鼠肝细胞结合以及Ca2+介导的K+外流的能力。所有测试的能抑制结合的化合物在相似浓度下也能阻断K+外流。TEA和奎宁仅在高浓度时(分别为KI = 5.8和0.51 mM)影响肝细胞。9 - 氨基吖啶、喹吖因和氯喹的效果稍好一些(KI = 70 - 180 microM)。到目前为止,活性最高的化合物(除蜂毒明肽外)是神经肌肉阻滞剂;筒箭毒碱、泮库溴铵和阿曲库铵(分别为KI = 7.5、6.8和4.5 microM)。加拉明的效果稍差(KI = 14 microM),十烃季铵和六甲季铵的效果更差(分别为KI = 620和760 microM)。3,4 - 二氨基吡啶、α - 银环蛇毒素和河豚毒素等几种化合物对豚鼠肝细胞中的蜂毒明肽结合位点几乎没有或没有亲和力,也不抑制K+外流。125I - 单碘蜂毒明肽与豚鼠肝细胞的可饱和结合相当于每个细胞约1700个位点。初步假设结合位点对应于通道,如果这些通道的单位电导在其他组织中报道的PK(Ca)范围内,那么激动剂作用后观察到的K+流失速率很容易得到解释。
