Ho M W, Beck-Sickinger A G, Colmers W F
Department of Pharmacology, University of Alberta, Edmonton, Alberta T6G 2H7, Canada.
J Neurophysiol. 2000 Feb;83(2):723-34. doi: 10.1152/jn.2000.83.2.723.
Neuropeptide Y (NPY) potently inhibits excitatory synaptic transmission in the hippocampus, acting predominantly via a presynaptic Y(2) receptor. Recent reports that the Y(5) receptor may mediate the anticonvulsant actions of NPY in vivo prompted us to test the hypothesis that Y(5) receptors inhibit synaptic excitation in the hippocampal slice and, furthermore, that they are effective in an in vitro model of anticonvulsant action. Two putative Y(5) receptor-preferring agonists inhibited excitatory postsynaptic currents (EPSCs) evoked by stimulation of stratum radiatum in pyramidal cells. We recorded initially from area CA1 pyramidal cells, but subsequently switched to cells from the subiculum, where a much greater frequency of response was observed to Y(5) agonist application. Both D-Trp(32)NPY (1 microM) and [ahx(8-20)]Pro(34)NPY (3 microM), a centrally truncated, Y(1)/Y(5) agonist we synthesized, inhibited stimulus-evoked EPSCs in subicular pyramidal cells by 44.0 +/- 5.7% and 51.3 +/- 3.5% (mean +/- SE), in 37 and 58% of cells, respectively. By contrast, the less selective centrally truncated agonist, [ahx(8-20)] NPY (1 microM), was more potent (66.4 +/- 4.1% inhibition) and more widely effective, suppressing the EPSC in 86% of subicular neurons. The site of action of all NPY agonists tested was most probably presynaptic, because agonist application caused no changes in postsynaptic membrane properties. The selective Y(1) antagonist, BIBP3226 (1 microM), did not reduce the effect of either more selective agonist, indicating that they activated presynaptic Y(5) receptors. Y(5) receptor-mediated synaptic inhibition was more frequently observed in slices from younger animals, whereas the nonselective agonist appeared equally effective at all ages tested. Because of the similarity with the previously reported actions of Y(2) receptors, we tested the ability of Y(5) receptor agonists to suppress stimulus train-induced bursting (STIB), an in vitro model of ictaform activity, in both area CA3 and the subiculum. Neither [ahx(8-20)]Pro(34)NPY nor D-Trp(32)NPY were significantly effective in suppressing or shortening STIB-induced afterdischarge, with <20% of slices responding to these agonists in recordings from CA3 and none in subiculum. By contrast, 1 microM each of [ahx(8-20)]NPY, the Y(2) agonist, [ahx(5-24)]NPY, and particularly NPY itself suppressed the afterdischarge in area CA3 and the subiculum, as reported earlier. We conclude that Y(5) receptors appear to regulate excitability to some degree in the subiculum of young rats, but their contribution is relatively small compared with those of Y(2) receptors, declines with age, and is insufficient to block or significantly attenuate STIB-induced afterdischarges.
神经肽Y(NPY)能有效抑制海马体中的兴奋性突触传递,主要通过突触前Y(2)受体发挥作用。最近有报道称Y(5)受体可能介导NPY在体内的抗惊厥作用,这促使我们检验以下假设:Y(5)受体抑制海马切片中的突触兴奋,此外,它们在抗惊厥作用的体外模型中有效。两种假定的Y(5)受体偏好性激动剂抑制了锥体细胞辐射层刺激诱发的兴奋性突触后电流(EPSCs)。我们最初记录的是CA1区锥体细胞,但随后转向了下托的细胞,在这些细胞中观察到对Y(5)激动剂应用的反应频率更高。我们合成的中央截短的Y(1)/Y(5)激动剂D-Trp(32)NPY(1微摩尔)和[ahx(8 - 20)]Pro(34)NPY(3微摩尔)分别在37%和58%的细胞中,将下托锥体细胞中刺激诱发的EPSCs抑制了44.0±5.7%和51.3±3.5%(平均值±标准误)。相比之下,选择性较低的中央截短激动剂[ahx(8 - 20)]NPY(1微摩尔)更有效(抑制率为66.4±4.1%)且效果更广泛,在86%的下托神经元中抑制了EPSC。所有测试的NPY激动剂的作用位点很可能是突触前的,因为激动剂应用并未引起突触后膜特性的变化。选择性Y(1)拮抗剂BIBP3226(1微摩尔)并未降低任何一种选择性更高的激动剂的作用,表明它们激活了突触前Y(5)受体。在幼龄动物切片中更频繁地观察到Y(5)受体介导的突触抑制,而在所有测试年龄中,非选择性激动剂似乎同样有效。由于与先前报道的Y(2)受体作用相似,我们测试了Y(5)受体激动剂在CA3区和下托抑制刺激串诱发的爆发(STIB,一种发作样活动的体外模型)的能力。[ahx(8 - 20)]Pro(34)NPY和D-Trp(32)NPY在抑制或缩短STIB诱发的后放电方面均无显著效果,在CA3区记录中<20%的切片对这些激动剂有反应,在下托记录中则无反应。相比之下,如先前报道,1微摩尔的[ahx(8 - 20)]NPY、Y(2)激动剂[ahx(5 - 24)]NPY,尤其是NPY本身抑制了CA3区和下托的后放电。我们得出结论,Y(5)受体似乎在幼龄大鼠下托中在一定程度上调节兴奋性,但与Y(2)受体相比,其作用相对较小,随年龄增长而下降,并且不足以阻断或显著减弱STIB诱发的后放电。
