Dipartimento di Scienze Farmaceutiche - Sezione di Chimica Farmaceutica "Pietro Pratesi", Università degli Studi di Milano, Via L. Mangiagalli 25, 20133 Milano, Italy.
Dipartimento di Medicina Molecolare e Traslazionale - Sezione di Farmacologia, Università degli Studi di Brescia, Viale Europa 11, 25123 Brescia, Italy.
Biochem Pharmacol. 2019 May;163:154-168. doi: 10.1016/j.bcp.2019.02.019. Epub 2019 Feb 14.
In this paper, we designed, synthesized and tested a small set of three new derivatives potentially targeting the D3R-nAChR heteromer, a receptor complex recently identified and characterized as the molecular entity that, in dopaminergic neurons, mediates the neurotrophic effects of nicotine. By means of a partially rigidified spacer of variable length, we incorporated in the new compounds (1a-c) the pharmacophoric substructure of a known β2-subunit-containing nAChR agonist (A-84543) and that of the D2/D3R agonist drug ropinirole. All the compounds retained the ability to bind with high affinity both β2-subunit-containing nAChR and D3R. Compound 1a, renamed HyNDA-1, which is characterized by the shortest linker moiety, was the most interesting ligand. We found, in fact, that HyNDA-1 significantly modulated structural plasticity on both mice and human dopaminergic neurons, an effect strongly prevented by co-incubating this ligand with either nAChR or D3R antagonists. Moreover, the neurotrophic effects of HyNDA-1 were specifically lost by disrupting the complex with specific interfering peptides. Interestingly, by using the Bioluminescence Resonance Energy Transfer 2 (BRET) assay in HEK-293 transfected cells, we also found that HyNDA-1 has the ability to increase the affinity of interaction between nAChR and D3R. Overall, our results indicate that the neurotrophic effects of HyNDA-1 are mediated by activation of the D3R-nAChR heteromeric complex specifically expressed on dopaminergic neurons.
在本文中,我们设计、合成并测试了一小组三种新的潜在靶向 D3R-nAChR 异源三聚体的衍生物,该受体复合物最近被鉴定和表征为介导尼古丁的神经营养作用的分子实体,存在于多巴胺能神经元中。通过使用可变长度的部分刚性间隔基,我们将已知的β2 亚基包含 nAChR 激动剂(A-84543)和 D2/D3R 激动剂药物罗匹尼罗的药效团亚结构引入到新化合物(1a-c)中。所有化合物均保留了与β2 亚基包含 nAChR 和 D3R 高亲和力结合的能力。化合物 1a,重新命名为 HyNDA-1,其特征是最短的连接子部分,是最有趣的配体。事实上,我们发现 HyNDA-1 可显著调节小鼠和人多巴胺能神经元的结构可塑性,这种作用可通过与 nAChR 或 D3R 拮抗剂共孵育强烈阻止。此外,通过使用特异性干扰肽破坏复合物,HyNDA-1 的神经营养作用特异性丧失。有趣的是,通过在转染 HEK-293 细胞的 Bioluminescence Resonance Energy Transfer 2(BRET)测定中,我们还发现 HyNDA-1 具有增加 nAChR 和 D3R 之间相互作用亲和力的能力。总体而言,我们的结果表明,HyNDA-1 的神经营养作用是通过激活多巴胺能神经元上特异性表达的 D3R-nAChR 异源三聚体复合物来介导的。
