Cusack B, Groshan K, McCormick D J, Pang Y P, Perry R, Phung C T, Souder T, Richelson E
Neuropsychopharmacology Research and Neurochemistry Research, Mayo Foundation for Medical Education and Research, Jacksonville, Florida 32224, USA.
J Biol Chem. 1996 Jun 21;271(25):15054-9.
Recently, we reported the development of a species-specific neurotensin analog that displays selective binding affinity at the rat and human neurotensin (NT) receptor, L-[3,2'-Nal11]NT(8-13) (where Nal is naphthylalanine) (NT19). We have developed another neurotensin analog, L-[3,1'-Nal11]NT(8-13), (NT34), that exhibits a 126-fold difference in binding affinities between the rat and human receptors. This compound differs from our previous reported species-specific ligand in the steric positioning of the naphthyl ring on the L-alanine side chain. For NT34, the observed Kd values at the rat and human neurotensin receptors were 0.046 and 5.8 nM, respectively. In stimulating phosphatidylinositol turnover, the observed EC50 values were 2.8 nM and 130 nM in rat and human, respectively. We constructed a series of chimeric rat/human neurotensin receptor genes and expressed them by transient transfection into human embryonic kidney (HEK-293) cells. Radioligand binding assays were then performed using neurotensin and NT34. Our results led us to propose a region of the neurotensin receptor that may be involved in determining species specificity, i. e. the transmembrane VI, the third extracellular loop, and transmembrane VII regions of the neurotensin receptor.
最近,我们报道了一种物种特异性神经降压素类似物的研发情况,该类似物对大鼠和人类神经降压素(NT)受体显示出选择性结合亲和力,即L-[3,2'-萘丙氨酸11]NT(8 - 13)(其中萘丙氨酸为萘基丙氨酸)(NT19)。我们又研发了另一种神经降压素类似物,L-[3,1'-萘丙氨酸11]NT(8 - 13)(NT34),它在大鼠和人类受体之间的结合亲和力上表现出126倍的差异。该化合物与我们之前报道的物种特异性配体的不同之处在于萘基环在L-丙氨酸侧链上的空间定位。对于NT34,在大鼠和人类神经降压素受体上观察到的Kd值分别为0.046和5.8 nM。在刺激磷脂酰肌醇周转方面,在大鼠和人类中观察到的EC50值分别为2.8 nM和130 nM。我们构建了一系列嵌合的大鼠/人类神经降压素受体基因,并通过瞬时转染将它们表达于人胚肾(HEK - 293)细胞中。然后使用神经降压素和NT34进行放射性配体结合试验。我们的结果使我们提出神经降压素受体的一个区域可能参与确定物种特异性,即神经降压素受体的跨膜VI、第三个细胞外环和跨膜VII区域。
