Fremberg M, Meurling P
Cell Tissue Res. 1975;157(1):53-72. doi: 10.1007/BF00223230.
In the neuro-intermediate lobe (NIL) of the eel, Anguilla anguilla, a specific formaldehyde-induced fluorescence, indicating a catecholamine (CA) innervation, has been demonstrated in the neural lobe processes. Microspectrofluorimetric analyses and pharmacological treatments indicate noradrenaline or dopamine or both to be responsible for the fluorescence. The fluorescence in the NIL has displayed a definite tendency toward variation during the adaptation to a white and to a black background. The highest amounts of fluorescence were generally found in animals adapted to a black background, especially when adapted for a rather long period, and in animals recently transferred to a white background. The lowest amounts of fluorescence were generally found in animals adapted to a white background. This and the result of injections of CA-depleting drugs suggest that the monoaminergic nerves are active when the animal is on a white background, inhibiting the MSH release directly or indirectly or both, or in co-operation with other factors. Specific green fluorescent structures were also found in other parts of the neural lobe supplying the pars distalis. In some pharmacologically untreated specimens and in animals treated with CA-depleting drugs, the intermedia cells fluoresced. Microspectrofluorimetric analyses indicated that this fluorophore was not a CA.
在欧洲鳗鲡的神经中间叶(NIL)中,已在神经叶突起中证实了一种特定的甲醛诱导荧光,表明存在儿茶酚胺(CA)神经支配。显微分光荧光分析和药理学处理表明,去甲肾上腺素或多巴胺或两者共同导致了这种荧光。在适应白色和黑色背景的过程中,NIL中的荧光呈现出明显的变化趋势。荧光量最高通常见于适应黑色背景的动物,尤其是适应较长时间的动物,以及刚转移到白色背景的动物。荧光量最低通常见于适应白色背景的动物。这一点以及注射CA消耗药物的结果表明,当动物处于白色背景时,单胺能神经是活跃的,直接或间接或两者共同抑制促黑素(MSH)的释放,或与其他因素协同作用。在供应远侧部的神经叶的其他部位也发现了特定的绿色荧光结构。在一些未经药理学处理的标本和用CA消耗药物处理的动物中,中间细胞发出荧光。显微分光荧光分析表明,这种荧光团不是CA。
