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生物胺多巴胺、5-羟色胺和章鱼胺对蟑螂逃逸回路胸段和腹段的不同影响。

Different effects of the biogenic amines dopamine, serotonin and octopamine on the thoracic and abdominal portions of the escape circuit in the cockroach.

作者信息

Goldstein R S, Camhi J M

机构信息

Department Zoology, Hebrew University, Jerusalem, Israel.

出版信息

J Comp Physiol A. 1991 Jan;168(1):103-12. doi: 10.1007/BF00217108.

DOI:10.1007/BF00217108
PMID:2033562
Abstract
  1. The escape behavior of the cockroach, Periplaneta americana, is known to be modulated under various behavioral conditions (Camhi and Volman 1978; Camhi and Nolen 1981; Camhi 1988). Some of these modulatory effects occur in the last abdominal ganglion (Daley and Delcomyn 1981a, b; Libersat et al. 1989) and others in the thoracic ganglia (Camhi 1988). Neuromodulator substances are known to underlie behavioral modulation in various animals. Therefore, we have sought to determine whether topical application of putative neuromodulators of the escape circuit enhance or depress this circuit, and whether these effects differ in the last abdominal vs. the thoracic ganglia. 2. Topical application of the biogenic amines serotonin and dopamine to the metathoracic ganglion modulates the escape circuitry within this ganglion; serotonin decreases and dopamine enhances the response of leg motoneurons to activation of interneurons in the abdominal nerve cord by electrical or wind stimulation. 3. The neuropil of the thoracic ganglia contains many catecholamine-histofluorescent processes bearing varicosities, providing a possible anatomical substrate for dopamine release sites. 4. Topical application of octopamine to the terminal abdominal ganglion enhances the response of abdominal interneurons to wind stimulation of the cerci. In contrast, serotonin and dopamine have no effect at this site. 5. It is proposed that release of these biogenic amines may contribute to the known modulation of the cockroach escape response.
摘要
  1. 已知美洲大蠊的逃逸行为在各种行为条件下会受到调节(Camhi和Volman,1978年;Camhi和Nolen,1981年;Camhi,1988年)。其中一些调节作用发生在最后一个腹神经节(Daley和Delcomyn,1981a,b;Libersat等人,1989年),而其他调节作用则发生在胸神经节(Camhi,1988年)。已知神经调质物质是各种动物行为调节的基础。因此,我们试图确定对逃逸回路的假定神经调质进行局部应用是否会增强或抑制该回路,以及这些作用在最后一个腹神经节与胸神经节中是否存在差异。2. 向中胸神经节局部应用生物胺5-羟色胺和多巴胺可调节该神经节内的逃逸回路;5-羟色胺会降低腿部运动神经元对腹神经索中中间神经元通过电刺激或风刺激激活的反应,而多巴胺则会增强这种反应。3. 胸神经节的神经纤维网包含许多带有曲张体的儿茶酚胺组织荧光过程,为多巴胺释放位点提供了可能的解剖学基础。4. 向终腹神经节局部应用章鱼胺可增强腹侧中间神经元对尾须风刺激的反应。相比之下,5-羟色胺和多巴胺在该部位没有作用。5. 有人提出,这些生物胺的释放可能有助于对蟑螂逃逸反应的已知调节。

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