Barron Andrew B, Maleszka Ryszard, Vander Meer Robert K, Robinson Gene E
Visual Sciences and Australian Research Council Centre for Molecular Genetics of Development, Research School of Biological Sciences, Australian National University, Canberra, ACT 2601, Australia.
Proc Natl Acad Sci U S A. 2007 Jan 30;104(5):1703-7. doi: 10.1073/pnas.0610506104. Epub 2007 Jan 19.
Honey bees communicate the location and desirability of valuable forage sites to their nestmates through an elaborate, symbolic "dance language." The dance language is a uniquely complex communication system in invertebrates, and the neural mechanisms that generate dances are largely unknown. Here we show that treatments with controlled doses of the biogenic amine neuromodulator octopamine selectively increased the reporting of resource value in dances by forager bees. Oral and topical octopamine treatments modulated aspects of dances related to resource profitability in a dose-dependent manner. Dances for pollen and sucrose responded similarly to octopamine treatment, and these effects were eliminated by treatment with the octopamine antagonist mianserin. We propose that octopamine modulates the representation of floral rewards in dances by changing the processing of reward in the honey bee brain. Octopamine is known to modulate appetitive behavior in a range of solitary insects; the role of octopamine in dance provides an example of how neural substrates can be adapted for new behavioral innovations in the process of social evolution.
蜜蜂通过一种复杂、具有象征意义的“舞蹈语言”向其巢伴传达珍贵觅食地点的位置和吸引力。舞蹈语言是无脊椎动物中一种独特复杂的通信系统,而产生舞蹈的神经机制在很大程度上尚不清楚。在此我们表明,用可控剂量的生物胺神经调节剂章鱼胺进行处理,能选择性地增加觅食蜜蜂在舞蹈中对资源价值的报告。口服和局部使用章鱼胺处理以剂量依赖的方式调节了与资源收益相关的舞蹈方面。对花粉和蔗糖的舞蹈对章鱼胺处理的反应相似,而用章鱼胺拮抗剂米安色林处理可消除这些影响。我们提出,章鱼胺通过改变蜜蜂大脑中奖励的处理方式来调节舞蹈中花卉奖励的表征。已知章鱼胺能调节一系列独居昆虫的食欲行为;章鱼胺在舞蹈中的作用提供了一个神经基质如何在社会进化过程中适应新行为创新的例子。