Sunada Hiroshi, Totani Yuki, Nakamura Ryota, Sakakibara Manabu, Lukowiak Ken, Ito Etsuro
Kagawa School of Pharmaceutical Sciences, Tokushima Bunri UniversitySanuki, Japan.
Department of Biology, Waseda UniversityTokyo, Japan.
Front Behav Neurosci. 2017 Sep 11;11:161. doi: 10.3389/fnbeh.2017.00161. eCollection 2017.
The pond snail learns and forms long-term memory (LTM) following both operant conditioning of aerial respiratory behavior and classical conditioning of taste aversive behavior. In the present study, we examined whether there are interstrain differences in the ability to form LTM following these two types of conditioning. A strain of (TC1) collected in Alberta, Canada exhibits superior memory-forming ability following aerial respiratory operant conditioning compared to a laboratory-reared strain of from Netherlands known as the Dutch strain. We asked whether the offspring of the Canadian TC1 and Dutch snails (i.e., filial 1 (F) cross snails) would have the superior memory ability and found, rather, that their memory ability was average like the Dutch snails. That is, the Canadian TC1 snails have superior ability for LTM formation following aerial respiratory operant conditioning, but the Dutch and the generated F cross have average ability for memory forming. We next examined the Canadian TC1, Dutch and F cross snails for their ability to learn and form memory following conditioned taste aversion (CTA). All three populations showed similar associative CTA responses. However, both LTM formation and the ratio of good-to-poor performers in the memory retention test were much better in the Dutch snails than the Canadian TC1 and F cross snails. The memory abilities of the Canadian TC1 and F cross snails were average. Our present findings, therefore, suggest that snails of different strains have different memory abilities, and the F cross snails do not inherit the memory ability from the smart strain. To our knowledge, there have been a limited number of studies examining differences in memory ability among invertebrate strains, with the exception of studies using mutant flies.
椎实螺在空气呼吸行为的操作性条件反射和味觉厌恶行为的经典条件反射后都能学习并形成长期记忆(LTM)。在本研究中,我们检验了在这两种类型的条件反射后形成LTM的能力是否存在品系间差异。从加拿大艾伯塔省采集的一个椎实螺品系(TC1)与一个来自荷兰的实验室饲养品系(称为荷兰品系)相比,在空气呼吸操作性条件反射后表现出更强的记忆形成能力。我们探究了加拿大TC1品系和荷兰螺的后代(即子一代(F1)杂交螺)是否具有更强的记忆能力,结果发现,它们的记忆能力与荷兰螺一样处于平均水平。也就是说,加拿大TC1品系的螺在空气呼吸操作性条件反射后具有更强的LTM形成能力,但荷兰品系和产生的F1杂交螺的记忆形成能力处于平均水平。接下来,我们检验了加拿大TC1品系、荷兰品系和F1杂交螺在条件性味觉厌恶(CTA)后学习和形成记忆的能力。所有三个群体都表现出相似的联合CTA反应。然而,在记忆保持测试中,荷兰螺的LTM形成以及表现好与表现差的个体比例都比加拿大TC1品系和F1杂交螺要好得多。加拿大TC1品系和F1杂交螺的记忆能力处于平均水平。因此,我们目前的研究结果表明,不同品系的螺具有不同的记忆能力,并且F1杂交螺没有从聪明的品系继承记忆能力。据我们所知,除了使用突变果蝇的研究外,研究无脊椎动物品系间记忆能力差异的研究数量有限。
