Li W, Tully T, Kalderon D
Department of Biological Sciences, Columbia University, New York, New York 10027, USA.
Learn Mem. 1996 Jan-Feb;2(6):320-33. doi: 10.1101/lm.2.6.320.
The requirement for cAMP-dependent protein kinase (PKA) in associative learning of Drosophila was assessed in mutant flies hemizygous for a cold-sensitive allele, X4, of the DC0 gene, which encodes the major catalytic subunit of PKA. DC0X4 hemizygotes died as third-instar larvae at 18 degrees C, the restrictive temperature, but were viable when raised at 25 degrees C. Shifting adult DC0X4 hemizygotes from 25 degrees C to 18 degrees C led to a decrease in PKA activity from 24% to 16% of wild-type without impairing viability. At 25 degrees C, DC0X4 hemizygotes exhibited reduced initial learning relative to controls but normal memory decay in a Pavlovian olfactory learning assay. Shifting the temperature from 25 degrees C to 18 degrees C prior to training reduced initial learning to a similar extent in DC0X4 hemizygotes and controls but resulted in a steeper memory decay curve only in DC0X4 hemizygotes. These observations are suggestive of a role for PKA in medium-term memory formation in addition to its previously established role in initial learning.
通过对果蝇进行联想学习实验,评估了环磷酸腺苷依赖性蛋白激酶(PKA)的需求。实验使用了DC0基因冷敏感等位基因X4的半合子突变果蝇,该基因编码PKA的主要催化亚基。DC0X4半合子在18摄氏度(限制温度)下作为三龄幼虫死亡,但在25摄氏度下饲养时存活。将成年DC0X4半合子从25摄氏度转移到18摄氏度会导致PKA活性从野生型的24%降至16%,但不影响其活力。在25摄氏度下,DC0X4半合子在巴甫洛夫嗅觉学习试验中表现出相对于对照组的初始学习能力下降,但记忆衰退正常。在训练前将温度从25摄氏度转移到18摄氏度,DC0X4半合子和对照组的初始学习能力下降程度相似,但仅在DC0X4半合子中导致更陡峭的记忆衰退曲线。这些观察结果表明,PKA除了在初始学习中已确立的作用外,在中期记忆形成中也发挥作用。