Silva A J, Rosahl T W, Chapman P F, Marowitz Z, Friedman E, Frankland P W, Cestari V, Cioffi D, Südhof T C, Bourtchuladze R
Cold Spring Harbor Laboratory, New York 11724, USA.
Curr Biol. 1996 Nov 1;6(11):1509-18. doi: 10.1016/s0960-9822(96)00756-7.
Many studies suggest that long term potentiation (LTP) has a role in learning and memory. In contrast, little is known about the function of short-lived plasticity (SLP). Modeling results suggested that SLP could be responsible for temporary memory storage, as in working memory, or that it may be involved in processing information regarding the timing of events. These models predict that abnormalities in SLP should lead to learning deficits. We tested this prediction in four lines of mutant mice with abnormal SLP, but apparently normal LTP-mice heterozygous for a alpha-calcium calmodulin kinase II mutation (alpha CaMKII +/-) have lower paired-pulse facilitation (PPF) and increased post-tetanic potentiation (PTP); mice lacking synapsin II (SyII-/-), and mice defective in both synapsin I and synapsin II (SyI/II-/-), show normal PPF but lower PTP; in contrast, mice just lacking synapsin I (SyI-/-) have increased PPF, but normal PTP.
Our behavioral results demonstrate that alpha CaMKII +/-, SyII-/- and SyI/II-/- mutant mice, which have decreased PPF or PTP, have profound impairments in learning tasks. In contrast, behavioral analysis did not reveal learning deficits in SyI-/- mice, which have increased PPF.
Our results are consistent with models that propose a role for SLP in learning, as mice with decreased PPF or PTP, in the absence of known LTP deficits, also show profound learning impairments. Importantly, analysis of the SyI-/- mutants demonstrated that an increase in PPF does not disrupt learning.
许多研究表明,长时程增强(LTP)在学习和记忆中起作用。相比之下,关于短时程可塑性(SLP)的功能却知之甚少。建模结果表明,SLP可能负责临时记忆存储,如在工作记忆中,或者它可能参与处理有关事件时间的信息。这些模型预测,SLP异常应导致学习缺陷。我们在四组具有异常SLP但LTP明显正常的突变小鼠中测试了这一预测——α-钙调蛋白依赖性蛋白激酶II突变杂合子小鼠(α CaMKII+/-)具有较低的双脉冲易化(PPF)和增强的强直后增强(PTP);缺乏突触结合蛋白II的小鼠(SyII-/-),以及在突触结合蛋白I和突触结合蛋白II方面均有缺陷的小鼠(SyI/II-/-),显示出正常的PPF但较低的PTP;相反,仅缺乏突触结合蛋白I的小鼠(SyI-/-)具有增强的PPF,但PTP正常。
我们的行为学结果表明,PPF或PTP降低的α CaMKII+/-、SyII-/-和SyI/II-/-突变小鼠在学习任务中存在严重障碍。相比之下,行为分析未发现PPF增强的SyI-/-小鼠存在学习缺陷。
我们的结果与提出SLP在学习中起作用的模型一致,因为在没有已知LTP缺陷的情况下,PPF或PTP降低的小鼠也表现出严重的学习障碍。重要的是,对SyI-/-突变体的分析表明,PPF的增加不会干扰学习。
