Moore Simon W, Lai Wing Sun Karen, Xie Fang, Barker Philip A, Conti Marco, Kennedy Timothy E
Centre for Neuronal Survival, Montreal Neurological Institute, Department of Neurology and Neurosurgery, McGill University, Montreal, Quebec, Canada H3A 2B4.
J Neurosci. 2008 Apr 9;28(15):3920-4. doi: 10.1523/JNEUROSCI.0547-08.2008.
During development, axons are directed to their targets by extracellular guidance cues. The axonal response to the guidance cue netrin-1 is profoundly influenced by the concentration of cAMP within the growth cone. In some cases, cAMP affects the sensitivity of the growth cone to netrin-1, whereas in others it changes the response to netrin-1 from attraction to repulsion. The effects of cAMP on netrin-1 action are well accepted, but the critical issue of whether cAMP production is activated by a netrin-1 induced signaling cascade remains uncertain. A previous report has suggested that axon guidance in response to netrin-1 requires cAMP production mediated by soluble adenyl cyclase (sAC). We have used genetic, molecular and biochemical strategies to assess this issue. Surprisingly, we found only extremely weak expression of sAC in embryonic neurons and determined that, under conditions where netrin-1 directs axonal pathfinding, exposure to netrin-1 does not alter cAMP levels. Furthermore, although netrin-1-deficient mice exhibit major axon guidance defects, we show that pathfinding is normal in sAC-null mice. Therefore, although cAMP can alter the response of axons to netrin-1, we conclude that netrin-1 does not alter cAMP levels in axons attracted by this cue, and that sAC is not required for axon attraction to netrin-1.
在发育过程中,轴突通过细胞外导向信号被引导至其靶标。生长锥内的cAMP浓度对轴突对导向信号netrin-1的反应有深远影响。在某些情况下,cAMP会影响生长锥对netrin-1的敏感性,而在其他情况下,它会将对netrin-1的反应从吸引转变为排斥。cAMP对netrin-1作用的影响已得到广泛认可,但cAMP的产生是否由netrin-1诱导的信号级联激活这一关键问题仍不确定。先前的一份报告表明,对netrin-1的轴突导向需要可溶性腺苷酸环化酶(sAC)介导的cAMP产生。我们使用了遗传学、分子生物学和生物化学策略来评估这个问题。令人惊讶的是,我们发现胚胎神经元中sAC的表达极其微弱,并确定在netrin-1引导轴突路径寻找的条件下,暴露于netrin-1不会改变cAMP水平。此外,尽管netrin-1缺陷小鼠表现出主要的轴突导向缺陷,但我们表明sAC基因敲除小鼠的路径寻找是正常的。因此,尽管cAMP可以改变轴突对netrin-1的反应,但我们得出结论,netrin-1不会改变受该信号吸引的轴突中的cAMP水平,并且轴突对netrin-1的吸引不需要sAC。