Lanuza Maria A, Garcia Neus, Santafé Manel, González Carmen M, Alonso Immaculada, Nelson Phillip G, Tomàs Josep
Unitat d'Histologia i Neurobiologia (UHN), Facultat de Medicina i Ciències de la Salut, Universitat Rovira i Virgili, Reus, Spain.
J Neurosci Res. 2002 Mar 1;67(5):607-17. doi: 10.1002/jnr.10122.
The distribution of acetylcholine receptors (AChRs) within and around the neuromuscular junction changes dramatically during the first postnatal weeks, a period during which polyneuronal innervation is eliminated. We reported previously that protein kinase C (PKC) activation accelerates postnatal synapse loss. Because of the close relationship between axonal retraction and AChR cluster dispersal, we hypothesize that PKC can modulate morphological maturation changes of the AChR clusters in the postsynaptic membrane during neonatal axonal reduction. We applied substances affecting PKC activity to the neonatal rat levator auris longus muscle in vivo. Muscles were then stained immunohistochemically to detect both AChRs and axons. We found that, during the first postnatal days of normal development, substantial axonal loss preceded the formation of areas in synaptic sites that were free of AChRs, implying that axonal loss could occur independently of changes in AChR cluster organization. Nevertheless, there was a close relationship between axonal loss and AChR organization; PKC modulates both, although differently. Block of PKC activity with calphostin C prevented both AChR loss and axonal loss between postnatal days 4 and 6. PKC may act primarily to influence AChR clusters and not axons, insofar as phorbol ester activation of PKC accelerated changes in receptor aggregates but produced relatively little axon loss.
在出生后的最初几周内,神经肌肉接头及其周围的乙酰胆碱受体(AChRs)分布会发生显著变化,这一时期多神经元支配会被消除。我们之前报道过蛋白激酶C(PKC)的激活会加速出生后突触的丧失。由于轴突回缩与AChR簇分散之间存在密切关系,我们推测PKC可以在新生轴突减少期间调节突触后膜中AChR簇的形态成熟变化。我们将影响PKC活性的物质应用于新生大鼠的体内耳长提肌。然后对肌肉进行免疫组织化学染色以检测AChRs和轴突。我们发现,在正常发育的出生后最初几天,大量轴突丧失先于突触部位形成无AChRs的区域,这意味着轴突丧失可能独立于AChR簇组织的变化而发生。然而,轴突丧失与AChR组织之间存在密切关系;PKC对两者都有调节作用,尽管方式不同。用钙泊三醇C阻断PKC活性可防止出生后第4天至第6天期间AChR丧失和轴突丧失。PKC可能主要作用于影响AChR簇而不是轴突,因为PKC的佛波酯激活加速了受体聚集体的变化,但产生的轴突丧失相对较少。
