Callahan L M, Selski D J, Martzen M R, Cheetham J E, Coleman P D
Department of Neurobiology and Anatomy, University of Rochester Medical Center, NY 14642.
Neurobiol Aging. 1994 May-Jun;15(3):381-6. doi: 10.1016/0197-4580(94)90041-8.
Loss of synapses has been shown to correlate with the severity of dementia in Alzheimer's disease (AD). Intracellular neurofibrillary tangles (NFTs) have also been shown to correlate to the severity of AD dementia. We have been investigating the influence of NFTs on mRNAs related to neuronal plasticity and synaptic function. We recently reported a decrease in message for the plasticity marker, GAP-43, in AD cases with high tangle densities. The study did not permit us to determine if: a) the decrease in GAP-43 message was specific to the NFT-bearing neurons, b) a general decrease in GAP-43 message was occurring in all surviving neurons, or c) the decrease in GAP-43 message was due to a loss of neurons. It is unlikely a loss of neurons could explain the sixfold GAP-43 message loss we reported, because only a 19% excess decrease in density of hippocampal neurons occurs in AD cases with high tangle densities. Consequently, the study reported here was undertaken to determine if a general decrease in GAP-43 message was occurring in all surviving AD neurons or if the decrease in GAP-43 message was specific to NFT-bearing neurons. We combined immunocytochemistry for neurofibrillary tangles with in situ hybridization for GAP-43 message. We report here preliminary evidence indicating a decrease in GAP-43 message in NFT-bearing neurons compared to adjacent nontangle bearing neurons in parahippocampal cortex of AD patients.
突触丧失已被证明与阿尔茨海默病(AD)痴呆的严重程度相关。细胞内神经原纤维缠结(NFTs)也被证明与AD痴呆的严重程度相关。我们一直在研究NFTs对与神经元可塑性和突触功能相关的mRNA的影响。我们最近报告,在缠结密度高的AD病例中,可塑性标志物GAP-43的信使核糖核酸减少。该研究不允许我们确定:a)GAP-43信使核糖核酸的减少是否特定于含有NFTs的神经元;b)在所有存活的神经元中是否普遍存在GAP-43信使核糖核酸的减少;或c)GAP-43信使核糖核酸的减少是否由于神经元丧失。神经元丧失不太可能解释我们报告的GAP-43信使核糖核酸六倍的减少,因为在缠结密度高的AD病例中,海马神经元密度仅额外减少19%。因此,进行本研究以确定在所有存活的AD神经元中是否普遍存在GAP-43信使核糖核酸的减少,或者GAP-43信使核糖核酸的减少是否特定于含有NFTs的神经元。我们将神经原纤维缠结的免疫细胞化学与GAP-43信使核糖核酸的原位杂交相结合。我们在此报告初步证据,表明与AD患者海马旁回皮质中相邻的不含缠结的神经元相比,含有NFTs的神经元中GAP-43信使核糖核酸减少。
