DeLucia Tracey A, Alexander Thomas D, Fargo Keith N, Jones Kathryn J
Department of Cell Biology, Neurobiology, and Anatomy, Loyola University Chicago, Maywood, IL 60153, USA.
Restor Neurol Neurosci. 2007;25(5-6):573-84.
betaII-tubulin, a regeneration-associated gene, is upregulated in injured peripheral neurons, but significantly less so in injured central neurons. Using a hamster dorsal spinal cord injury (SCI), the ability of single versus combinatorial treatment strategies to alter betaII-tubulin mRNA expression in rubrospinal motoneurons (RSMN) was examined. We have shown that systemic testosterone propionate (TP) treatment in combination with peripheral nerve grafting into a SCI site produces a peripheral-like pattern of betaII-tubulin mRNA expression in injured RSMN. In the present study, selected single- and combinatorial-therapy strategies were tested for their ability to promote a sustained upregulation of betaII-tubulin mRNA levels in injured RSMN.
Single treatments of olfactory ensheathing cells (OEC), brain-derived neurotrophic factor (BDNF), or Schwann cells (SC) vs combinatorial treatments (SC+TP, OEC+TP, and OEC+BDNF) were administered to hamsters following a dorsal SCI. Quantitative in situ hybridization in conjunction with a betaII-tubulin cDNA probe was accomplished.
All of the single-therapy treatments tested were able to prevent the downregulation of betaII-tubulin mRNA that occurred a week after injury alone, but only BDNF maintained high levels of betaII-tubulin mRNA. In contrast, all combinatorial treatments tested maintained the upregulation of betaII-tubulin mRNA expression in injured RSMN 1 week post-SCI.
Targeting both intrinsic and extrinsic components of CNS injury can re-program elements of the molecular response of injured central motoneurons.
βII-微管蛋白是一种再生相关基因,在受损的外周神经元中上调,但在受损的中枢神经元中上调程度明显较低。利用仓鼠脊髓背侧损伤模型,研究了单一治疗策略与联合治疗策略改变红核脊髓运动神经元(RSMN)中βII-微管蛋白mRNA表达的能力。我们已经表明,全身注射丙酸睾酮(TP)并结合将周围神经移植到脊髓损伤部位,可在受损的RSMN中产生类似外周的βII-微管蛋白mRNA表达模式。在本研究中,测试了选定的单一治疗和联合治疗策略促进受损RSMN中βII-微管蛋白mRNA水平持续上调的能力。
对脊髓背侧损伤后的仓鼠进行单一治疗,即嗅鞘细胞(OEC)、脑源性神经营养因子(BDNF)或雪旺细胞(SC)治疗,以及联合治疗(SC+TP、OEC+TP和OEC+BDNF)。采用βII-微管蛋白cDNA探针进行定量原位杂交。
所有测试的单一治疗方法都能够防止仅在损伤一周后出现的βII-微管蛋白mRNA下调,但只有BDNF能维持βII-微管蛋白mRNA的高水平。相比之下,所有测试的联合治疗方法在脊髓损伤后1周均能维持受损RSMN中βII-微管蛋白mRNA表达的上调。
针对中枢神经系统损伤的内在和外在成分可以重新编程受损中枢运动神经元分子反应的要素。
