González Susana L, López-Costa Juan José, Labombarda Florencia, González Deniselle Maria Claudia, Guennoun Rachida, Schumacher Michael, De Nicola Alejandro F
Laboratory of Neuroendocrine Biochemistry, Instituto de Biología y Medicina Experimental, Obligado 2490, 1428, Buenos Aires, Argentina.
Cell Mol Neurobiol. 2009 Feb;29(1):27-39. doi: 10.1007/s10571-008-9291-0. Epub 2008 Jun 27.
(1) Following acute spinal cord injury, progesterone modulates several molecules essential for motoneuron function, although the morphological substrates for these effects are unknown. (2) The present study analyzed morphological changes in motoneurons distal to the lesion site from rats with or without progesterone treatment. We employed electron microscopy to study changes in nucleus and cytoplasm and immunohistochemistry for the microtubule-associated protein 2 (MAP2) for changes in cytoskeleton. (3) After spinal cord injury, the nucleoplasm appeared more finely dispersed resulting in reduced electron opacity and the nucleus adopted an eccentric position. Changes of perikarya included dissolution of Nissl bodies and dissociation of polyribosomes (chromatolysis). After progesterone treatment for 3 days, the deafferented motoneurons now presented a clumped nucleoplasm, a better-preserved rough endoplasmic reticulum and absence of chromatolysis. Progesterone partially prevented development of nuclear eccentricity. Whereas 50% of injured motoneurons showed nuclear eccentricity, only 16% presented this phenotype after receiving progesterone. Additionally, injured rats showed reduced immunostaining for MAP2 in dendrites, pointing to cytoskeleton abnormalities, whereas progesterone treatment attenuated the injury-induced loss of MAP2. (4) Our data indicated that progesterone maintained in part neuronal ultrastructure, attenuated chromatolysis, and preclude the loss of MAP2, suggesting a protective effect during the early phases of spinal cord injury.
(1) 急性脊髓损伤后,孕酮可调节运动神经元功能所必需的多种分子,尽管这些作用的形态学基础尚不清楚。(2) 本研究分析了经或未经孕酮治疗的大鼠损伤部位远端运动神经元的形态学变化。我们采用电子显微镜研究细胞核和细胞质的变化,并用免疫组织化学方法检测微管相关蛋白2(MAP2)以观察细胞骨架的变化。(3) 脊髓损伤后,核质出现更细微的分散,导致电子密度降低,细胞核位置偏心。胞体变化包括尼氏体溶解和多核糖体解离(染色质溶解)。孕酮治疗3天后,失传入的运动神经元现在呈现核质聚集、粗面内质网保存较好且无染色质溶解。孕酮部分阻止了核偏心的发展。损伤的运动神经元中有50%表现出核偏心,而接受孕酮治疗后只有16%呈现这种表型。此外,损伤大鼠的树突中MAP2免疫染色减少,表明细胞骨架异常,而孕酮治疗减轻了损伤诱导的MAP2丢失。(4) 我们的数据表明,孕酮部分维持了神经元超微结构,减轻了染色质溶解,并防止了MAP2的丢失,提示其在脊髓损伤早期具有保护作用。