糖皮质激素对脊髓损伤大鼠运动神经元参数的调节作用
Glucocorticoid regulation of motoneuronal parameters in rats with spinal cord injury.
作者信息
Gonzalez S L, Saravia F, Gonzalez Deniselle M C, Lima A E, De Nicola A F
机构信息
Laboratory of Neuroendocrine Biochemistry, Instituto de Biologia y Medicina Experimental, UBA-CONICET, Argentina.
出版信息
Cell Mol Neurobiol. 1999 Oct;19(5):597-611. doi: 10.1023/a:1006980301382.
Abstract
- Glucocorticoids exert beneficial effects after acute CNS injury in humans and experimental animals. To elucidate potential mechanisms of glucocorticoid action in the lesioned spinal cord, we have studied if treatment with dexamethasone (DEX) modulated the neurotrophin binding receptor p75 (p75NTR) and choline acetyltransferase (ChAT), a marker of neuronal functional viability. 2. Rats with a sham operation or with spinal cord transection at the thoracic level received vehicle or DEX several times postlesion and were sacrificed 48 hr after surgery. The lumbar region caudal to the lesion was processed for p75NTR and ChAT immunoreactivity (IR) using quantitative densitometric analysis. 3. We observed that p75NTR-IR was absent from ventral horn motoneurons of sham-operated rats, in contrast to strong staining of neuronal perikaryon in TRX rats. Administration of DEX to TRX rats had no effect on the number of neuronal cell bodies expressing p75NTR-IR but significantly increased the number and length of immunostained neuronal processes. 4. Furthermore, spinal cord transection reduced ChAT immunostaining of motoneurons by 50%, whereas DEX treatment reverted this pattern to cells with a strong immunoreaction intensity in perikaryon and cell processes. 5. It is hypothesized that increased expression of p75NTR in cell processes and of ChAT in motoneurons may be part of a mechanism by which glucocorticoids afford neuroprotection, in addition to their known antiinflammatory effects.
摘要
- 糖皮质激素在人类和实验动物急性中枢神经系统损伤后发挥有益作用。为阐明糖皮质激素在损伤脊髓中的潜在作用机制,我们研究了地塞米松(DEX)治疗是否调节神经营养因子结合受体p75(p75NTR)和神经元功能活力标志物胆碱乙酰转移酶(ChAT)。2. 接受假手术或胸段脊髓横断的大鼠在损伤后多次接受载体或DEX处理,并在术后48小时处死。使用定量密度分析对损伤尾侧的腰段区域进行p75NTR和ChAT免疫反应性(IR)检测。3. 我们观察到,假手术大鼠腹角运动神经元中不存在p75NTR-IR,而脊髓横断(TRX)大鼠神经元胞体有强染色。给TRX大鼠施用DEX对表达p75NTR-IR的神经元细胞体数量没有影响,但显著增加了免疫染色的神经元突起的数量和长度。4. 此外,脊髓横断使运动神经元的ChAT免疫染色减少了50%,而DEX治疗使这种模式恢复为胞体和细胞突起中具有强免疫反应强度的细胞。5. 据推测,除了其已知的抗炎作用外,糖皮质激素提供神经保护的机制可能部分包括细胞突起中p75NTR表达增加和运动神经元中ChAT表达增加。
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