Yang Jen-Tsung, Chang Chen-Nen, Lee Tsong-Hai, Hsu Jee-Ching, Lin Teng-Nan, Hsu Yung-Hsin, Hsieh Wu June
Department of Neurosurgery, Chang Gung Memorial Hospital, Taipei, Taiwan.
Crit Care Med. 2002 Apr;30(4):913-8. doi: 10.1097/00003246-200204000-00034.
To determine whether a large dose of dexamethasone affected brain damage induced by concurrent cerebral ischemia, we used in situ hybridization to examine the expression of brain-derived neurotrophic factor and neurotrophin-3 messenger ribonucleic acids (mRNAs) in rats with and without dexamethasone administration after transient forebrain ischemia.
Prospective experimental study in rats.
Experimental laboratory in a teaching hospital and university.
Eighty adult rats.
Twenty minutes of transient forebrain ischemia was induced by occlusion of four vessels in lightly anesthetized rats. Thirty-six animals received dexamethasone (15 mg/kg, intraperitoneally) after initial reperfusion. Thirty-six dexamethasone-control rats were injected with saline, and the remaining animals underwent sham surgery but no ischemia or dexamethasone.
Using in situ hybridization, we determined hippocampal brain-derived neurotrophic factor and neurotrophin-3 mRNA expression 2, 4, 6, 12, and 24 hrs and 2, 3, 4, and 7 days after brain ischemia. Additionally, hippocampal CA1 region cell death was measured with Nissl stains. Both brain-derived neurotrophic factor and neurotrophin-3 mRNA exhibited a biphasic response after ischemia. Brain-derived neurotrophic factor mRNA showed two peaks of 4.07-fold and 2.84-fold increases relative to sham operation at 6 hrs and 2 days, respectively. Neurotrophin-3 mRNA initially decreased to 59% of sham levels at 4 hrs and then increased to 146% at 3 days before it returned to basal levels. When the ischemic rats were treated with dexamethasone, the elevation of brain-derived neurotrophic factor mRNA and the reduction of neurotrophin-3 mRNA level were prevented within the first 24 hrs, and hippocampal CA1 neurons were protected from ischemia-induced cell loss 7 days after brain ischemia. The protein levels of both brain-derived neurotrophic factor and neurotrophin-3 in general correspond to the mRNA levels in the hippocampal region.
Dexamethasone modulates the intriguing temporal and spatial expression of brain-derived neurotrophic factor and neurotrophin-3 that predominantly supports neuronal innervation at different times after brain ischemia and also may provide specific trophic support for various neurons in the central nervous system.
为了确定大剂量地塞米松是否会影响同时发生的脑缺血所诱导的脑损伤,我们采用原位杂交技术检测短暂性前脑缺血后给予和未给予地塞米松的大鼠脑海马区脑源性神经营养因子(BDNF)和神经营养因子-3(NT-3)信使核糖核酸(mRNA)的表达情况。
对大鼠进行前瞻性实验研究。
一家教学医院和大学的实验实验室。
80只成年大鼠。
在轻度麻醉的大鼠中,通过阻断四根血管诱导20分钟的短暂性前脑缺血。36只动物在初始再灌注后接受地塞米松(15毫克/千克,腹腔注射)。36只地塞米松对照大鼠注射生理盐水,其余动物接受假手术,但未经历缺血或给予地塞米松。
采用原位杂交技术,我们测定了脑缺血后2、4、6、12和24小时以及2、3、4和7天海马区BDNF和NT-3 mRNA的表达情况。此外,用尼氏染色法测量海马CA1区细胞死亡情况。BDNF和NT-3 mRNA在缺血后均呈现双相反应。BDNF mRNA在6小时和2天时分别相对于假手术组出现4.07倍和2.84倍的增加峰值。NT-3 mRNA在4小时时最初降至假手术水平的59%,然后在3天时升至146%,之后才恢复至基础水平。当对缺血大鼠给予地塞米松治疗时,BDNF mRNA的升高和NT-3 mRNA水平的降低在前24小时内得到了抑制,并且在脑缺血7天后,海马CA1神经元免受缺血诱导的细胞丢失。海马区BDNF和NT-3的蛋白质水平总体上与mRNA水平相对应。
地塞米松调节BDNF和NT-3有趣的时空表达,这在脑缺血后的不同时间主要支持神经元的神经支配,并且可能为中枢神经系统中的各种神经元提供特定的营养支持。
