中华医学杂志
中華醫學雜誌
중화의학잡지
National Medical Journal of China
2009年
29期
2081-2084
,共4页
孔岩%徐耑%董万利%曹碧茵%刘春风
孔巖%徐耑%董萬利%曹碧茵%劉春風
공암%서단%동만리%조벽인%류춘풍
帕金森病%膜片钳术%动作电位
帕金森病%膜片鉗術%動作電位
파금삼병%막편겸술%동작전위
Pakinson disease%Patch-clamp techniques%Action potentials
目的 建立大鼠黑质-纹状体脑片,探讨中脑黑质细胞的电生理特性.方法 应用红外微分干涉相差(IR-DIC)技术在直视下对黑质-纹状体脑片中100个黑质细胞动作电位及超极化激活的内向电流(Ih)进行观察和分析.结果 可视法脑片膜片钳术可对脑片中黑质细胞进行准确定位和功能状态的筛选.记录的100个细胞中94个可见自发动作电位,其中频率<10 Hz的85个(A类细胞),平均为(5.0±2.7)Hz;>10 Hz的9个(B类细胞),平均为(14.0±2.6)Hz.后者电位变化过程与前者相比缺少明显的超极化.92.9%(79/85)的A类细胞诱发出明显的,Ih电流(-120 mV,47.5pA±5.8 pA),提示为多巴胺能细胞;B类细胞则没有或只有很小的,Ih电流(-120 mV,4.9 pA±1.5pA),提示为γ-氨基丁酸能细胞.两者比较P<0.001.结论 通过在可视条件下对黑质-纹状体脑片黑质细胞进行基本电学特征观察,可有效地识别黑质细胞的类型,为深入研究黑质-纹状体通路电信号的发生和传递提供了基础.
目的 建立大鼠黑質-紋狀體腦片,探討中腦黑質細胞的電生理特性.方法 應用紅外微分榦涉相差(IR-DIC)技術在直視下對黑質-紋狀體腦片中100箇黑質細胞動作電位及超極化激活的內嚮電流(Ih)進行觀察和分析.結果 可視法腦片膜片鉗術可對腦片中黑質細胞進行準確定位和功能狀態的篩選.記錄的100箇細胞中94箇可見自髮動作電位,其中頻率<10 Hz的85箇(A類細胞),平均為(5.0±2.7)Hz;>10 Hz的9箇(B類細胞),平均為(14.0±2.6)Hz.後者電位變化過程與前者相比缺少明顯的超極化.92.9%(79/85)的A類細胞誘髮齣明顯的,Ih電流(-120 mV,47.5pA±5.8 pA),提示為多巴胺能細胞;B類細胞則沒有或隻有很小的,Ih電流(-120 mV,4.9 pA±1.5pA),提示為γ-氨基丁痠能細胞.兩者比較P<0.001.結論 通過在可視條件下對黑質-紋狀體腦片黑質細胞進行基本電學特徵觀察,可有效地識彆黑質細胞的類型,為深入研究黑質-紋狀體通路電信號的髮生和傳遞提供瞭基礎.
목적 건립대서흑질-문상체뇌편,탐토중뇌흑질세포적전생리특성.방법 응용홍외미분간섭상차(IR-DIC)기술재직시하대흑질-문상체뇌편중100개흑질세포동작전위급초겁화격활적내향전류(Ih)진행관찰화분석.결과 가시법뇌편막편겸술가대뇌편중흑질세포진행준학정위화공능상태적사선.기록적100개세포중94개가견자발동작전위,기중빈솔<10 Hz적85개(A류세포),평균위(5.0±2.7)Hz;>10 Hz적9개(B류세포),평균위(14.0±2.6)Hz.후자전위변화과정여전자상비결소명현적초겁화.92.9%(79/85)적A류세포유발출명현적,Ih전류(-120 mV,47.5pA±5.8 pA),제시위다파알능세포;B류세포칙몰유혹지유흔소적,Ih전류(-120 mV,4.9 pA±1.5pA),제시위γ-안기정산능세포.량자비교P<0.001.결론 통과재가시조건하대흑질-문상체뇌편흑질세포진행기본전학특정관찰,가유효지식별흑질세포적류형,위심입연구흑질-문상체통로전신호적발생화전체제공료기출.
Objective To establish the brain slices of substantia nigra and striatum in rats and study the properties and functional significance of substantia nigra neurons. Methods The technique of infrared differential interference contrast (IR-DIC) and CCD-Camera system with visual patch clamp whole-cell recording were combined. One hundred healthy substantia nigra neurons were located and the measurements of active potential and Ih current recorded and analyzed. Results Visual patch clamp technique could be used to make a direct localization of substantia nigra and to identify the active neurons.Spontaneous active potential was shown in 94/100 neurons. Among them, 85 (Group A) had a frequency less than 10Hz and 9 more than 10Hz (Group B). The means were (5.0±2.7) Hz and (14.0± 2.6) Hz.respectively. As compared with the former, the latter had no obvious hyperpolarization during active potential period. Apparent hyperpolarizing current could be induced in 92. 9% (79/85) of Group A neurons (-120 mV, 47.5 pA ±5.8 pA). They were classified as dopaminergic neurons. However, the Group B neurons had no or little Ih current and were classified as GABA neurons (P < 0.001). Conclusion The types of nigra neurons can be distinguished by observing the fundamental electrical characteristic of dopaminergic neurons in nigrostriatal brain slices under visual inspections. And it may provide rationales for an in-depth knowledge of the occurrence and transmission of signal pathways between substantia nigra and striatum.