生长休止蛋白7在成年大鼠肾脏、心脏和肝脏中的差异表达

目的研究生长休止蛋白7（Gas7）在成年大鼠肾脏、心脏和肝脏的表达。方法成年SD大鼠16只,分别采用逆转录聚合酶链反应（RT-PCR）方法和免疫组织化学方法检测Gas7基因mRNA和蛋白在成年SD大鼠肾脏、心脏和肝脏的表达,并进行图像分析和统计学处理。结果RT—PCR结果显示,Gas7mRNA在肾脏高表达,在心脏的表达弱于肾脏（P〈0．05）,而在肝脏的表达最弱,基本检测不到。免疫组化结果显示,在肾脏中,Gas7免疫阳性产物在近髓肾单位的近曲小管呈强阳性反应,在集合管表达较弱,在肾小球和其余肾小管未见表达;在心脏中,Gas7免疫阳性产物均匀分布于心肌细胞,呈中等强度反应,弱于肾脏（P〈O．05）;在肝脏中,Gas7蛋白未见明显表达,与其mRNA在肝脏的表达相似。结论Gas7在大鼠肾脏、心脏和肝脏表达的不同,尤其在肾脏组织分布的差异性,提示Gas7在成年大鼠肾脏和心脏结构以及功能的维持中可能起着重要作用。     

Gas7在大鼠梨状皮质发育过程中的表达

目的研究生长休止蛋白(Growth arrest-specific protein 7,Gas7)在大鼠梨状皮质发育过程中的表达。方法采用逆转录聚合酶链反应(RT-PCR)方法和免疫组织化学方法检测Gas7核酸与蛋白在SD大鼠胚胎第18.5天(E18.5)、E20.5、出生当天(P0)、生后第7天(P7)、P14、P21和成年(Adult)各时期梨状皮质中的表达。结果 RT-PCR结果显示Gas7核酸在大鼠梨状皮质各发育时期均有表达,在P14时表达最强;免疫组织化学方法显示梨状皮质在E18.5时即出现Gas7免疫阳性产物,至P7时出现清晰的Gas7免疫阳性细胞,至P14时细胞数达到峰值,免疫阳性反应最强,P21细胞数少于P14(P0.05),Adult细胞数少于P21(P0.05)。结论 Gas7在梨状皮质的表达具有时间上的差异性,提示Gas7可能在梨状皮质结构形成和功能成熟方面起着重要的调控作用。     

Gas7在大鼠关节软骨中的表达及意义

目的探讨生长休止蛋白7（Gas7）在成年大鼠关节软骨中的表达及意义。方法雄性SD大鼠（3个月、12个月）各12只。取膝关节和股骨上端关节部分,经脱钙石蜡包埋并切片,采用HE染色和免疫组化SABC法检测。检测各关节软骨组织中Gas7的表达及其定位。结果关节软骨切线层与移行层Gas7的表达呈现强阳性,而在辐射层及软骨钙化层则弱阳性或阴性。结论Gas7在成年大鼠关节软骨各层细胞的表达不同,可能与各层软骨细胞的生长发育及代谢状况有关     

生长休止蛋白7在大鼠小脑皮质发育过程中的动态表达

目的研究生长休止蛋白7(Gas7)在大鼠小脑皮质不同发育时期的动态表达。方法采用逆转录聚合酶链反应(RT-PCR)方法检测Gas7mRNA在大鼠小脑皮质不同发育时期的表达;免疫组织化学方法观察Gas7蛋白在大鼠小脑皮质不同发育时期的表达和分布。结果 RT-PCR结果:Gas7mRNA在大鼠小脑皮质发育时期的表达呈现先增强后减弱的趋势,高峰出现在生后第21d(P21)。免疫组化实验结果:在胚胎第18.5d(E18.5)和E20.5仅Purkinje细胞层有Gas7免疫阳性产物分布;出生当天(P0)外颗粒层出现Gas7阳性神经纤维,Purkinje细胞层出现形态不规则的Gas7免疫阳性细胞;P7外颗粒层和Purkinje细胞层免疫反应增强,内颗粒层出现一些散在的Gas7强阳性细胞,胞体较小,突起清晰可见;P14小脑皮质4层均有Gas7阳性表达;P21小脑皮质3层Gas7免疫阳性反应较P14增强(P0.01);Adult(2月龄)较P21免疫反应减弱(P0.01)。结论 Gas7在大鼠小脑皮质发育过程中的动态表达呈现出时空特异性,提示Gas7基因在大鼠小脑皮质发育过程中可能起着重要的调控作用。     

大鼠颈段脊髓灰质板层及其细胞构筑

取12只SD(Sprague-Dawley)大鼠颈段脊髓横断面冰冻切片,用焦油紫和Pal-Weigert染色法染色,光镜观察SD大鼠颈段脊髓的组织结构,对SD大鼠脊髓灰质板层的细胞构筑进行研究。结果显示,Ⅰ层边界呈长弧形,Ⅰ、Ⅱ、Ⅲ、Ⅳ层呈层叠状排列,细胞多为椭圆形。Ⅴ、Ⅵ层均可分为内侧部和外侧部,外侧部分布大型细胞,Ⅴ层内侧部以中型椭圆形、三角形细胞为主,Ⅵ层内侧部以中型梭形细胞为主。Ⅶ层位于中间带,C5-C7Ⅶ层向前角延伸和Ⅷ层一起占据前角大部,Ⅶ及Ⅷ层的中型和大型细胞呈集中分布。Ⅷ层在C1-C4及C8占前角大部,在C5-C7位于前角内侧部。Ⅸ层主要由含大型运动神经元的核团组成。Ⅹ层由中型梭形细胞和小型星状细胞组成。对比观察发现,SD大鼠脊髓颈段板层类似于猫的Rexed分层,但灰质轮廓、板层出现节段、板层形态及其变化等方面均有所不同。     

Gas7在大鼠斜角带核发育过程中的表达

目的研究大鼠发育过程中,生长休止蛋白7(growth arrest-specific protein 7,Gas7)在斜角带核(diagonal band nucleus,DB)的表达。方法应用RT-PCR方法、Western blot方法和免疫组织化学方法观察胚胎期16.5天(E16.5)、E20.5、出生当天(P0)、生后7天(P7)、P14、P21和2月龄(成年)大鼠DB的Gas7表达及定位。结果 RT-PCR和Western blot检测显示,在E16.5时Gas7表达最弱,其后逐渐增强,至P21时达到高峰;免疫组织化学染色显示,斜角带核水平支(horizontal limb of the diagonal band,HDB)在E16.5和E20.5时出现Gas7免疫反应阳性产物,Gas7阳性神经元出现于P0,至P21时阳性神经元数量最多,染色最深;斜角带核垂直支(vertical limb ofthe diagonal band,VDB)至P14时Gas7阳性神经元最多,P21和成年均有所减少。结论 Gas7的表达在大鼠DB发育过程中具有时间和空间上的特异性,提示Gas7可能参与大鼠DB的发育过程。     

周围神经损伤后外源性GDNF对神经元的保护作用

采用硅管套接大鼠切断的坐骨神经模型 ,局部给予胶质细胞源性神经营养因子 (GDNF) ,应用尼氏染色、酶组织化学染色方法 ,观察到外源性GDNF能减少脊髓修复侧前角运动神经元死亡的数目 ,降低脊髓前角运动神经元及脊神经节感觉神经元中胆碱酯酶 (CHE)及酸性磷酸酶 (ACP)变化的幅度。这表明外源性GDNF能保护周围神经切断后引起的神经元损伤。     

生长休止蛋白7在大鼠小脑皮质中的免疫细胞化学研究

目的探讨生长休止特定蛋白7(Gas7)在大鼠小脑中的表达定位。方法应用Gas7抗血清,对大鼠小脑组织切片进行免疫组织化学染色。结果在小脑皮质分子层可见大量的Gas7阳性神经纤维;蒲氏细胞层中,Gas7主要表达在神经元胞膜和部分胞质处;颗粒层中可见Gas7阳性神经纤维。结论Gas7主要在小脑神经元的定位特征可能与Gas7促进神经元和神经突起发育的调节功能有关。     

Gas7在大鼠海马和齿状回发育过程中的动态表达

目的研究生长休止蛋白7（Gas7）在大鼠海马和齿状回不同发育阶段的表达。方法采用免疫组织化学方法观察Gas7在SD大鼠胚胎第18d（E18）、新生（P0）、生后第7d（P7）、P14、P21和成年海马和齿状回中的表达和分布。结果在大鼠脑海马和齿状回部位的冠状切片上,Gas7免疫反应阳性产物主要表达在海马的锥体细胞、齿状回的颗粒细胞和门区的多形层细胞。随着发育的进程,在海马,Gas7较早表达在CA3区,其次是CA2和CA1区;在齿状回,Gas7在外臂的表达早于内臂,在颗粒细胞层的表达是按先外层后内层的顺序。在围生期,Gas7在海马和齿状回各区的表达逐渐增强,至P14达到高峰,后逐渐降低,至P21其表达强度和分布趋于恒定至成年水平。结论 Gas7在大鼠海马和齿状回发育过程中的动态表达具有时间和空间上的特异性,提示Gas7可能参与了海马和齿状回形态形成和功能成熟的调控。     

ABRA在不同年龄大鼠腰段脊髓中的表达变化

目的检测Actin binding Rho activator（ABRA）在不同年龄大鼠腰段脊髓中的表达变化。方法采用Western blot定量检测不同年龄大鼠腰段脊髓中ABRA蛋白水平表达变化,采用免疫荧光染色显示不同年龄大鼠腰髓中ABRA细胞定位。结果Western blot显示ABRA在新生鼠腰段脊髓中表达显著高于成年鼠及老年鼠。免疫荧光染色显示ABRA广泛表达于神经元的胞核、胞浆和突起,在腰髓前角,与前角运动神经元存在共定位,在腰髓后角,与小的NeuN阳性感觉神经元存在共定位。腰髓前角、后角的阳性细胞计数均显示新生鼠ABRA＋NeuN双阳性细胞占总ABRA阳性细胞百分比显著低于成年鼠及老年鼠。结论ABRA广泛表达于腰髓中的神经元,ABRA在新生鼠腰髓中表达最强,随年龄的增长呈现明显的时相变化,提示ABRA可能参与了腰髓中神经元的发育和成熟。     

Effect of Electroacupuncture on Neurotrophin Expression in Cat Spinal Cord after Partial Dorsal Rhizotomy

Neuroplasticity of the spinal cord following electroacupuncture (EA) has been demonstrated although little is known about the possible underlying mechanism. This study evaluated the effect of EA on expression of neurotrophins in the lamina II of the spinal cord, in cats subjected to dorsal rhizotomy. Cats received bilateral removal of L1–L5 and L7–S2 dorsal root ganglia (DRG, L6 DRG spared) and unilateral EA. They were sacrificed 7 days after surgery, and the L6 spinal segment removed and processed by immunohistochemistry and in situ hybridization histochemistry, to demonstrate the expression of neurotrophins. Significantly greater numbers of nerve growth factor (NGF) and neurotrophin-3 (NT-3) positive neurons, brain-derived neurotrophic factor (BDNF) immunoreactive varicosities and NT-3 positive neurons and glial cells were observed in lamina II on the acupunctured (left) side, compared to the non-acupunctured, contralateral side. Greater number of neurons expressing NGF mRNA was also observed on the acupunctured side. No signal for mRNA to BDNF and NT-3 was detected. The above findings demonstrate that EA can increase the expression of endogenous NGF at both the mRNA and protein level, and BDNF and NT-3 at the protein level. It is postulated that EA may promote the plasticity of the spinal cord by inducing increased expression of neurotrophins.     

NT-3 Expression in Spared DRG and the Associated Spinal Laminae as well as Its Anterograde Transport in Sensory Neurons Following Removal of Adjacent DRG in Cats

Neurotrophin-3 plays an important role in survival and differentiation of sensory and sympathetic neurons, sprouting of neurites, synaptic reorganization, and axonal growth. The present study evaluated changes in expression of NT-3 in the spinal cord and L6 dorsal root ganglion (DRG), after ganglionectomy of adjacent dorsal roots in cats. NT-3 immunoreactivity increased at 3 days post-operation (dpo), but decreased at 10 dpo in spinal lamina II after ganglionectomy of L1–L5 and L7–S2 (leaving L6 DRG intact). Conversely, NT-3 immunoreactivity decreased on 3 dpo, but increased on 10 dpo in the nucleus dorsalis. Very little NT-3 mRNA signal was detected in the spinal cord, despite the changes in NT-3 expression. The above changes may be related to changes in NT-3 expression in the DRG. Ganglionectomy of L1–L5 and L7–S2 resulted in increase in NT-3 immunoreactivity and mRNA in small and medium-sized neurons, but decreased expression in large neurons of L6 DRG at 3 dpo. It is possible that increased NT-3 in spinal lamina II is derived from anterograde transport from small- and medium-sized neurons of L6 DRG, whereas decreased NT-3 immunoreactivity in the nucleus dorsalis is due to decreased transport of NT-3 from large neurons in the DRG at this time. This notion is supported by observations on NT-3 distribution in the dorsal root of L6 after ligation of the nerve root. The above results indicate that DRG may be a source of neurotrophic factors such as NT-3 to the spinal cord, and may contribute to plasticity in the spinal cord after injury.     

E-cadherin expression in a particular subset of sensory neurons.

We found that the dorsal root ganglia (DRG) and trigeminal ganglia of mouse embryos express the E-cadherin cell-cell adhesion molecule and analyzed its expression profile. E-cadherin expression began around Embryonic Day 12 (E12) in these ganglia, thereafter increased, and persisted to the adult stage. This cadherin was expressed by 10 and 30% of DRG neurons in E17 and postnatal animals, respectively, as well as by satellite cells and some Schwann cells. E-cadherin-positive primary sensory fibers terminated only in a narrow region of the dorsal horn of the spinal cord, which was identified as part of lamina II by double-staining for E-cadherin and substance P or somatostatin. This E-cadherin expressing area of the spinal cord extended to part of the trigeminal nucleus in the medulla. These results showed that E-cadherin is expressed in a particular subset of primary sensory neurons which may have specific functional properties. We suggest that this adhesion molecule may play a role in the selective adhesion of sensory neuronal fibers.     

钙结合蛋白CR在坐骨神经压榨模型脊髓内的表达

目的：研究大鼠坐骨神经压榨模型的钙结合蛋白Calretinin（CR）在脊髓的时空变化规律,为探讨其在神经再生中的作用提供实验依据。方法：36只SD大鼠随机分为假手术对照组和坐骨神经压榨组,实验组压榨后分别存活1d到21d,免疫组化结合图像分析技术观察CR在脊髓分布和含量的变化。结果：在对照组,CR样阳性神经元主要分布于腰髓背角Ⅰ,Ⅱ层,Ⅲ～Ⅵ层只观察到一些散在分布的CR样阳性神经元,脊髓前角Ⅷ层和Ⅸ层内也可见一些多极的中间型阳性神经元。坐骨神经压榨1d后,分布于腰髓背角H层内的CR样阳性神经元比对照组有轻微增加。3d后,CR样阳性神经元与对照组相比没有明显改变。7d后,CR样阳性神经元有轻微的减少;14d后,CR的表达显著下降;至21d,CR的表达有所恢复,但仍低于7d纽。脊髓后角CR免疫阳性产物灰度值测定结果显示：术后14d后角CR表达最低,与对侧和对照组相比有统计学意义（P〈0．05）。结论：坐骨神经压榨后CR表达变化呈现一定的时空模式,为进一步揭示CR在神经系统疾病中的作用提供实验依据。     

肝细胞生长因子在正常大鼠腰段脊髓和背根神经节的表达

目的:观察肝细胞生长因子(hepatocyte growth factor,HGF)在大鼠脊髓和背根神经节(dorsal root ganglion,DRG)的表达。方法:取健康成年6只SD大鼠运用免疫组织化学染色技术检测HGF在腰段脊髓、背根神经节内的表达和分布。结果:在L4-6段脊髓,HGF免疫阳性产物可见于各板层神经元,尤以脊髓前角运动神经元明显;在DRG中,HGF免疫阳性物质可见于以大、中型为主的神经元的胞浆及突起中。结论:脊髓和背根神经节内的HGF通过与受体c-Met结合可能在神经再生及突触可塑性方面起一定作用。     

Nerve growth factor induces P2X(3) expression in sensory neurons

Glial cell line-derived neurotrophic factor (GDNF) and nerve growth factor (NGF) are neuroprotective for subpopulations of sensory neurons and thus are candidates for pain treatment. However, delivering these factors to damaged neurons will invariably result in undamaged systems also being treated, with possible consequences for sensory processing. In sensory neurons the purinergic receptor P2X(3) is found predominantly in GDNF-sensitive nociceptors. ATP signalling via the P2X(3) receptor may contribute to pathological pain, suggesting an important role for this receptor in regulating nociceptive function. We therefore investigated the effects of intrathecal GDNF or NGF on P2X(3) expression in adult rat spinal cord and dorsal root ganglia (DRG). In control spinal cords, P2X(3) expression was restricted to a narrow band of primary afferent terminals within inner lamina II (II(i)). Glial cell line-derived neurotrophic factor treatment increased P2X(3) immunoreactivity within lamina II(i) but not elsewhere in the cord. Nerve growth factor treatment, however, induced novel P2X(3) expression, with intense immunoreactivity in axons projecting to lamina I and outer lamina II and to the ventro-medial afferent bundle beneath the central canal. In the normal DRG, we found a greater proportion of P2X(3)-positive neurons at cervical levels, many of which were large-diameter and calcitonin gene-related peptide-positive. In both cervical and lumbar DRG, the number of P2X(3)-positive cells increased following GDNF or NGF treatment. De novo expression of P2X(3) in NGF-sensitive nociceptors may contribute to chronic inflammatory pain.     

Expression of pituitary adenylate cyclase activating peptide in the uterine cervix, lumbosacral dorsal root ganglia and spinal cord of rats during pregnancy

The uterine cervix is highly innervated by the sensory nerves containing neuropeptides which change during pregnancy and are regulated, in part, by estrogen. These neuropeptides act as transmitters both in the spinal cord and cervix. The present study was undertaken to determine the expression pattern of the neuropeptide pituitary adenylate cyclase activating peptide (PACAP) in the cervix and its nerves during pregnancy and the influence of estrogen on this expression using immunohistochemistry, radioimmunoassay and RT-PCR. PACAP immunoreactivity was detected in nerves in the cervix, lumbosacral (L6-S1) dorsal root ganglia (DRG) and spinal cord. PACAP immunoreactivity was highest at day 15 of pregnancy in the cervix and dorsal spinal cord, but then decreased over the last trimester of pregnancy. However, levels of PACAP mRNA increased in the L6-S1 DRG at late pregnancy relative to early pregnancy. DRG of ovariectomized rats treated with estrogen showed increased PACAP mRNA synthesis in a dose-related manner, an effect partially blocked by the estrogen receptor (ER) antagonist ICI 182,780. We postulate that synthesis of PACAP in L6-S1 DRG and utilization in the cervix and spinal cord increase over pregnancy and this synthesis is the under influence of the estrogen-ER system. Since PACAP is expressed by sensory nerves and may have roles in nociception and vascular function, collectively, these data are consistent with the hypothesis that sensory nerve-derived neuronal factors innervate the cervix and play a role in cervical ripening.