原位杂交检测大鼠前庭代偿中GAP-43 mRNA水平

用ＤＩＧ标记的ＧＡＰ－４３ｃＤＮＡ为探针,以大鼠海马切片作阳性对照,使用原位杂交方法检测了大鼠迷路损毁５,１２,２０和３０ｄ后前庭核区ＧＡＰ－４３ｍＲＮＡ水平的变化,结果表明,迷路损毁后前庭核区ｍＲＮＡ水平升高,原位杂交的应用,为前庭代偿中轴突发芽,突触重组的神经可塑性研究打下了方法学基础。     

迷路损伤增强大鼠前庭内侧核生长相关蛋白mRNA水平

前庭代偿是研究神经可塑性的一个理想模型。生长相关蛋白（ＧＡＰ－４３）在神经再生和突触重组中起重要作用。用ＤＩＧ标记的ＧＡＰ－４３ ｃＤＮＡ片段作探针进行原位杂交,检测了大鼠迷路损伤５、１２、２０和３０ｄ后前庭内侧核ＧＡＰ－ｍＲＮＡ表达的变化。结果表明,迷路损毁后两侧前庭内侧核ＧＡＰ－４３ｍＲＮＡ的水平以不同的幅度和时程明显升高。这一结果表示,ＧＡＰ－４３ｍＲＮＡ水平的提高可能与前庭代偿中突触重组和     

精氨酸酶Ⅰ参与环腺苷酸促进脑缺血再灌注大鼠的轴突再生

环腺苷酸（cAMP）作为细胞内的重要第二信使之一,主要通过激活下游cAMP依赖性蛋白激酶A（PKA）,进一步激活转录因子-cAMP效应元件结合蛋（CREB）,达到促进损伤轴突再生的作用.精氨酸酶Ⅰ主要是通过促进多胺的表达,从而克服髓鞘相关抑制因子对轴突再生的抑制作用,达到促进轴突再生的效果.在脑缺血中,cAMP促进轴突再生的过程是否有精氨酸酶Ⅰ的参与及其与RhoA信号通路的关系尚不清楚.本研究采用线栓法制备脑缺血再灌注模型（MACO）,采用Longa 5评分法对大鼠运动功能进行评分,利用逆转录聚合酶链反应（RT-PCR）和Western蛋白印迹方法分别检测缺血灶周边脑组织生长相关蛋白43（GAP-43）和RhoA的mRNA和蛋白表达,免疫组化法进行GAP-43的形态学检测,作为轴突再生的标志.通过尾静脉注射cAMP类似物db-cAMP增加脑缺血后大鼠脑组织内cAMP的浓度后发现：db-cAMP处理可明显降低MACO大鼠的运动功能评分,且可促进GAP-43 mRNA及蛋白的表达,抑制RhoA mRNA及蛋白的表达,由此可见db-cAMP处理可促进脑缺血后大鼠运动功能的恢复,且这一过程与抑制RhoA通路,进而促进轴突再生有关;通过在db-cAMP的基础上给予精氨酸酶Ⅰ拮抗剂NOHA来降低精氨酸酶Ⅰ的活性发现：给予NOHA的大鼠运动功能评分明显增加,这一变化趋势与RhoA mRNA及蛋白表达的变化趋势相一致,而与GAP-43 mRNA及蛋白表达的变化趋势相反. 因此可推断：精氨酸酶Ⅰ参与了db-cAMP促进轴突再生、改善脑缺血后大鼠运动功能的过程,且与钝化RhoA通路有关.     

运动训练对大鼠局灶性脑梗死区周边皮质GFAP、GAP-43表达的影响

目的:观察运动训练对大鼠局灶性脑梗死区周围皮质的胶质纤维酸性蛋白(glial fibrillary acidic protein,GFAF)和生长相关蛋白-43(growth-associated protein,GAP-43)表达的影响.方法:成年健康雄性sD大鼠42只,随机分为3组:运动组,静止组,假手术对照组.运动组造模后给予电动跑台训练,每天30min;静止组造模后置于普通笼中饲养,不予康复训练;假手术对照组仅给予麻醉及头皮切开、缝合.采用光化学方法建立局灶性脑梗死模型,每组大鼠于术后7d,14d,21d处死,应用免疫组化方法观察各组大鼠不同时期梗死灶周围皮质GFAP和GAP-43的表达结果:运动组梗死灶周围皮质GFAP的表达在14d和21d显著高于静止组和假手术对照组.运动组大鼠GAP-43表达在7d为最高,14d后开始下降,但均显著高于静止组和假手术对照组.静止组大鼠GAP-43表达在7d和14d高于假手术对照组.21d时三组大鼠GAP-43表达无明显差异.结论:运动训练能促进梗死灶周围皮质GFAP和GAP-43的表达,促进脑缺血后的突触发生与重建.     

银杏叶提取物对大鼠前庭代偿过程中运动平衡能力恢复的影响

采用转动横梁装置定量观测银杏叶提取物（ｅｘｔｒａｃｔｏｆＧｉｎｋｇｏｂｉｌｏｂａ,ＥＧｂ）对前庭代偿中大鼠运动平衡能力恢复的影响。１材料和方法雄性Ｗｉｓｔａｒ大鼠１７只,体重约２００ｇ,单侧迷路损毁后分为２组：不给药对照组８只,给药组（ＥＧｂ,５０ｍ...     

大鼠脑缺血/再灌注后bFGF和GAP-43的表达与神经再生

目的:观察大鼠脑缺血/再灌注后不同时间段碱性成纤维生长因子(bFGF)和生长相关蛋白43(GAP-43)表达与神经元再生的变化,探讨其与神经再生的有关机制。方法:建立大鼠大脑中动脉阻塞模型(MCAO),并分为缺血再灌注3 d、7 d、14 d和28 d四组(n=6)。以神经损伤严重程度评分(NSS),运动评分测试(SMT)评估神经功能缺损程度,Nissl和TUNEL染色法观察不同时段缺血区周边组织神经元存活和凋亡情况,应用蛋白免疫印迹法和免疫荧光双标法检测缺血/再灌注后不同时段缺血区周边组织bFGF和GAP-43的表达水平和神经元再生的变化情况。结果:大鼠脑缺血/再灌注后3 d,大鼠出现了明显的神经功能缺损及运动功能障碍,缺血区周边组织神经元凋亡亦达到高峰,同时bFGF和GAP-43表达增强,7 d达到高峰,以后逐渐减弱,缺血周边组织可见散在的新生神经元,持续到28 d。结论:大鼠脑缺血/再灌注后内源性bFGF和GAP-43表达水平增加,可能与其神经修复和再生有关。     

单侧迷路破坏后大鼠前庭神经内侧核区氨基酸含量的变化

本实验用脑部微量透析法和高效液相色谱法观察单侧迷路破坏(unilateral labyrinthectomy,经利多卡因或对氨基苯胂酸盐预处理以阻断单侧外周前庭器官)后大鼠同侧及对侧前庭神经内侧核(medial vestibular nucleus,MVN)区部分氨基酸(天冬氨酸、谷氨酸、谷氨酰胺、甘氨酸、牛磺酸和丙氨酸)含量的变化,以了解前庭代偿的部分神经化学机制.实验观察到,对照组大鼠MVN区天冬氨酸、谷氨酸、谷氨酰胺、甘氨酸、牛磺酸和丙氨酸浓度分别为(6.15±0.59),(18.13±1.21),(33.73±1.67),(9.26±0.65),(9.56±0.77)和(10.07±0.83)pmol/8 μL透析样本.左侧中耳内灌注2%利多卡因后10 min,同侧MVN区天冬氨酸、谷氨酸含量立即减少(P＜0.05),牛磺酸含量增加(P＜0.05);对侧MVN区谷氨酸含量立即增加(P＜0.05),甘氨酸和丙氨酸含量减少;双侧核团间谷氨酸、甘氨酸和丙氨酸含量失衡.而用对氨基苯胂酸盐永久阻断单侧前庭器官2周后,同侧MVN区谷氨酸和丙氨酸含量减少,谷氨酰胺含量增高;对侧MVN区谷氨酸含量也减少;同侧MVN区谷氨酰胺含量明显高于对侧MVN区.结果提示,单侧迷路破坏后双侧MVN区氨基酸含量立即失去平衡,随着前庭代偿的进展,此差异减少,但是在前庭代偿后却出现双侧前庭核区谷氨酰氨的含量失衡,说明在前庭代偿过程中氨基酸含量变化起着重要作用.     

大鼠前庭内侧核在前庭—交感反应中的作用

实验在氯醛糖和尿酯混合麻醉的大鼠上进行。在内脏大神经上记录刺激同侧前庭神经进入脑干处的交感反应。电刺激前庭神经可在同侧内脏大神经引出—明确的叠加反应,其平均潜伏期为45.8±6.98ms,时程为55.21±5.35ms。增加刺激强度,反应幅度也增加,但潜伏期不变。用前庭内侧核(NVM)的片层场电位作为指标并选择其相位倒转处作刺激点,可在同侧内脏大神经记录到潜伏期为32ms 的叠加反应,而同一动物刺激前庭神经入脑处时内脏大神经反应的潜伏期为43ms。在 NVM 头端损毁后,此前庭-交感反应明显减小,再损毁尾端 NVM 后,此反应消失。损毁 Deiters 核对前庭-交感反应无影响。这些结果表明 NVM在内脏大神经记录到的前庭-交感反应中是一重要的中继站。     

化学损毁交感神经后大鼠心内神经节生长抑素的变化

应用免疫组织化学和原位杂交方法研究了大鼠心内神经节细胞中SS的分布及其mRNA表达。结果发现,大鼠心内神经节中有SS－IR阳性神经纤维和细胞,心内神经部分细胞浆中有SSmRNA表达,表明大鼠心内神经节细胞有SS合成和贮存。用小剂量6－OH－DA选择性损毁心内交感神经纤维后,心内神经节中SS－IR阳性神经纤维和细胞的积分光密度均有不同程度增强,反映了心内交感神经和付交感神经的相互抑制作用。     

切断海马伞对大鼠硬性脑挫伤后运动行为恢复的影响

硬性挫伤运动皮层诱发大鼠偏瘫及其随后的行为代偿是研究中枢神经可塑性的一个理想模型。本工作观察了切断海马伞对脑挫伤后行为恢复的影响。结果表明：与对照组相比,(1)切断海马伞—穹隆通路明显延缓了大鼠运动平衡能力的恢复;(2)切断海马伞—穹隆通路后,银杏类黄酮(FGb)失去了促进脑挫伤后运动平衡能力恢复的作用;(3)原位杂交显示,脑损伤后海马DG(齿状回)和CA3区中生长相关蛋白(GAP—43)mRNA的水平明显提高;(4)FGb促进脑损伤后海马DG和CA3区中的GAP—43mRNA水平的上调。这些信息提示,海马参与脑硬性挫伤后的运动代偿,FGb促进脑损伤后的运动行为的恢复可能与海马相关[动物学报49(2)：211-217,2003]。     

Depressed neuronal growth associated protein (GAP)-43 expression in the small intestines of mice experimentally infected with Neodiplostomum seoulense

Neodiplostomum seoulense (Digenea: Neodiplostomidae) is an intestinal trematode that can cause severe mucosal pathology in the small intestines of mice and even mortality of the infected mice within 28 days after infection. We observed neuronal growth associated protein-43 (GAP-43) expression in the myenteric plexus of the small intestinal wall of N. seoulense-infected mice until day 35 post-infection (PI). BALB/c mice were infected with 200 or 500 N. seoulense metacercariae isolated from naturally infected snakes and were killed every 7 days for immunohistochemical demonstration of GAP-43 in the small intestines. N. seoulense-infected mice showed remarkable dilatation of intestinal loops compared with control mice through days 7-28 PI. Conversely, GAP-43 expression in the mucosal myenteric plexus was markedly (P<0.05) reduced in the small intestines of N. seoulense-infected mice during days 7-28 PI and was slightly normalized at day 35 PI. From this study, it is evident that neuronal damage occurs in the intestinal mucosa of N. seoulense-infected mice. However, the correlation between intestinal pathology, including the loop dilatation, and depressed GAP-43 expression remains to be elucidated.     

Connexin 43 coupling in bovine cumulus cells,during the follicular growth phase,and its relationship to in vitro embryo outcomes

Gap junctional coupling between cumulus cells is required for oocytes to reach developmental competence. Multiple connexins, which form these gap junctions, have been found within the ovarian follicles of several species including bovine. The aim of this study was to determine the role of connexin 43 (CX43) and its relationship to embryo development, after in vitro fertilization (IVF). Cumulus?oocyte complexes (COCs) were obtained from abattoir sourced, mixed breed, bovine ovaries. COCs were isolated from follicles ranging from 2 to 5 mm in size, representing the preselected follicle pool. Immediately after isolation, two cumulus cell biopsies were collected and stored for analysis pending determination of developmental outcomes. Using in vitro procedures, COCs were individually matured, fertilized, and cultured to the blastocyst stage. Biopsies were grouped as originating from COCs that arrested at the two‐cell stage (low developmental competence [LDC]) or having developed to the late morula/blastocyst stage (high developmental competence [HDC]), after IVF and embryo culture. The expression level of CX43 was found to be significantly higher in cumulus cells from COCs that had an HDC when compared with those that had an LDC. Moreover, the gap junctional intercellular coupling rate was significantly higher in cumulus from COCs deemed to have an HDC. Significantly higher expression of the cumulus health markers luteinizing hormone receptor and cytochrome p450 19A1 was found in the cumulus originating from oocytes with HDC, suggesting that this system may provide a mechanism for noninvasively testing for oocyte health in preselected bovine follicles.     

Drivers of Hsp104 potentiation revealed by scanning mutagenesis of the middle domain

Hsp104, a yeast protein disaggregase, can be potentiated via numerous missense mutations at disparate locations throughout the coiled‐coil middle domain (MD). Potentiated Hsp104 variants can counter the toxicity and misfolding of TDP‐43, FUS, and α‐synuclein, proteins which are implicated in neurodegenerative disorders. However, potentiated MD variants typically exhibit off‐target toxicity. Further, it has remained confounding how numerous degenerate mutations confer potentiation, hampering engineering of therapeutic Hsp104 variants. Here, we sought to comprehensively define the key drivers of Hsp104 potentiation. Using scanning mutagenesis, we iteratively studied the effects of modulation at each position in the Hsp104 MD. Screening this library to identify enhanced variants reveals that missense mutations at 26% of positions in the MD yield variants that counter FUS toxicity. Modulation of the helix 2–helix 3/4 MD interface potentiates Hsp104, whereas mutations in the analogous helix 1–2 interface do not. Surprisingly, we find that there is a higher likelihood of enhancing Hsp104 activity against human disease substrates than impairing Hsp104 native function. We find that single mutations can broadly destabilize the MD structure and lead to functional potentiation, suggesting this may be a common mechanism conferring Hsp104 potentiation. Using this approach, we have demonstrated that modulation of the MD can yield engineered variants with decreased off‐target effects.     

肠膜明串珠菌右旋糖苷蔗糖酶的研究进展

综述了肠膜明串珠菌(Leuconostoc mesnteroides)右旋糖苷蔗糖酶结构、作用机制、基因克隆与表达研究进展。     

Phosphorylation of TAR DNA-binding Protein of 43 kDa (TDP-43) by Truncated Casein Kinase 1δ Triggers Mislocalization and Accumulation of TDP-43

Intracellular aggregates of phosphorylated TDP-43 are a major component of ubiquitin-positive inclusions in the brains of patients with frontotemporal lobar degeneration and ALS and are considered a pathological hallmark. Here, to gain insight into the mechanism of intracellular TDP-43 accumulation, we examined the relationship between phosphorylation and aggregation of TDP-43. We found that expression of a hyperactive form of casein kinase 1 δ (CK1δ1-317, a C-terminally truncated form) promotes mislocalization and cytoplasmic accumulation of phosphorylated TDP-43 (ubiquitin- and p62-positive) in cultured neuroblastoma SH-SY5Y cells. Insoluble phosphorylated TDP-43 prepared from cells co-expressing TDP-43 and CK1δ1-317 functioned as seeds for TDP-43 aggregation in cultured cells, indicating that CK1δ1-317-induced aggregated TDP-43 has prion-like properties. A striking toxicity and alterations of TDP-43 were also observed in yeast expressing TDP-43 and CK1δ1-317. Therefore, abnormal activation of CK1δ causes phosphorylation of TDP-43, leading to the formation of cytoplasmic TDP-43 aggregates, which, in turn, may trigger neurodegeneration.     

A comparative study into the chemical constitution of cutins and suberins from Picea abies (L.) Karst., Quercus robur L., and Fagus sylvatica L.

The compositions of BF₃/CH₃OH depolymerisates of cutins and suberins from leaf and periderm samples from Picea abies [L.] Karst., Quercus robur L., and Fagus sylvatica L., respectively, were determined by quantitative capillary gas chromatography/mass spectroscopy. Long-chain monobasic, -hydroxymonobasic, dihydroxymonobasic, trihydroxymonobasic and epoxyhydroxymonobasic alkanoic acids constituted the major aliphatic monomers of leaf cutins. The total amounts of cutin monomers ranged from 629 mg · m^–2 (Fagus) to 1350 mg · m^–2 (Quercus). Cutin composition and amounts did not significantly differ between current year and three-year-old needles of Picea. Trans-esterification of periderm samples yielded a much greater variety of aliphatic monomers than obtained from cutins. In addition to the substance classes found with cutins, suberin depolymerisates also contained , -dibasic acids while dihydroxymonobasic acids were lacking. Depolymerisates from periderms taken from different locations on a Picea tree did not differ significantly in their relative composition. The results are discussed in terms of the distinctive characteristics of the aliphatic portions of cutins and suberins, respectively. Discriminant analysis is applied for formulating a quantitative and inarbitrary classification rule for cutins and suberins. The precision, statistical significance and robustness of this classification rule are tested by employing it to a large set of compositional data (70 plant species) from the literature. The relevance of data obtained by depolymerization methods for elucidating the physical structure of cutins and suberins in situ is evaluated.To whom correspondence should be addressedThe authors are indebted to Drs. J. Winkler and H. Krause (Laboratorium für Strukturchemie des Fachbereichs Chemie, Biologie und Geowissenschaften, Technische Universität München, Garching, FRG) for performing capillary gas chromatography-mass spectrometry and their valuable help in the identification of cutin and suberin constituents. The work was supported by grants from the Deutsche Forschungsgemeinschaft and the Bayerisches Staatsministerium für Unterricht, Kultus, Wissenschaft und Kunst.     

Neuropeptide Y-like immunoreactivity in the cardiovascular nerve plexus of the elasmobranchs Raja erinacea and Raja radiata

Summary The distribution of nerves showing neuropeptide Y (NPY)-like immunoreactivity in the cardiovascular system of elasmobranchs and teleosts has been investigated. Two species of teleosts, the rainbow trout (Salmo gairdneri) and the Atlantic cod (Gadus morhua), and three species of elasmobranchs, the spiny dogfish (Squalus acanthias), the little skate (Raja erinacea) and the starry ray (Raja radiata), were used in this study. An innervation of the cardiovascular system by an NPY-like substance was found only in the two species of Raja. A rich innervation was encountered in these skates, with the highest density of fibres in the wall of the ventricle, the conus arteriosus, the coeliac artery and smaller mesenterial vessels. In the vessels, the fibres formed a plexus at the adventitio-mediol border. Few fibres were found in the walls of the dorsal aorta, the sinus venosus and the atrium, and no fibres were observed in the walls of the ventral aorta. Falck-Hillarp fluorescence histochemistry showed the presence of a rich innervation of arteries and arterioles of the gut by catecholamine-containing nerve fibres.