大鼠中缝隐核增强dPAG诱导的vPAG的c－Fos表达及对vPAG神经元放电的影响

本实验通过Ｐｏｓ免疫细胞化学、电生理及微量注射法对中缝隐核（ＮＲＯ）的交感抑制作用的相关途径进行探讨。实验在成巴比妥钠或α－氯醛糖和氨基甲酸乙脂麻醉的Ｓｐｒａｇｕｅ－Ｄａｗｌｅｙ（ＳＤ）大鼠上进行。同时予以ＮＲＯ,中脑导水管周围灰质背侧部（ｄＰＡＧ）方波脉冲串刺激,诱导中脑和延髓的ｃ－Ｆｏｓ表达。刺激ＮＲＯ过程中,基础血压升高（Ｐ＜０．０５）,刺激ｄＰＡＧ引起的防御性升压反应则减少（Ｐ＜０．０１）;中脑导水管周围灰质腹侧部（ｖＰＡＧ）、巨细胞旁外侧核（ＰＧＬ）的Ｆｏｓ样免疫阳性反应（ＦＬＩ）细胞计数分别为６６．５±８．３和１０．８±１．５（刺激ＮＲＯ＋ｄＰＡＧ组）,较单独刺激ｄＰＡＧ组明显增加,Ｐ值分别小于０．０１和０．００１;单或双脉冲刺激中缝隐核在ｖＰＡＧ可以记录到相关单位,其中８４％为兴奋单位,抑制单位占１６％。双侧ｖＰＡＧ内微量注射利多卡因（每侧２μｇ／０．１μｌ）,基础血压无明显变化,而刺激ＮＲＯ引起的降压反应幅度减小（Ｐ＜０．０１）,提示,延髓腹外侧区（ＶＬＭ）、ＮＲＯ存在不同功能分化的神经元;ＮＲＯ可能有向ｖＰＡＧ的兴奋性投射,此投射可加强ＮＲＯ的交感抑制效应。     

中缝隐核投射至中脑导水管周围灰质腹侧部的递质分析

实验在戊巴比妥钠麻醉大鼠上进行。双侧中脑导水管周围灰质腹侧部（ｖＰＡＧ）微量注射１μｇ／μｌ肾上腺素（每侧０．１μｌ）,刺激中缝隐核（ＮＲＯ）引起的降压反应明显增强,但该效应可被ｖＰＡＧ预先注射心得安所阻断,而注射酚妥拉明对上述效应无明显影响;ｖＰＡＧ内单独微量注射１μｇ／μｌ心得安（每侧０．１μｌ）,可部分阻断ＮＲＯ降压反应,而注射１μｇ／μｌ酚妥拉明（每侧０．１μｌ）无明显影响;双侧ｖＰＡＧ微量注射１０μｇ／μｌ吗啡或０．１ｍｏｌ／Ｌ５－ＨＴ（每侧０．１μｌ）,基础血压无明显变化,ＮＫＯ的降压反应幅度减小（Ｐ＜０．０５）。提示,ＮＫＯ对ｖＰＡＧ的兴奋作用的可能递质为肾上腺素,通过β受体介导;吗啡或５－ＨＴ则可减弱ＮＲＯ对ｖＰＡＧ的兴奋性投射作用。     

SNP抑制5-HT诱导的胞内游离钙浓度升高和内钙释放

用Ｆｕｒａ － ２／ＡＭ 荧光测量技术研究了５ － 羟色胺（５－ ＨＴ） 诱导的大鼠尾动脉平滑肌细胞胞内钙升高和一氧化氮（ＮＯ） 的抑制效应。实验表明, 胞外０ｍ ｍｏｌ／ Ｌ Ｃａ２ ＋ 时胞内静息［Ｃａ２ ＋ ］ ｉ 为２０ ．２±８ ．６ｎｍｏｌ／Ｌ（ｎ ＝ ８） 。１０μｍｏｌ／Ｌ ５－ ＨＴ 可诱导出胞内钙库释放引起的瞬态［Ｃａ２ ＋］ｉ 升高,其峰值达２４５ ．７ ±７１．６ｎｍｏｌ／ Ｌ（ｎ ＝ ６） 。１０ － ７ ｍｏｌ／Ｌ 硝普钠（ＳＮＰ） 可抑制５－ ＨＴ 诱导的［Ｃａ２ ＋］ｉ 升高,其峰值浓度降为７５．１±３５ ．９ｎｍｏｌ／Ｌ（ｎ ＝ ５） 。当细胞浴液含２．５ｍ ｍｏｌ／Ｌ Ｃａ２ ＋ 时,静息［Ｃａ２ ＋］ｉ为１１２ ．８ ±１０ ．３ｎｍｏｌ／ Ｌ（ｎ ＝ ５） , 这时１０μｍｏｌ／ Ｌ ５ － ＨＴ 可诱导［Ｃａ２ ＋ ］ ｉ 的峰值为２５２ ．３ ±８０ ．６ｎｍｏｌ／Ｌ（ｎ ＝ ４） ,以及其后平台浓度为１４３ ．０ ±３７ ．６ｎｍｏｌ／Ｌ（ｎ ＝ ４） ,略大于［Ｃａ２ ＋］ｉ 为１１２．８ ±１０ ．３ｎｍｏｌ／Ｌ 的静息浓度,为外钙内流引起。１０ － ７ ｍｏｌ／Ｌ ＳＮＰ 也可抑制５－ ＨＴ 诱导［Ｃａ２ ＋ ］ｉ 平台相浓度。平台浓度由１４３ ±４７     

CCK－8和NDAP对大鼠脑和脊髓组织c－fos表达的影响

为探讨八肽胆囊收缩素（ＣＣｋ－８）和阿片肽相互作用的分子机理,利用抗体免疫沉淀技术研究了ＣＣＫ－８与ＮＤＡＰ（ｋ阿片受体激动剂）对大鼠脑（去皮层和小脑）和脊髓背柱组织Ｆｏｓ蛋白的影响。结果表明,０．１μｍｏｌ／ＬＣＣＫ－８可显著刺激脑和脊髓组织中Ｆｏｓ蛋白增加（分别是对照组的３．８倍和３．６倍）。相同浓度的ＮＤＡＰ对Ｆｏｓ蛋白的生成亦有一定的诱导作用,分别是对照组的２．７倍和２．６倍。ＣＣＫ－８和ＮＤＡＰ共同处理组织,Ｆｏｓ蛋白生成水平相似（脑）或高于（脊髓）ＣＣＫ~－８单独诱导的水平。结果表明,ＣＣＫ－８和ＮＤＡＰ均可直接诱导大鼠脑和脊髓组织ｃ－ｆｏｓ的表达,它们对ｃ－ｆｏｓ表达的相互作用在脑和脊髓中呈现不同的模式。     

内皮素和bFGF对MC的促增殖作用及胰岛素的协同效应

采用３Ｈ－ＴｄＲ参入法,测定碱性成纤维细胞生长因子（ｂＦＧＦ）、胰岛素和内皮素－１（ＥＴ－１）对体外培养的大鼠肾小球系膜细胞（ＭＣ）增殖的影响,以及胰岛素与ｂＦＧＦ或ＥＴ－１促ＭＣ增殖的协同作用。结果表明,不同浓度的ｂＦＧＦ（５－２００ｎｇ／ｍｌ）和胰岛素（０．１－２．４Ｕ／ｍｌ）均显著升高ＭＣ的３Ｈ－ＴｄＲ参入值（ｃｐｍ值）（Ｐ＜０．０１）。ＥＴ－１对ＭＣ的ｃｐｍ值的影响依剂量不同呈现两种不同的效应,在１０－９－１０－７ｍｏｌ／Ｌ时,随着浓度的升高,ＭＣ的ｃｐｍ值明显升高（Ｐ＜０．０１）,并以１０－８ｍｏｌ／Ｌ作用最强;当升高到１０－６ｍｏｌ／Ｌ时,ＭＣ的ｃｐｍ值出现降低趋势。胰岛素与ｂＦＧＦ或低浓度ＥＴ－１（≤１０－８ｍｏｌ／Ｌ）共同作用于ＭＣ时,ＭＣ的ｃｐｍ值明显高于二者单独作用之和（Ｐ＜０．０１）,与高浓度ＥＴ－１（＞１０－７ｍｏｌ／Ｌ）共同作用于ＭＣ时,ＭＣ的ｃｐｍ值小于二者单独作用之和（Ｐ＞０．０５）。上述结果说明,胰岛素、ｂＦＧＦ和ＥＴ－１均能显著促进ＭＣ增殖;胰岛素与ｂＦＧＦ或低浓度的ＥＴ－１促ＭＣ增殖具有正协同作用,与高浓度ＥＴ－１呈现负协同作用。     

贻贝(Mytilus edulis)核型及染色体带型分析

本文对贻贝染色体进行了核型分析,其结果为：２ｎ＝２８,１２ｍ＋１０ｓｍ＋６ｓｔ,ＮＦ＝５０,ＴＣＬ＝ １０３．９０μｍ,ＣＬ：２．７３５－４．７７４μｍ。第１、２、４、８、１１、１２对为中部着丝粒染色体（ｍ）;第６、９、１０、１３、１４对 为亚中部着丝粒染色体（ｓｍ）;第 ３、５、７对为亚端部着丝粒染色体（ｓｔ）。对贻贝染色体的Ｇ带、Ｃ带、银 染带进行了分析。银染结果表明,贻贝细胞中有四个银染核仁组织区（Ａｇ－ＮＯＲｓ）,分布在第 ３、５对染 色体长臂末端。     

一组丝瓜籽小分子核糖体失活蛋白LuffinS的分离、纯化和性质

通过硫酸铵分级沉淀、ＣＭ－５２阳离子交换层析、ＨＲＬＣ分子排阻层析及ＦＰＬＣＭｏｎｏＳ离子交换层析等步骤,从丝瓜籽中分离到一组分子量为８ｋＤ左右的小分子核糖体失活蛋白——ＬｕｆｉｎＳ１、ＬｕｆｉｎＳ２、ＬｕｆｉｎＳ３。末端分析结果表明,它们的Ｎ端氨基酸分别为Ａｌａ、Ｐｒｏ和Ｔｈｒ。氨基酸序列分析确定了ＬｕｆｉｎＳ２的Ｎ端９个氨基酸的序列是Ｐｒｏ－Ａｒｇ－Ａｒｇ－Ｇｌｙ－Ｇｌｎ－Ｇｌｕ－Ａｌａ－Ｐｈｅ－Ａｓｐ。ＬｕｆｉｎＳｓ对核糖体的失活机制与天花粉蛋白（ＴＣＳ）一致,是ＲＮＡＮ－糖苷酶催化型的。它们对无细胞蛋白质生物合成的抑制活性较ＴＣＳ略强,ＩＣ５０分别为１．３×１０－１１、１．０×１０－１０和６．３×１０－１１ｍｏｌ／Ｌ左右。因此ＬｕｆｉｎＳｓ有可能开发成免疫毒素的高效“弹头”。     

辣椒素引起脑干内心血管活动相关核团中c-fos的表达

在１６只切断两侧缓冲神经的大鼠,观察颈总动脉注射辣椒素对脑干内心血管活动相关核团ｃ－ｆｏｓ原癌基因表达的影响。在剂对照组大鼠脑干,仅见少数Ｆｏｓ蛋白样免疫反应（ＦＬＩ）神经元。与对照组相比,颈总动脉注射辣椒素（１０μｍｏｌ,０．１ｍｌ）时,脑干内巨细胞旁外侧核（ＰＧＬ）、蓝斑（ＬＣ）、最后区（ＡＰ）和孤束核（ＮＴＳ）等部位的ＦＬＩ神经元显著增加,而中脑中央灰质（ＰＡＧ）和中缝核群（ＲＮ）的ＦＬＩ神     

慈菇（Sagittaria safittifolia）α－半乳糖苷酶的纯化与性质

以对硝基苯糖苷基为底物,测定了慈菇的１２种糖苷酶,其中α－甘露糖苷酶、α－和β－半乳糖苷酶活力较高;经硫酸铵分级沉淀,ＳｅｐｈａｄｅｘＧ－１５０分子筛层析,ＣｏｎＡＳｅｐｈａｒｏｓｅ４Ｂ亲和层析,ＤＥＡＥ－ＳｅｐｈａｒｏｓｅＣＬ－６Ｂ离子交换层析,从慈菇抽提液纯化了α－半乳糖苷酶。纯化酶的比活提高１０７２倍,活力回收１５．６％,在圆盘聚丙烯酰胺凝胶电泳和ＳＤＳ－ＰＡＧＥ上均显示１条蛋白质带,在α－半乳糖苷酶浓度为１５０ｍＵ／ｍｌ的溶液中测不到其他糖苷酶的活力。慈菇α－半乳糖苷酶的分子量用ＳｅｐｈａｄｅｘＧ－１００凝胶过滤柱测定或在ＳＤＳ－ＰＡＧＥ上测定均为６０ｋＤ,酶反应的最适ｐＨ在５．８附近,最适温度为６０℃。该酶分解对硝基苯基－α－半乳糖苷的Ｋ＿ｍ值为３．７×１０￣（－４）ｍｏｌ／Ｌ,Ｖ＿ｍ值为２．１×１０￣（－４）ｍｏｌ／Ｌ。银离子、汞离子显著抑制酶活力,Ｄ－半乳糖和密二糖均竞争性地抑制该酶水解对硝基苯基α－Ｄ－半乳糖苷的活力,根据Ｄｉｘｏｎ作图求得其Ｋ＿ｉ值分别为０．９２×１０￣（－３）ｍｏｌ／Ｌ和１．９８×１０￣（－３）ｍｏｌ／Ｌ。２－脱氧－Ｄ－半乳糖和Ｌ－岩藻糖为酶活力的非竞争性抑制剂。化学修饰     

钙调素拮抗剂对人肺癌细胞增殖抑制及与cAMP信号系统相关性之初探

对钙调素（ＣａＭ）拮抗剂—三氟拉嗪（ｔｒｉｆｌｕｏｐｅｒａｚｉｎｅ,ＴＦＰ）在人肺癌细胞ＰＬＡ８０１的增殖抑制中的作用和ＣａＭ与ｃＡＭＰ信号系统水平的变化进行了研究．用５、１０、１５和２０μｍｏｌ／ＬＴＦＰ处理人肺癌细胞时观察到ＴＦＰ在抑制细胞内ＣａＭ活性的同时,抑制了细胞的增殖．药物处理的细胞在软琼脂中形成的集落数减少且明显小于对照组细胞．使用流式细胞光度术分析细胞周期的结果表明：１０μｍｏｌ／ＬＴＦＰ处理抑制了Ｇ１期细胞向Ｓ期的转移．当用１０μｍｏｌ／ＬＴＦＰ作用细胞５ｍｉｎ时,细胞内ｃＡＭＰ水平达到正常水平的１．８倍,直到３ｈ仍明显高于正常水平．同时,ｃＡＭＰ依赖的ＰＫＡ的活性在加药后１５ｍｉｎ上升到正常水平的２．８倍,直到加药３ｈ．活性仍保持较高水平,结果表明：钙调素功能的抑制,提高了ＰＬＡ－８０１细胞内ｃＡＭＰ系统的水平,Ｃａ２＋－ＣａＭ和ｃＡＭＰ－ＰＫＡ两个信号系统的协调作用,抑制了细胞的增殖     

Hyaluronate degradation in 3T3 and simian virus-transformed 3T3 cells

The cellular control of hyaluronate levels was examined in cultures of simian virus 40-transformed 3T3 (SV3T3) and 3T3 cells which are known to differ in their metabolism of hyaluronate. When [3H]hyaluronate was added to cultures of the two cell lines, four times more ligand was bound per mg of protein by the SV3T3 cells than by the 3T3 cells. Of the bound [3H] hyaluronate, 40% was degraded by the SV3T3 cells to oligosaccharides characteristic of the breakdown of hyaluronate, but only 2% was degraded by 3T3 cells. Hyaluronidase activity was found in the cell layer and medium of the SV3T3 cultures, but was not detectable in 3T3 cells. The SV3T3 enzyme was active only at acidic pH, but at neutral pH the secreted SV3T3 hyaluronidase was thermally more stable then the cell-associated enzyme. In contrast, both cell lines were found to contain similar amounts of beta-glucuronidase and beta-N-acetylglucosaminidase activity. We conclude that the elevated capacity of SV3T3 cells to degrade hyaluronate may be partially responsible for their lack of the hyaluronate-containing pericellular coat which is prominent around 3T3 cells.     

Cell density and amino acid transport in 3T3, SV3T3, and SV3T3 revertant cells

The transport of selected neutral and cationic amino acids has been studied in Balb/c 3T3, SV3T3, and SV3T3 revertant cell lines. After properly timed preincubations to control the size of internal amino acid pools, the activity of systems A, ASC, L, and Ly⁺ has been discriminated by measurements of amino acid uptake (initial entry rate) in the presence and absence of sodium and of transportspecific model substrates. L-Proline, 2-aminoisobutyric acid, and glycine were primarily taken up by system A; L-alanine and L-serine by system ASC; L-phenylalanine by system L; and L-lysine by system Ly⁺ in SV3T3 cells. L-Proline and L-serine were also preferential substrates of systems A and ASC, respectively, in 3T3 and SV3T3 revertant cells. Transport activity of the Na⁺-dependent systems A and ASC decreased markedly with the increase of cell density, whereas the activity of the Na⁺-independent systems L and Ly⁺remained substantially unchanged. The density-dependent change in activity of system A occurred through a mechanism affecting transport maximum (V_max) rather than substrate concentration for half-maximal velocity (K_m). Transport activity of systems A and ASC was severalfold higher in transformed SV3T3 cells than in 3T3 parental cells at all the culture densities that could be compared. In SV3T3 revertant cells, transport activity by these systems remained substantially similar to that observed in transformed SV3T3 cells. The results presented here add cell density as a regulatory factor of the activity of systems A and ASC, and show that this control mechanism of amino acid transport is maintained in SV40 virus-transformed 3T3 cells that have lost density-dependent inhibition of growth, as well as in SV3T3 revertant cells that have resumed it.     

3-Bromo-3-deazaneplanocin and 3-bromo-3-deazaaristeromycin: Synthesis and antiviral activity

As an outgrowth of our program to explore 3-deazaadenine carbocyclic nucleosides, 3-bromo-3-deazaneplanocin (5) and 3-bromo-3-deazaaristeromycin (6) have been synthesized from a readily available cyclopentenol and cyclopentanone and either 4-amino- or 4-chloro-1H-imidazo[4,5-c]pyridine (6-amino- or 6-chloro-3-deazaadenine) in 5 steps and 7 steps, respectively. Antiviral analysis found 5 to display significant activity towards a number of (-)-ssRNA and a few dsDNA viruses. Compound 6 was less active than 5 against selected examples of those viruses affected by 5.     

Ether-linked lipids of Balb/c3T3, SV3T3 and concanavalin A-selected SV3T3 revertant cells

Ether-linked lipids were analyzed in Balb/c3T3, SV3T3 and Concanavalin A-selected SV3T3 revertant cells. The three cell lines were found to contain significant quantities of alk-1-enyl- and alkyl-linked phosphatidylethanolamine (PE) and phosphatidylcholine (PC) and small amounts of alkyldiacylglycerols. Compared to 3T3 cells, SV3T3 cells contain a higher amount of alk-1-enyl-linked PC, while in SV3T3 revertant cells the concentrations of the various ether lipids are similar to those of 3T3 cells. The major difference in the composition of ether groups of SV3T3 cells, compared to 3T3 cells, is an increase of 18:0 accompanied by a decrease of 18:1 in the alk-1-enyl-linked PE and PC. Alk-1-enyl-linked PC of SV3T3 revertant cells also shows an increase of 18:0, while the decrease of 18:1 was not statistically significant.     

Protein degradation in 3T3 cells and tumorigenic transformed 3T3 cells

To study the relation of overall rates of protein degradation in the control of cell growth, we determined if transformation of fibroblasts to tumorigenicity affected their rates of degradation of short- and long-lived proteins. Rates of protein degradation were measured in nontumorigenic mouse Balb/c 3T3 fibroblasts, and in tumorigenic 3T3 cells transformed by different agents. Growing 3T3 cells, and cells transformed with Moloney sarcoma virus (MA-3T3) or Rous sarcoma virus (RS-3T3), degraded short- and long-lived proteins at similar rates. Simian virus 40 (SV-3T3)- and benzo(a)pyrene (BP-3T3)-transformed cells had slightly lower rates of degradation of both short- and long-lived proteins. Reducing the serum concentration in the culture medium from 10% to 0.5%, immediately caused about a twofold increase in the rate of degradation of long-lived proteins in 3T3 cells. Transformed lines increased their rates of degradation of long-lived proteins only by different amounts upon serum deprivation, but none of them to the same extent as did 3T3. Greater differences in the degradation rates of proteins were seen among the transformed cells than between 3T3 cells and some transformed cells. Thus, there was no consistent change in any rate of protein degradation in 3T3 cells due to transformation to tumorigenicity.     

Endogenous hyaluronate-cell surface interactions in 3T3 and simian virus-transformed 3T3 cells

3T3 cells have a large, pericellular coat which contains 30 times more hyaluronate than the amount of cell surface hyaluronate associated with simian virus 40-transformed 3T3 (SV-3T3) cells. On the other hand, SV-3T3 cells have high affinity binding sites for exogenously added hyaluronate, whereas 3T3 cells have much lower affinity sites. Removal of cell surface hyaluronate from SV-3T3 cells by treatment with hyaluronidase caused a reproducible increase in their maximum binding capacity for exogenous hyaluronate but no significant change in binding affinity or specificity. For 3T3 cells, however, the maximum amount of binding decreased and the affinity of binding increased after hyaluronidase treatment. When endogenous cell surface hyaluronate was labeled metabolically and then the cells incubated in the presence of exogenous unlabeled hyaluronate, the labeled cell surface hyaluronate was quantitatively displaced from the SV-3T3 cells but was not displaced from the 3T3 cells. Chondroitin sulfate and heparin did not displace cell surface hyaluronate from either cell type. Membranes isolated from SV-3T3 cells bound hyaluronate specifically and with high affinity, whereas membranes from 3T3 cells did not consistently bind a significant amount of hyaluronate. We conclude from these studies that the retention of endogenous hyaluronate on the surface of SV-3T3 cells is mediated by binding sites similar to those detected by the addition of exogenous hyaluronate, and the mechanism of retention of endogenous hyaluronate on the surface of 3T3 cells differs from SV-3T3 cells.     

Synthesis and biological activity of 3 beta-fluorovitamin D3: comparison of the biological activity of 3 beta-fluorovitamin D3 and 3-deoxyvitamin D3

The alteration in the biologic activity of the vitamin D3 molecule resulting from the replacement of a hydrogen atom with a fluorine atom is a subject of fundamental interest. To investigate this problem we synthesized 3 beta-fluorovitamin D3 6 and its hydrogen analog, 3-deoxyvitamin D3 7, and tested the biologic activity of each by in vitro and in vivo methods. Contrary to previous reports which showed that 3 beta-fluorovitamin D3 was as active as vitamin D3 in vivo, we found that the fluoro-analog was less active than vitamin D3. With regard to stimulation of intestinal calcium transport and bone calcium mobilization in the D-deficient hypocalcemic rat, 3 beta-fluorovitamin D3 showed significantly greater biologic activity than its hydrogen analog, 3-deoxyvitamin D3. In the organ-cultured, embryonic chick duodenum, 3 beta-fluorovitamin D3 was approx 1/1000th as active as the native hormone, 1,25-dihydroxyvitamin D3, while 3-deoxyvitamin D3 was inactive even at microM concentrations, in the induction of the vitamin D-dependent, calcium-binding protein. With regard to in vitro activity in displacing radiolabeled 25-hydroxyvitamin D3 from vitamin D binding protein and radiolabelled 1,25-dihydroxyvitamin D3 from a chick intestinal cytosol receptor, 3 beta-fluorovitamin D3 and 3 beta-deoxyvitamin D3 both showed very poor binding efficiencies when compared with vitamin D3. Our results show that the substitution of a fluorine atom for a hydrogen atom at the C-3 position of the vitamin D3 molecule results in a fluorovitamin 6 with significantly more biological activity than its hydrogen analog, 3-deoxyvitamin D3 7.