抗坏血酸增强氯高铁血红素诱导的溶血

研究抗坏血酸对氯高铁血红素所诱导的红细胞溶血的影响.红细胞溶血采用在540 nm处测定 上清液血红蛋白吸光度的方法;红细胞巴比妥酸反应产物 (TBARS)测定采用Stocks 等建立的方法;高铁血红蛋白的测定采用Sezebeni等报道的方法.结果表明：抗坏血酸显著增强氯高铁血红素所诱导的溶血.尽管氯高铁血红素本身并不影响红细胞TBARS和高铁血红蛋白的水平,但是,氯高铁血红素和抗坏血酸一起诱导红细胞TBARS和高铁血红蛋白含量的增加;过氧化氢酶显著地抑制抗坏血酸增强氯高铁血红素诱导红细胞的溶血、TBARS和高铁血红蛋白的生成;氢氧自由基淬灭剂显著地抑制抗坏血酸增强氯高铁血红素诱导红细胞溶血.由上述可得到如下 结论：抗坏血酸增加氯高铁血红素诱导的红细胞氧化压力与H₂O₂有关;氢氧自由基可能是抗坏血酸增强氯高铁血红素诱导红细胞溶血的原因;抗坏血酸在氯高铁血红素存在时,可以作为一个亲氧化剂而非一个抗氧化剂.     

植物中的氯、氯通道和耐氯性

本文介绍了氯(Cl)在自然界的存在形式,Cl与植物生长发育的关系及植物对Cl-的吸收和运输机制。概述了Cl-通道和Cl-通道蛋白(CLCs)的种类与特点。探讨了不同植物对Cl-亏缺、过量的不同响应及植物耐Cl-的可能生理和分子生物学机制。     

植物中的氯、氯通道和耐氯性

本文介绍了氯(Cl)在自然界的存在形式,Cl与植物生长发育的关系及植物对Cl-的吸收和运输机制.概述了Cl-通道和Cl-通道蛋白(CLCs)的种类与特点.探讨了不同植物对Cl-亏缺、过量的不同响应及植物耐Cl-的可能生理和分子生物学机制.     

葛根素注射液中葛根素含量的HPLC测定

建立了一种简便、准确、可靠的葛根素测定方法。采用SymmetryC18(3.9mm×150mm,5μm)柱,流动相采用甲醇-水(体积比为3525),流速为1.00ml·min-1,检测波长为250nm。进样量在0.0368μg～0.589μg范围内线性关系良好,(r=0.9994)。该方法简便快速,准确可靠,可用于葛根素注射液的含量测定。同时,测定结果表明两种产品在含量上有差别,因此,保证和进一步提高葛根素注射液质量,并且规范质量标准势在必行。     

氯通道:在心脏中起何作用?

在心脏中发现氯通道已有十余年,目前已知氯通道是一类成员较多的离子通道超家族。心肌氯通道的作用可能是多重的,由于阻断氯通道或Cl^-替代对心肌的电特性产生明显影响,而心肌氯通道的种类和分布又存在明显的种属差异,提示心肌氯通道的主要作用可能在于调控阳离子通道,或为阳离子通道的正常活动提供一个合适的离子环境。因此,研究氯通道与阳离子通道之间的关系可能有重要的生理和病理生理学意义。     

TMEM16/ANOCTAMIN:最新的氯通道家族

Cl-通道参与许多生理过程,包括跨上皮细胞的离子吸收与分泌、平滑肌与骨骼肌收缩、神经元兴奋性、器官感知功能及细胞容积调节等.目前对于许多类型Cl-通道的分子构型尚不清楚.新近三个独立的研究小组同时发现Ano1是一种与钙离子激活氯通道(calcium-activated chloridechannels,CaCCs)活性密切相关的膜蛋白.Ano1与其它9个成员共同组成Anoctamin家族.所有Anoctamin蛋白都具有类似结构,推测含8个跨膜结构域以及胞质N-末端和C-末端.Ano1和Ano2的表达都与CaCCs类似,但其它Anoctamin蛋白的作用仍然未知.     

氯通道在肾脏的表达及其功能

随着膜片钳和分子克隆技术的应用,人们在肾脏发现了多种氯通道。这些通道参与许多生理过程,包括膜电位形成、细胞容积调节以及盐的吸收和排泄等。确定氯通道在肾小管和集合管上皮细胞的基侧膜和管腔膜的分布情况以及这些通道的生理功能是近年来的研究热点。最近,由于特异性抗体的应用和遗传学研究方法的建立,使这方面的研究取得了很大进展。本文就这方面的研究进展作一综述。     

线粒体钾通道参与葛根素抗心肌细胞缺氧/复氧损伤的作用

目的:探讨线粒体ATP敏感性钾通道和线粒体钙激活钾通道在葛根素预处理抗心肌细胞缺氧/复氧损伤中的作用。方法:采用酶解分离大鼠心肌细胞复制心肌细胞缺氧/复氧模型,台盼蓝拒染法测定心肌细胞存活率;四甲基罗丹明乙酯(TMRE)孵育测定线粒体膜电位值;分离线粒体测定线粒体渗透性转换孔开放程度。结果:与缺氧/复氧组相比,葛根素(0.24mmol/L)预处理5min可明显增加心肌细胞的存活率,线粒体ATP敏感性钾通道抑制剂5-羟基癸酸(100μmol/L,预处理20min)或线粒体钙激活钾通道阻断剂paxilline(1μmol/L,预处理5min)均可拮抗葛根素的作用。葛根素预处理可明显减弱缺氧引起的线粒体膜电位的耗损,5-羟基癸酸和paxilline都能明显拮抗其作用。在分离心肌线粒体模型上,葛根素显著减弱CaCl2诱导的线粒体在A520处吸光度降低,其作用与单独应用线粒体渗透性转换孔抑制剂环孢菌素A相似;5-羟基癸酸和paxilline可拮抗葛根素的保护作用。结论:在大鼠分离心肌细胞模型或分离线粒体模型上,葛根素预处理具有抗缺氧/复氧损伤的作用,这种保护作用可能与其促进线粒体ATP敏感性钾通道和线粒体钙激活钾通道的开放,进而稳定线粒体膜电位,抑制线粒体渗透性转换孔开放有关。     

溶血磷脂酸在皮肤损伤疾病中的作用及其分子机制

皮肤作为人体最大器官覆盖于全身,能阻挡有害物质的侵入,保护人体内环境稳态,参与人体代谢过程。皮肤损伤、炎症和纤维化等,都会导致皮肤屏障功能的减退,影响正常的生命活动。溶血磷脂酸(lysophosphatidic acid,LPA)是十分活跃的磷脂信号分子,参与多种生理和病理生理过程。LPA是维持体内平衡所必需的生物活性脂质介质,在皮肤中通过不同的信号通路发挥多功能磷脂信使作用。本文综述了皮肤中溶血磷脂酸受体(lysophosphatidic acid receptor,LPA1-6)及其细胞信号通路的作用及机制,综述了LPA在皮肤创面愈合、皮肤瘢痕、皮肤黑色素瘤、硬皮病、皮肤瘙痒、过敏性皮炎、皮肤屏障、皮肤疼痛,皮肤毛发生长中的作用及分子机制,有助于了解LPA在皮肤中的生理和病理生理作用。深入研究LPA的作用机制将有助于挖掘其在皮肤治疗中的作用,开发以LPA为靶点的药物。     

MDR1基因在睫状体色素上皮细胞容积激活性氯电流中的作用

用膜片钳,反义寡核苷酸,免疫荧光及激光共聚焦显微镜等技术,研究MDR1基因在牛睫状体色素上皮（pigmented ciliary epithelial,PCE)细胞容积激活性氯电流中的作用,PCE细胞表达MDR1基因产物-P糖蛋白（P-gp),反义MDR1寡核苷酸抑制MDR1基因的表达（P-gp免疫荧光减少93%）,延缓容积激活性氯电流的出现（潜伏期延长109%）,并导致激活率降低62%及电流峰值减小56%,而核酸转染剂阳离子脂质体和非配对性的寡核苷酸对电流没有显著性影响,上述观察结果表明,睫状体色素上皮细胞容积激活性氯电流与内源性MDR1表达有关。     

Inhibition of monosodium urate monohydrate-mediated hemolysis by vitamin E

Microcrystals of monosodium urate monohydrate(MSUM)induce cytolysis and hemolysis inerythrocytes.In this report,we studied the effect of vitamin E on MSUM-mediated hemolysis in humanerythrocytes.Vitamin E significantly inhibited hemolysis induced by MSUM.The hydroxyl group in thechromanol ring of vitamin E is dispensable for protecting erythrocytes against hemolysis induced by MSUM,indicating that the inhibitory effect of vitamin E is not due to its antioxidant properties.However,both thechromanol ring and the isoprenoid side chain are important for vitamin E to suppress MSUM-induced hemolysis.Our current study suggests that vitamin E inhibits hemolysis induced by MSUM as a membrane stabilizer.     

Erythrocyte hemolysis by radiofrequency fields

A field-strength-dependent hemolytic effect of continuous-wave radiofrequency (RF) exposure in vitro has been demonstrated. Erythrocytes in whole heparinized rabbit blood were hemolyzed by a 2-h exposure to 50- or 100-MHz RF fields at field strengths of greater than 4 V/cm. An effect of comparable magnitude resulted from exposure to 10-MHz RF at a field strength of 9 V/cm. Sample temperatures were maintained at 22.5 degrees +/- 0.2 degrees C. There was no apparent involvement of heating or temperature gradients, nor were there any RF exposure effects on cellular K+ or Na+ concentration, nor on pH. The mechanism of the hemolytic effect is not known. Since the percentage of lysed erythrocytes was less than 1% and there was an absence of effects on cellular cation concentrations, RF radiation may have irreversibly altered the plasma membrane permeability of a sensitive subpopulation of red cells (possibly aged cells) leading to osmotic lysis. RF radiation at these frequencies appears to affect red cells in a manner that is qualitatively and quantitatively different from microwave radiation.     

Outwardly rectifying chloride channels in lymphocytes

Summary Outwardly rectifying Cl^– channels in cultured human Jurkat T-lymphocytes were activated by excising a patch of membrane using the inside-out (i/o) patch-clamp configuration and holding at depolarized voltages for prolonged periods of time (1–6 min at +80 mV, 20°C). The single-channel current at +80 mV was 4.5 ± 0.3 pA and at –80 mV, it was 1.0 ± 0.4 pA. After activation, the probability of being open (P ₀)for the lymphocyte channel was voltage independent. Activation of the Cl^– channel in lymphocytes was temperature dependent. Nineteen percent of i/o recordings from lymphocytes made at 20°C exhibited Cl^– channel activity. In contrast, 49% of recordings made at 30°C showed channel activity. The number of channels in an active patch was not significantly different at the two temperatures. Channel activation in excised, depolarized patches also occurred 20-fold faster at 30°C than at 20°C. There was no marked change in the single-channel conductance at 30°C. Open-channel conductance was blocked by 200 m indanyloxyacetic acid (IAA) or 1 mm SITS when applied to the intracellular side of the patch. The characteristics of this channel are similar to epithelial outwardly rectifying Cl^– channels thought to be involved in fluid secretion     

The antioxidant effect of hydroxyl-substituent Schiff bases on the free-radical-induced hemolysis of human erythrocytes

The major objectives of the present work were focused on assessing the antioxidant capacities of two hydroxyl-substituent Schiff bases, 2-((o-hydroxylphenylimino)methyl)phenol (OSAP) and 2-((p-hydroxylphenylimino)methyl)phenol (PSAP) either used alone or in combination with some familiar water-soluble antioxidants i.e. 6-hydroxyl-2,5,7,8-tetramethylchroman-2-carboxylic acid (Trolox) and L-ascorbic acid (VC), and lipophilic ones i.e. alpha-tocopherol (TOH) and L-ascorbyl-6-laurate (VC-12). 2,2'-Azobis(2-amidinopropane hydrochloride) (AAPH). Induced hemolysis of human erythrocytes functioned as the evaluation experimental system in this research. The present findings showed that either OSAP or PSAP not only was an antioxidant with high activity in protecting erythrocytes against AAPH-induced hemolysis concentration-dependently, but can also protect erythrocytes by acting with Trolox, TOH, VC and VC-12 synergistically. Based on chemical kinetic deduction, the number of trapping peroxyl radicals, n, of the above-mentioned antioxidants can be calculated in relation to Trolox that traps two peroxyl radicals; thus, TOH can trap 3.83 peroxyl radicals, VC-12 traps 2.87 and VC can only trap 1.08. As for OSAP and PSAP, 8.71 and 13.7 peroxyl radicals can be trapped, respectively, indicating that they were the most efficient inhibitors against AAPH-induced hemolysis. Moreover, the total number of peroxyl radicals trapped by OSAP+Trolox, OSAP+TOH, OSAP+VC and PSAP+VC were higher than the sum of the above individual antioxidant used alone, demonstrating that a mutual promotive effect existed in the above mixed antioxidants. In contrast, owing to the fact that the total number of peroxyl radicals trapped by OSAP+VC-12, PSAP+Trolox, PSAP+TOH and PSAP+VC-12 were less than the sum of the above individual antioxidant used alone, a mutual antagonistic effect was suggested in these combinative usages. This information may be helpful in the pharmaceutical application of two Schiff bases.     

Review. Proton-coupled gating in chloride channels

The physiologically indispensable chloride channel (CLC) family is split into two classes of membrane proteins: chloride channels and chloride/proton antiporters. In this article we focus on the relationship between these two groups and specifically review the role of protons in chloride-channel gating. Moreover, we discuss the evidence for proton transport through the chloride channels and explore the possible pathways that the protons could take through the chloride channels. We present results of a mutagenesis study, suggesting the feasibility of one of the pathways, which is closely related to the proton pathway proposed previously for the chloride/proton antiporters. We conclude that the two groups of CLC proteins, although in principle very different, employ similar mechanisms and pathways for ion transport.     

中华大蟾蜍卵母细胞质膜存在钙依赖性的氯离子通道

本文采用双微电极电压钳方法研究了中华大蟾蜍卵母细胞内源性电压门控型离子通道的成分及其生理特性。卵母细胞去极化至 -30 mV 及更正电压时,有一持续的电压依赖性外向电流出现。钾离子通道拮抗剂四乙基氯化氨(tetraethy-lammonium chloride, TEA, 10 mmol/L)和 4- 氨基吡啶(4-aminopyridine, 4-AP, 10 mmol/L)协同作用时,该电流只能被抑制到最大电流幅度的(23.4±0.72)%。但是,上述浓度的TEA和4-AP 与氯离子通道拮抗剂5- 硝基-2, 3- 苯酚丙胺苯甲酸盐 (5-nitro-2,3-phenypropylamino benzoate, NPPB, 30 μmol/L)、无钙 Ringer 氏液或钙离子通道拮抗剂维拉帕米(40 μmol/L)协同作用时,可分别将此外向电流抑制到最大电流幅度的(2.1±0.08)%、(2.2±0.04)% 和(3.1±0.15)%。结果表明,中华大蟾蜍卵母细胞质膜上除有钾离子电流之外,还存在钙依赖性的氯离子电流。