Blood pressure and heart rate and withdrawal of antihypertensive drugs.

The immediate effects on heart rate and blood pressure of withdrawing antihypertensive drugs were studied over three-day periods in 26 patients. Four groups of drugs were studied. After withdrawal all patients taking clonidine showed a considerable increase in heart rate and blood pressure with intense ectopic activity. Patients taking postganglionic neurone-blocking drugs showed a similar but less pronounced reaction with increased ventricular ectopic activity. No alarming reactions were seen after withdrawal of methyldopa or beta-blocking drugs. Methyldopa and, especially, beta-blocking drugs are less likely to produce withdrawal reactions than clonidine or the postganglionic neurone-blocking drugs, and patients taking these drugs are therefore less likely to suffer violent reactions if they forget to take their tablets.     

Current status and perspectives of biopharmaceutical drugs

Since the first approval of recombinant human insulin three decades ago, more than 150 biopharmaceutical drugs have been marketed, and some of them became blockbuster drugs in market size. The patent expiration of the oldest biopharmaceutical drugs resulted in the development of biosimilar drugs. However the short serum half-life of biopharmaceutical drugs incurs a frequent injection to maintain a target clinical outcome in patients. The other major critical concern of biopharmaceutical drugs is immunogenicity producing anti-drug antibodies. These antibodies may reduce clinical efficacy by neutralizing biological activity, and may not only cause a severe allergic reaction but also other serious adverse reactions by blocking endogenous proteins. In order to improve pharmaceutical properties and reduce immunogenicity, the next generation biobetter drugs were achieved by glycoengineering technology, pegylation technology and protein engineering technology. Other biobetter drugs having optimized binding sites were also generated by in vitro display technology. Many of those biobetter drugs have been developed and/or are under development, and come into the clinical field in the near future.     

海洋微生物药物的开发和应用

概要介绍了海洋微生物药物的开发和应用现状,海洋微生物药物的研究开发技术和方法,并展望了海洋微生物药物及其资源的开发和应用前景。     

Effect of colour of drugs: systematic review of perceived effect of drugs and of their effectiveness.

OBJECTIVE: To assess the impact of the colour of a drug''s formulation on its perceived effect and its effectiveness and to examine whether antidepressant drugs available in the Netherlands are different in colour from hypnotic, sedative, and anxiolytic drugs. DESIGN: Systematic review of 12 published studies. Six studies examined the perceived action of different coloured drugs and six the influence of the colour of a drug on its effectiveness. The colours of samples of 49 drugs affecting the central nervous system were assessed using a colour atlas. MAIN OUTCOME MEASURES: Perceived stimulant action versus perceived depressant action of colour of drugs; the trials that assessed the effect of drugs in different colours were done in patients with different diseases and had different outcome measures. RESULTS: The studies on perceived action of coloured drugs showed that red, yellow, and orange are associated with a stimulant effect, while blue and green are related to a tranquillising effect. The trials that assessed the impact of the colour of drugs on their effectiveness showed inconsistent differences between colours. The quality of the methods of these trials was variable. Hypnotic, sedative, and anxiolytic drugs were more likely than antidepressants to be green, blue, or purple. CONCLUSIONS: Colours affect the perceived action of a drug and seem to influence the effectiveness of a drug. Moreover, a relation exists between the colouring of drugs that affect the central nervous system and the indications for which they are used. Research contributing to a better understanding of the effect of the colour of drugs is warranted.     

Identification of lysosomotropic compounds based on the distribution and size of lysosomes

Lysosomal accumulation of drugs with their specific physicochemical properties is of key importance to drug distribution in the body. Several attempts have been made to treat various human diseases by employing the accumulation of lysosomal drugs, and many methods to identify lysosomal accumulation of drugs have been proposed. Among those, the use of high-content screening has increased tremendously because of improved efficiency and accuracy as well as the development of automatic image acquisition and analytical techniques. Conventional methods to identify lysosomal accumulation of drugs by evaluating changes in the lysosomal area are unable to maximize the advantages of phenotypic high-content screening. Lysosomal distribution and the size of lysosomes are affected by lysosomal accumulating drugs. Therefore, we present image acquisition conditions and analytical methods to utilize lysosomal distribution and size as parameters for identifying lysosomal accumulating drugs. These two parameters will help to improve the reliability of the screening methods for identifying lysosomal accumulation of drugs by maximizing usage of information from image-based screening.     

药物在水产饲料中的应用现状及其生态效应

在水产养殖过程中,因为功能和作用显著,药物在水产饲料中被广泛应用;但由于药物的残留、富集及其在环境中存在迁移和转化作用,药物的使用同时也给生态环境带来了一系列的问题。对当前水产饲料中不同种类药物的应用状况进行了概述,并着重对渔用药物的使用所导致的生态效应进行以下几个方面的总结和分析:养殖动物体内的药物代谢,药物在环境中的归趋,药物对水环境中水生生物、细菌耐药性及其最终对人的影响;阐明了药物在水产饲料中的应用与生态环境和人类健康有着十分密切的关系,对其进一步深入研究有重要的理论和实际意义。     

Network-assisted investigation of antipsychotic drugs and their targets

Antipsychotic drugs are tranquilizing psychiatric medications primarily used in the treatment of schizophrenia and similar severe mental disorders. So far, most of these drugs have been discovered without knowing much on the molecular mechanisms of their actions. The available large amount of pharmacogenetics, pharmacometabolomics, and pharmacoproteomics data for many drugs makes it possible to systematically explore the molecular mechanisms underlying drug actions. In this study, we applied a unique network-based approach to investigate antipsychotic drugs and their targets. We first retrieved 43 antipsychotic drugs, 42 unique target genes, and 46 adverse drug interactions from the DrugBank database and then generated a drug-gene network and a drug-drug interaction network. Through drug-gene network analysis, we found that seven atypical antipsychotic drugs tended to form two clusters that could be defined by drugs with different target receptor profiles. In the drug-drug interaction network, we found that three drugs (zuclopenthixol, ziprasidone, and thiothixene) tended to have more adverse drug interactions than others, while clozapine had fewer adverse drug interactions. This investigation indicated that these antipsychotics might have different molecular mechanisms underlying the drug actions. This pilot network-assisted investigation of antipsychotics demonstrates that network-based analysis is useful for uncovering the molecular actions of antipsychotics.     

Implications of chirality and geometric isomerism in some psychoactive drugs and their metabolites

Many drugs contain a chiral centre, or such a centre is introduced during metabolism of the drug in man and in animals. If a single chiral centre is present, the drug will normally exist as a mixture of two enantiomers, of which one may have quite different pharmacologic and/or toxic effects than the other. Chiral drugs that are used in psychiatry, and some other pharmacologically related drugs are identified, and the implications of the presence of one or two chiral centres in these drugs are discussed. Differences in pharmacologic properties of drug and metabolite enantiomers are identified and discussed. Also reviewed are the properties of some drugs used in psychiatry that both are chiral and display geometric isomerism.     

生物技术药物药代动力学研究的方法学和实验设计

生物技术药物由于自身具有的特点 ,使得其在体内的药代动力学机制比传统药物更为复杂。近年来 ,对于这类药物在体内的代谢机制的研究日趋增加 ,研究方法也日趋成熟。概述了生物技术药物的药代动力学研究方法以及实验设计的特点。     

Kinetics and mechanisms of cholesterol esterase inhibition by cardiovascular drugs in vitro

Cardiovascular drugs such as lovastatin, simvastatin, amlodipine besylate, nifedipine, and hydralazine hydrochloride inhibit cholesterol esterase (CEase) in vitro. In the present paper, an attempt was made to determine kinetically the reaction mechanism for CEase inhibition by these drugs. The inhibition constant, Ki, for the mixed-type inhibition of CEase by these drugs in the presence of triton-X-100 or taurochloate were measured. Moreover, the pKi values were correlated with the molecular weights of these drugs. In conclusion, the fact that these drugs lower cholesterol levels in the plasma low-density lipoprotein may be partially due to the CEase inhibition by these drugs.     

Effect of chlorpromazine and trifluoperazine on cytoskeletal components and mitochondria in cultured mammalian cells

Antipsychotic drugs such as chlorpromazine and trifluoperazine have been implicated to mediate their action by inhibiting calmodulin, the general calcium regulatory protein in eukaryotic cells. We observed that both these drugs were cytotoxic to different mammalian cell types at concentrations two- to three-fold lower than those required to inhibit calmodulin-dependent phosphodiesterase activity. These drugs also caused shrinkage and rounding of chicken embryo fibroblast cells without affecting any of the cytoskeletal components, viz. microtubules, microfilaments and intermediate filaments. However, at physiological concentrations of these drugs, a major change was observed in mitochondria which assumed rounded and swollen shapes and concentrated towards the perinuclear region of cells. These studies provide evidence that in contrast to earlier reports, cytoskeletal components are not the primary targets of these drugs. It is suggested that mitochondria may be one of the first structures to be affected by these drugs and the consequent energy depletion may lead to the other observed effects.     

当前我国畜牧业抗菌药应用与耐药性应对趋势

抗菌药在现代农业和医学中发挥了举足轻重的作用,然而,随着民众对食品安全和生态环保意识的逐渐增强,抗菌药物的使用愈发受关注。如何科学合理使用抗菌药,确保动物安全健康,防止药物残留超标,进而实现畜牧业绿色发展是当前研究的重要课题。本文结合当前畜牧业抗菌药使用现状,从四个方面分析了滥用抗菌药的危害,并归纳总结了耐药机制研究进展,最后提出抗菌药替代策略,旨在为畜牧业抗菌药安全使用和抗菌药替代技术研发提供参考。     

三唑类抗真菌新药泊沙康唑和伏立康唑简介

随着侵袭性真菌感染的发病率和死亡率逐年增多,新近问世的新型抗真菌药物也越来越多。新一代广谱三唑类抗真菌药物泊沙康唑和伏立康唑,在体内和体外均有较强的抗真菌活性,临床上用其来预防和治疗侵袭性真菌感染。两药具有共有的作用机制,在抗真菌活性、药物代谢及安全性方面有着各自特点。分子结构上泊沙康唑和伏立康唑优于原有药物伊曲康唑和氟康唑,从而具备更强、更广的抗菌谱。两药的研发和应用表明抗真菌药物研究正朝着高效、广谱、低毒的方向发展,成为治疗各种类型真菌感染新的有力手段。然而,两药在临床研究和血药浓度监测方面仍待深入探究。本文将从分子结构、作用机制、适应症和药代动力学方面介绍两药,并对两药在未来的临床应用进行展望,为临床应用提供帮助。     

Current situation and future usage of anticancer drug databases

Cancer is a deadly disease with increasing incidence and mortality rates and affects the life quality of millions of people per year. The past 15 years have witnessed the rapid development of targeted therapy for cancer treatment, with numerous anticancer drugs, drug targets and related gene mutations been identified. The demand for better anticancer drugs and the advances in database technologies have propelled the development of databases related to anticancer drugs. These databases provide systematic collections of integrative information either directly on anticancer drugs or on a specific type of anticancer drugs with their own emphases on different aspects, such as drug–target interactions, the relationship between mutations in drug targets and drug resistance/sensitivity, drug–drug interactions, natural products with anticancer activity, anticancer peptides, synthetic lethality pairs and histone deacetylase inhibitors. We focus on a holistic view of the current situation and future usage of databases related to anticancer drugs and further discuss their strengths and weaknesses, in the hope of facilitating the discovery of new anticancer drugs with better clinical outcomes.     

N-acetylcysteine and captopril protect DNA and cells against radiolysis by fast neutrons

N-Acetylcysteine and captopril, respectively mucolytic and antihypertensive drugs, contain free sulfhydryl groups. Since in general thiols have well-established radioprotective abilities, we sought putative radioprotective effects of these drugs against therapeutic fast neutrons. We show that pBR322 plasmid DNA is indeed protected against radiolytic strand breakage by both drugs. The oxygen independent protection is consistent with a hydroxyl radical scavenging mechanism. A clonogenicity assay reveals an increase of the survival of SCL-1 cultured keratinocytes irradiated in the presence of the drugs compared with cells irradiated without drugs. Our results suggest possible interferences between treatment with drugs bearing-SH groups and radiotherapy.     

Effect of anti-inflammatory drugs on the activity of antioxidant enzymes and in vivo peroxidation products in the liver and kidney of rat

1. Four groups of rats were injected with four different anti-inflammatory drugs (indomethacin, phenylbutazone, acetylsalicylic acid and hydrocortisone) and the activities of superoxide dismutase, catalase and glutathione peroxidase were studied in the liver and kidney. 2. The drugs treatment resulted in decreased activity of the enzymes in both organs compared to the control animals. 3. In vivo tissue peroxidation was also effected by the drugs used. 4. Our results indicate that the changes of oxygen free-radical metabolism contribute to the action of these drugs in vivo.     

微针用于生物大分子及纳米药物透皮给药的尝试与挑战

生物大分子及纳米药物,比如,亚单位疫苗、DNA疫苗、以及针对真皮层的治疗药物,作为近年来新兴的治疗药物,在有些治疗领域有着透皮给药的需求。由于具有靶向性高,疗效显著等特点,生物大分子及纳米药物逐渐成为新的研究热点。微针作为一种新型的给药技术,不仅具有无痛、给药方便等优点,而且运用物理手段可大幅提高大分子甚至纳米药物的透皮吸收及皮层靶向,能够避过胃肠道消化作用以及肝脏首过效用。将微针技术与生物大分子药物相结合,能够同时发挥两者的优势,实现高靶向生物药物的无痛给药。本文简述微针透皮给药技术、以及生物大分子给药的研究进展,对微针技术用于生物大分子及纳米药物透皮给药的尝试研究做了介绍和总结,对存在的技术挑战进行了分析和展望。     

ADC药物的抗体组成及其作用靶点研究进展*

抗体药物偶联物(antibody-drug conjugates,ADC)是一类由单克隆抗体和小分子细胞毒性药物通过连接子偶联而成的新型生物治疗药物。与传统的细胞毒药物相比,ADC具有靶向性强、毒副作用小等优势,在临床上展现较好的治疗潜力。其中,抗体部分通过与肿瘤细胞表面的靶向抗原结合,精准地将小分子细胞毒性药物递送至肿瘤部位,从而实现肿瘤特异性杀伤效果,是影响ADC疗效的核心要素之一。对近年来ADC药物中抗体的组成及其作用靶点的研究进展进行了综述。     

氟喹诺酮类药物的光化学性质及其光敏毒性机理

氟喹诺酮类药物(fluoroquinolones,FQs)是目前得到广泛应用的广谱、高效的合成抗菌素。本文通过对FQs光化学研究进展的介绍,详述了具有代表性的FQs的光物理、光化学性质及光化学反应途径,以及其对生物分子的光敏损伤机理等。FQs具有较高的三重激发态产额,其激发态能够发生多种光化学反应,此类反应极易受到溶剂性质和某些盐类的影响,其光敏毒性与其分子结构有着密切的联系,尤其受8位取代基的影响非常大。对该类药物光化学性质和光敏毒性机理的研究,将会对此类药物的合理使用和新一代药物的研发提供很好的理论依据。