核酸适配体在靶向药物传递中的研究进展

抗癌药物的毒副作用限制了其临床应用,纳米药物载体可实现药物在病灶部位的聚集而不影响正常组织,从而降低药物毒副作用.在药物载体表面修饰靶向配体,以提高药物载体主动靶向进入到细胞的能力,可有效地将药物释放到靶细胞,大大提高药效.核酸适配体(aptamer)作为一种新型的靶向分子,近几年已被运用到靶向药物传递的研究中.本文介绍了几种适配体靶向载药体系,如适配体-药物、适配体-脂质体、适配体-聚合物胶束、适配体-聚合物纳米颗粒、适配体-金属颗粒以及适配体-支化聚合物等载药体系,并对当前研究的热点以及存在的问题和不足进行了评述.     

载药纳米粒作为脑靶向给药系统的研究

血脑屏障使大部分的活性药物很难由血液进入脑内发挥作用。载药纳米粒具有脑靶向性,可显著提高药物在脑内浓度,成为药物突破血脑屏障的有效途径。本文综述了近年来载药纳米粒透过血脑屏障的研究进展,并对纳米粒载中药入脑提出展望。     

Recent Trends in Drug Delivery System Using Protein Nanoparticles

Engineered nanoparticles that can facilitate drug formulation and passively target tumours have been under extensive research in recent years. These successes have driven a new wave of significant innovation in the generation of advanced particles. The fate and transport of diagnostic nanoparticles would significantly depend on nonselective drug delivery, and hence the use of high drug dosage is implemented. In this perspective, nanocarrier-based drug targeting strategies can be used which improve the selective delivery of drugs to the site of action, i.e. drug targeting. Pharmaceutical industries majorly focus on reducing the toxicity and side effects of drugs but only recently it has been realised that carrier systems themselves may pose risks to the patient. Proteins are compatible with biological systems and they are biodegradable. They offer a multitude of moieties for modifications to tailor drug binding, imaging or targeting entities. Thus, protein nanoparticles provide outstanding contributions as a carrier for drug delivery systems. This review summarises recent progress in particle-based therapeutic delivery and discusses important concepts in particle design and biological barriers for developing the next generation of particles drug delivery systems.     

不同给药途径的治疗性纳米抗体研究进展

骆驼科及鲨鱼科动物血清中天然存在的纳米抗体具有不同于传统单克隆抗体的独特结构和分子量,这为抗体药物开发提供了全新的思路。纳米抗体较小的分子量和优异的稳定性使其在给药方面具有更大的灵活性,可以在一定程度上克服传统单克隆抗体在给药途径方面存在的局限性。同时,较小的分子量使纳米抗体具有双重药代动力学特征,既有优异的组织渗透性,又表现出快速的血液清除。重点介绍纳米抗体的药物代谢动力学特征和进一步改善药代动力学的方法,综述不同给药途径的纳米抗体药物研究进展,对其治疗特定疾病的可行性、安全性以及治疗效果进行分析,以期为纳米抗体药物研发中给药途径的选择提供参考。     

Pharmacomicrobiomics: a novel route towards personalized medicine?

Inter-individual heterogeneity in drug response is a serious problem that affects the patient’s wellbeing and poses enormous clinical and financial burdens on a societal level. Pharmacogenomics has been at the forefront of research into the impact of individual genetic background on drug response variability or drug toxicity, and recently the gut microbiome, which has also been called the second genome, has been recognized as an important player in this respect. Moreover, the microbiome is a very attractive target for improving drug efficacy and safety due to the opportunities to manipulate its composition. Pharmacomicrobiomics is an emerging field that investigates the interplay of microbiome variation and drugs response and disposition (absorption, distribution, metabolism and excretion). In this review, we provide a historical overview and examine current state-of-the-art knowledge on the complex interactions between gut microbiome, host and drugs. We argue that combining pharmacogenomics and pharmacomicrobiomics will provide an important foundation for making major advances in personalized medicine.     

Giving addicts their drug of choice: the problem of consent

Researchers working on drug addiction may, for a variety of reasons, want to carry out research which involves giving addicts their drug of choice. In carrying out this research consent needs to be obtained from those addicts recruited to participate in it. Concerns have been raised about whether or not such addicts are able to give this consent. Despite their differences, however, both sides in this debate appear to be agreed that the way to resolve this issue is to determine whether or not addicts have irresistible cravings for drugs – if they do, then they cannot consent to this type of research; if they do not, then they can. This I will argue is a mistake. Determining whether or not addicts can say 'No' to offers of drugs will not help us to make much progress here. Instead we need to look at the various ways in which different types of research may undermine an addict's competence to give consent. What we will find is that the details of the research make a big difference here and that, as such, we need to steer a course between, on the one hand, painting all addicts as being unable to consent to research which involves providing them with drugs, and, on the other, maintaining that there are no problems in obtaining consent from addicts to take part in such research.     

壳聚糖作为药物缓释控释载体的研究进展

壳聚糖因其具有良好的生物学特性而成为多种药物载体研究的热点。药物经过壳聚糖负载后,不仅能够达到缓释控释的目的,还能够改变药物的给药方式,以此减少给药次数,降低药物不良反应,提高药物生物利用度。本文就壳聚糖和改性壳聚糖作为普通药物和生物大分子药物载体的研究进展作一综述。     

Lymphatic transport of orally administered drugs

Several therapeutic molecules such as lipophilic drugs and peptides suffer from the problems of low oral bioavailability. Improvement of their bioavailability and simultaneous prevention of the oral degradation of the prone molecules appears to be a challenge. Lymphatic system, which is responsible for the maintenance of fluid balance, immunity and metastatic spread of cancers, is also found to play a major role in the oral absorption of lipids and lipophilic drugs from intestine. The specialized structure of gut associated lymphoid tissue can be utilized as a gateway for the delivery of particulate systems containing drugs. Even though a large gap has existed in the field of lymphatic drug delivery, the introduction of a large number of lipophilic drugs and peptides has brought a renewed interest of research in this area. In this review, the mechanisms of intestinal lymphatic drug transport, approaches taken for the delivery of macromolecules, lipophilic and peptide drugs, biochemical barriers involved in intestinal drug absorption, and animal models used in the studies of intestinal lymphatic drug transport has been discussed.     

脂质体递药系统的靶向修饰

作为药物递送载体，脂质体（LPs）由于免疫原性低、稳定性好、毒性低和成本低而被认为是有前途的纳米药物递送系统。然而，LPs的靶向递送效果并不理想，往往会对正常的机体细胞造成伤害，因此，如何优化LPs药物，使其具有靶向性仍然是当前研究的重点。本文结合近年来国内外相关研究进展，重点介绍了多肽、抗体、糖类、配体，以及核酸适配体等靶向修饰物对LPs功能的影响，并归纳总结了各种靶向修饰目前存在的优势与挑战，以期对LPs给药系统的进一步研究提供科学参考及新药研发提供理论依据。     

Synthetic approaches to the 2014 new drugs

New drugs introduced to the market every year represent privileged structures for particular biological targets. These new chemical entities (NCEs) provide insight into molecular recognition and also serve as leads for designing future new drugs. This annual review covers the synthesis of thirty-seven NCEs that were approved for the first time in 2014 and one drug which was approved in 2013 and was not covered in a previous edition of this review.     

Potential agents for cancer and obesity treatment with herbal medicines from the green garden

Many classes of bioactive drug-like molecules derived from traditional herbal plants are becoming attractive as alternative medicines for the treatment of severe chronic diseases such as cancer and obesity. A set of chemically synthesized drugs that is capable of both inhibiting cancer growth and reducing body weight for treatment of obesity have severe side effects including nausea, vomiting, diarrhea as well as producing increased blood pressure and headache, respectively. For decades, drug candidates from herbal plants have been considered as potential therapeutic agents because they are generally safer, less toxic, and have fewer lethal side effects than chemically synthesized or semi-synthetic drugs. Understanding the key factors affecting pharmacological effects and clinical outcomes has been a critical theme of natural product research. However, standardized sample preparation methods, well-controlled scientific studies, and validation studies are needed before herbal therapeutics can be introduced into the global market. This review will address the current advances in using traditional herbal plants, including the pharmacological effects and the challenges faced during the development of new drugs. The safety issues associated with toxicity and the effectiveness of the herbs in specific diseases such as cancer and obesity are also discussed.     

Bacterial components as naturally inspired nano-carriers for drug/gene delivery and immunization: Set the bugs to work?

Drug delivery is a rapidly growing area of research motivated by the nanotechnology revolution, the ideal of personalized medicine, and the desire to reduce the side effects of toxic anti-cancer drugs. Amongst a bewildering array of different nanostructures and nanocarriers, those examples that are fundamentally bio-inspired and derived from natural sources are particularly preferred. Delivery of vaccines is also an active area of research in this field. Bacterial cells and their components that have been used for drug delivery, include the crystalline cell-surface layer known as “S-layer”, bacterial ghosts, bacterial outer membrane vesicles, and bacterial products or derivatives (e.g. spores, polymers, and magnetic nanoparticles). Considering the origin of these components from potentially pathogenic microorganisms, it is not surprising that they have been applied for vaccines and immunization. The present review critically summarizes their applications focusing on their advantages for delivery of drugs, genes, and vaccines.     

Lipids and drugs of abuse

Drug abuse continues to take an enormous economic and social toll on the world. Among the costs are reduced productivity, increased need for medical services and stress on families. Treatments that allow affected individuals to reduce compulsive drug use are lacking and novel approaches to their development will likely come from increased understanding of the consequences of chronic exposure to reinforcing drugs. The purpose of this review is to explore the role of lipids in drug abuse and to present a rationale for an increased focus on the interactions between drugs of abuse and lipids in the brain. Small molecular weight lipids function as neuromodulators in the brain and, as such, play a role in the synaptic plasticity that occurs following exposure to drugs of abuse. In addition, the membrane lipid bilayer consists of lipid subdomains and emerging evidence suggests that protein function can be altered by transient associations with these subdomains. Finally, lipidomics is a very new field devoted to the exploration of changes in cellular lipid constituents during phenotypic alterations. Enhanced research in all of these areas will likely provide useful insights into and, perhaps, therapeutic targets for the treatment of drug abuse.     

Enzyme-triggered nanomedicine: drug release strategies in cancer therapy

Nanomedicine as a field has emerged from the early success of nanoparticle-based drug delivery systems, in particular for treatment of cancer, and the advances made in nano- and biotechnology over the past decade. A prerequisite for nanoparticle-based drug delivery systems to be effective is that the drug payload is released at the target site. A large number of drug release strategies have been proposed that can be classified into certain areas. The simplest and most successful strategy so far, probably due to relative simplicity, is based on utilizing certain physico-chemical characteristics of drugs to obtain a slow drug leakage from the formulations after accumulation in the cancerous site. However, this strategy is only applicable to a relatively small range of drugs and cannot be applied to biologicals. Many advanced drug release strategies have therefore been investigated. Such strategies include utilization of heat, light and ultrasound sensitive systems and in particular pH sensitive systems where the lower pH in endosomes induces drug release. Highly interesting are enzyme sensitive systems where over-expressed disease-associated enzymes are utilized to trigger drug release. The enzyme-based strategies are particularly interesting as they require no prior knowledge of the tumour localization. The basis of this review is an evaluation of the current status of drug delivery strategies focused on triggered drug release by disease-associated enzymes. We limit ourselves to reviewing the liposome field, but the concepts and conclusions are equally important for polymer-based systems.     

载药纳米粒作为脑靶向给药系统的研究

血脑屏障使大部分的活性药物很难由血液进入脑内发挥作用。载药纳米粒具有脑靶向性,可显著提高药物在脑内浓度,成为药物突破血脑屏障的有效途径。本文综述了近年来载药纳米粒透过血脑屏障的研究进展,并对纳米粒载中药入脑提出展望。     

Podophyllotoxin derivatives as an excellent anticancer aspirant for future chemotherapy: A key current imminent needs

Cancer is one of the leading groups of threatened caused by abnormal state cell growth and second leading diseases involved in the major global death. To treat this, research looking for promising anticancer drugs from natural resource, or synthesized novel molecules by diverse group of scientists worldwide. Currently, drugs get into clinical practices and showing side effects with target actions which in turn leading to multidrug resistance unknowingly. Podophyllotoxin, a naturally occurring lignan and with hybrids have become one of the most attractive subjects due to their broad spectrum of pharmacological activities. Podophyllotoxin derivatives have been the centre of attention of extensive chemical amendment and pharmacological investigation in modern decades. Mainly, the innovation of the semi-synthetic anticancer drugs etoposide and teniposide has stimulated prolonged research interest in this structural phenotype. The present review focuses mainly on new anticancer drugs from podophyllotoxin analogs, mechanism of action and their structure–activity relationships (SAR) as potential anticancer candidates for future discovery of suitable drug candidates.     

Mass spectrometry analysis of blood low-molecular fraction as a method for unification of therapeutic drug monitoring

The review describes a new method of therapeutic drug monitoring (TDM) based on direct infusion of low-molecular fraction of blood into an electrospray ionization source of mass spectrometer. This technique allows performing TDM of almost all drugs used in clinical practice. Universality and a high-throughput mode of the method significantly simplify wide application of this method. Moreover, the possibility of method application in most cases of drug therapy has been argued as a tool for control of drug doses, rationality of drug therapy, and quality of drugs used. In conclusion, prospects for application of the method as primary means of improving the quality and personalization of drug therapy have been discussed.     

药物重定位的计算分析方法

全新结构药物的研发存在周期长、耗资大、风险高的问题.通过各种技术预测已有药物的新适应症,即药物重定位,可以缩短药物研发时间、降低研发成本和风险.由于疾病种类和已知药物的数量繁多,完全通过实验筛选已知药物的新用途仍然具有很高的成本.随着组学和药物信息学数据的积累,药物重定位进入到了理性设计和实验筛选相结合的阶段,药物重定位的计算预测已经成为计算生物学和系统生物学的重要研究方向.本文将目前药物重定位计算分析的策略归纳为药物-靶标关系分析、药物-药物关系分析和药物-疾病关系分析,对已报道的技术方法及其成功应用实例进行了综述.     

Speed, Sex, Gay Men, and HIV: Ecological and Community Perspectives

Fifteen years into the HIV/AIDS epidemic, a great deal is now known about the different populations impacted by the disease, including those affected directly or indirectly by drug use. Anthropology has played a critical role in assisting with this task by identifying hidden populations, developing new methodological approaches, and targeting outreach efforts. In spite of this considerable body of ethnographic knowledge, men who have sex with other men (i.e., MSM, or gay and bisexual men) who use drugs have not received the same research attention as other drug users, despite the fact that they represent nearly one-fifth of AIDS cases in the U.S. with injection drug histories. In response to the alarming increase in HIV seroprevalence among this population, this ethnographic project provides preliminary data about those who are at dual risk for HIV through both homosexual behavior and injection drug use.     

Dictyostelium discoideum to human cells: pharmacogenetic studies demonstrate a role for sphingolipids in chemoresistance

Resistance to chemotherapy is a major obstacle for the treatment of cancer and a subject of extensive research. Numerous mechanisms of drug resistance have been proposed, and they differ for different drugs. Nevertheless, it is clear that our understanding of this important problem is still incomplete, and that new targets for modulating therapy still await discovery. The attractive biology and the availability of powerful molecular techniques have made the cellular slime mold Dictyostelium discoideum, a powerful non-mammalian model for drug target discovery, and the problem of drug resistance. To understand the molecular basis of chemoresistance to the widely used drug cisplatin, both genetic and pharmacological approaches have been applied to this versatile experimental system. These studies have resulted in the identification of novel molecular pathways which can be used to increase the efficacy of cisplatin, and brought attention to the role of sphingolipids in mediating the cellular response to chemotherapeutic drugs. In the following review, we will describe the history and utility of D. discoideum in pharmacogenetics, and discuss recent studies which focus attention on the role of sphingolipids in chemotherapy and chemoresistance.