Recent advances in isatin hybrids as potential anticancer agents

The isatin framework is a useful template for the development of novel anticancer agents. This is exemplified by the fact that several isatin-based anticancer agents, such as semaxanib, sunitinib, nintedanib, and hesperadin, are already in use or under clinical trials for the treatment of diverse kinds of cancers. Isatin-based hybrids could be obtained by incorporating other anticancer pharmacophores into the isatin skeleton and they have the potential to overcome drug resistance with reduced side effects. Thus, isatin-based hybrids may provide attractive scaffolds for the development of novel anticancer agents. This review covers the recent advances of isatin-based hybrids with anticancer activity, covering articles published between 2001 and 2019. The anticancer activities of these molecules and the structure–activity relationships are also discussed. The purpose of this review article is to set up the direction for the design and development of isatin-based hybrids with high efficacy and low toxicity.     

Recent advances in 4'-thionucleosides as potential antiviral and antitumor agents

The classical 4'-oxonucleoside analogs exhibit interesting biological activities such as antibiotic, antiviral and antitumor, which are believed to be the result of inhibition of the viral or cellular DNA or RNA polymerase after being converted to their corresponding 5'-triphosphates. However, the activity of 4'-oxonucleosides were limited by their susceptibility to degradation by nucleoside phosphorylases or acid hydrolysis. This aspect called for the chemical modification of the carbohydrate portion. This compulsion led to two kinds of strategies; (1) replacement of the 4'-oxygen by the methylene group - carbocyclic nucleosides; (2) replacement of the 4' oxygen by sulphur-4'-thionucleosides. This group has also conferred the resistance to the nucleoside cleavage. Although, there were some pioneering work on 4'-thionucleosides in 1960s and 1970s, the interest in this group of compounds was rekindled by the antiviral activities of 2'-deoxy-4'-thionucleosides reported independently by Secrist et al. and Walker et al. Subsequent contributions by the other authors, enhanced its standing as an important class of antiviral agents. Following is a reasonably exhaustive account of this class of compounds reported after 1990.     

Recent advances in non-competitive mGlu5 receptor antagonists and their potential therapeutic applications

Extensive research into the functions of glutamate and glutamate receptors in the central nervous system (CNS) has shown an essential role of metabotropic glutamate (mGlu) receptors in normal brain functions, but also in neurological and psychiatric disorders. The precise functions of these receptors remain undefined, and progress toward understanding their functions has been hampered by the lack of selective ligands with appropriate pharmacokinetic properties. The Group I mGlu receptor, mGlu5, is well positioned to regulate and fine-tune neuronal excitability and synaptic transmission through its modulation of various signal transduction pathways and interactions with other transmitter systems. Therefore, the mGlu5 receptor may be an important therapeutic target for the treatment of disorders of the central nervous system. The discovery of MPEP 3, a non-competitive mGlu5 receptor antagonist, provided a potent, selective, systemically active tool compound for proof of concept studies in animal models of various disease states. These studies have led to greater understanding of possible therapeutic applications of mGlu5 receptor antagonists in recent years, suggesting their use in a number of disease states, including chronic pain, various psychiatric and neurological disorders, substance abuse and withdrawal, obesity and gastroesophageal reflux disease (GERD). Together, these findings have intensified efforts to find other non-competitive mGlu5 receptor antagonists and have led to the discovery of several second-generation compounds, a few of which are in preclinical evaluations. There have been several recent reviews on mGlu receptor. This article highlights recent efforts on the design, synthesis and development of novel, non-competitive mGlu5 receptor antagonists and studies to understand their in vitro mechanisms of action and in vivo pharmacological profiles. Emphasis is also given to recent advances in the potential therapeutic applications of non-competitive mGlu5 receptor antagonists.     

Recent patents on live bacteria and their products as potential anticancer agents

This review intends to provide a comprehensive coverage of the various patents, published or issued, since 2007 on live or attenuated bacteria as potential anticancer agents, as well as microbial products including toxins, enzymes, antibiotics, various proteins and peptides as well as other small molecular weight products. Below is a list of such published/issued patents and a summary of the main contents of many such patents.     

New pyrimidinone and fused pyrimidinone derivatives as potential anticancer chemotherapeutics

A series of novel substituted pyrimidinones and fused pyrimidinones (compounds 3 – 18 ) were synthesized starting with oxiranylmethanone 2 . The in vitro cytotoxicity against a human breast adenocarcinoma (MCF‐7) cell line was investigated and most of the tested compounds showed potent cytotoxic activity against the MCF‐7 cell line comparable to the activity of the commonly used anticancer drug cisplatin. Treatment of MCF‐7 cells with increasing doses (2, 5, 10, and 20 µg/mL) of the tested compounds revealed that the activity of superoxide dismutase and the level of hydrogen peroxide were significantly increased, while the activities of catalase and glutathione peroxidase and the levels of reduced glutathione were significantly lowered compared with control MCF‐7 cells. In general, derivatives 11 and 16 revealed the highest anticancer activity among the tested compounds.     

超声微泡介导的基因递送系统应用进展

超声波可聚焦于体内的特定部位。含气体微泡既可以作为医学超声显像的造影剂，又可以作为药物或基因载体。超声微泡有望实现基因的靶向递送，因此成为药物递送系统研究的热门领域。本文阐述了超声微泡介导的基因递送系统在心肌、血管、骨骼肌和肿瘤组织等方面的研究进展，讨论其在未来应用中面临的问题。     

Recent advances in antimalarial compounds and their patents

Malaria is one of the most severe tropical parasitic disease causing 1-3 million deaths annually. In the last 25 years very few new antimalarial molecules have been developed and only a limited number of them are currently in various stages of clinical development. The presently available antimalarial drugs include artemisinin analogs, quinoline derivatives and antifolates. This review summarizes recent advances in antimalarial drug development and world patents published between 2000-2006 claiming new synthetic antimalarial compounds and their activities. The most over-represented classes of compounds in malaria patent literature in order of frequency are artemisinin analogs, quinoline derivatives, DOXP reductoisomerase inhibitors, antifolates and febrifugine analogues. Many of these patents describe the novelty and potential of these synthetic derivatives with an attempt to identify the next generation antimalarials that may have potential commercial advantages.     

Post-translational modifications of PTEN and their potential therapeutic implications

PTEN is a tumor suppressor gene localized to human chromosome 10q23.31, a genomic region frequently lost in glioblastoma and prostate cancer. The fact that PTEN encodes a lipid phosphatase with specificity towards phosphatidylinositol-3,4,5-triphosphate renders it a gate-keeper of the phosphatidylinositol 3-kinase pathway. Numerous physiological processes have been ascribed to this evolutionarily conserved molecule including proliferation, cell size determination, survival, differentiation, and cell fate specification. Indeed, mutation in PTEN gene is the genetic cause of Cowden Syndrome. Structurally, the 54-kilodalton protein is composed of two major functional domains crucial for catalytic and membrane binding functions. Additional regulatory regions in both amino- and carboxyl-termini further dictate its structural integrity, catalytic activity, and subcellular localization. Extensive characterization of PTEN primary coding sequence has revealed a multitude of post-translational modifications that fine-tune its biochemical properties. These include phosphorylation, ubiquitination, redox modifications, and acetylation. This article aims to provide an in-depth review of the diverse post-translational modifications of PTEN, focusing on their biological relevance in both normal and cancer cells. The potential applications to cancer therapy by modulating the post-translational modifications of PTEN will also be discussed.     

Recent advances in new structural classes of anti-tuberculosis agents

Tuberculosis (TB) is one of the most devastating diseases primarily due to several decades of neglect, and presents a global health threat of escalating proportions. TB is the second leading infectious cause of mortality today behind only HIV/AIDS. The impetus for developing new structural classes of anti-tuberculosis drugs comes from the emergence of multi-drug resistant (MDR) strains to commonly used drugs, substantially longer durations of therapy that are needed as a result of resistance, and the resurgence of disease in immuno-compromised patients. Recent years have witnessed emergence of many new structural classes of anti-TB agents, which have exhibited promising activities against drug-sensitive and drug-resistant strains of the causative organism Mycobacterium tuberculosis. These analogs ideally should decrease the overall duration of therapy with improved efficacy, and exhibit mechanisms of action different from those of existing drugs to counter the resistant strains of M. tuberculosis. This review provides a comprehensive literature compilation on advances in the new structural classes of anti-TB analogs reported during the past five years. Our discussion and observations are concentrated on chemotherapeutic potential of alphabetically listed twenty-seven new structural classes of anti-tuberculosis agents that include:- acetamides, 5-arylidene-2-thiohydantoins, benzoxazoles and benzothiazoles, benzoic acid hydrazones, benzoxazines, carbohydrates, chalcones, coumarins, deazapteridines, imidazoles, indoloquinazolinones, isothiosemicarbazones, mycobactins, 1,8-naphthyridines, phenazines, purines, pyridines, N-pyridinylsalicylamides, pyrimidines and thymidines, pyrroles, quinolines, quinoxalines, terpenes, thiadiazine thiones, thiolactomycines, toludines, and triazoles.     

环维黄杨星D的前药改造及生物活性研究

目的通过对植物活性单体——环维黄杨星D的前药改造，以寻求疗效更好、治疗安全范围更宽的心血管药物。方法根据前药设计原理，设计合成目标化合物，并研究其生物活性。结果获得7个环维黄杨星D新衍生物，并经光谱证明其结构。结论选取部分环维黄杨星D新衍生物进行抗心律失常药理实验，结果表明部分化合物药理效果优于环维黄杨星D。     

Recent advances of MEK inhibitors and their clinical progress

The RAS/RAF/MEK/ERK signaling pathway has been a major clinical focus in oncology research in recent years. A clearer association of B-RAF mutations to cancers such as melanoma, papillary thyroid cancer and others has brought an increasing interest in chemotherapeutics that target this cellular signaling pathway. In this review, the authors summarize the current understanding of science and therapeutic use of the MEK inhibitors targeting the RAS/RAF/ MEK/ERK pathway. Clinical progresses of PD0325901 and AZD6244 are highlighted in addition to developments of new MEK inhibitors. Recently disclosed MEK inhibitors in two sub-divided classes, ATP noncompetitive and ATP competitive inhibitors are discussed.     

Recent advances in protein and peptide drug delivery systems

Delivery of therapeutic proteins/peptides has received a considerable amount of attention over the last 10 years, but there are number of limitations to oral delivery of proteins. The barriers to peptide bioavailability after oral administration are intestinal membrane permeability, size, intestinal and hepatic metabolism and lastly solubility. A number of approaches have been used to overcome these limitations. Poor membrane permeabilities of hydrophilic peptides might be overcome by structurally modifying the compound, thus increasing their membrane partition characteristics and their affinity for carrier proteins. Another approach is site specific delivery of the peptides to the most permeable part of the intestine. Metabolism (hepatic and intestinal) of peptides might be controlled by co-administration of competitive enzyme inhibitors, structural modifications and administration of the compound as well as absorbed prodrug that is converted into therapeutically active agent after its absorption. Various delivery systems like prolease technology, nano-particulate and microparticulate delivery system, mucoadhesive delivery of peptides and microspheres have been developed for the delivery of proteins and peptides. Non-conventional delivery systems for proteins are biodegradable and non-biodegradable systems. Besides these, some other approaches for protein and peptide delivery are vector mediated delivery of proteins using adenovirus, macroflux transdermal patches, pulmonary delivery of proteins, delivery of proteins and peptides across blood brain barrier.     

Construction and application of biotin–poloxamer conjugate micelles for chemotherapeutics

Biotin was conjugated on poloxamer to prepare biotin–poloxamer (BP) conjugate micelles for chemotherapeutics. Epirubicin (EPI) was encapsulated in BP micelles. The EPI-loaded BP micelles were characterized in terms of size, ζ-potential, morphology, drug loading, drug encapsulation and drug release. Marrow leukemic HL-60 cells were used for evaluating the in vitro cytotoxicity of EPI-loaded BP micelles. Nude mice were axillainoculated subcutaneously HL-60 cells to establish tumour model for investigating the inhibition effects of EPI-loaded BP micelles. From the results, the sizes of these nanoparticles were about 100?nm. Fluorescence microscope observation supported the enhanced cellular uptake of the micelles. The order of the inhibition on tumour volume growth was: EPI-loaded BP micelles >EPI-loaded MATP micelles >EPI-loaded poloxamer micelles >EPI. BP micelles showed significant antitumour activity and low toxicity, compared with the non-targeted micelles. With the advantage of EPR effect and tumour-targeting potential, BP conjugate micelles might be developed as a new system for chemotherapeutics.     

Recent advances with alkaline phosphatase isoenzymes and their inhibitors

Alkaline phosphatases are found in different living species and play crucial roles in various significant functions, such as hydrolyzing a variable spectrum of phosphate-containing physiological compounds, contributing to DNA synthesis, bone calcification, and attenuation of inflammation. They are homodimeric enzymes; each subunit contains one magnesium ion and two zinc ions crucial for the catalytic activity of the enzyme. Alkaline phosphatases exist in four distinct isoenzymes (placental, intestinal, germ cell, and tissue nonspecific alkaline phosphatases), which are expressed by four different genes; each one of them has distinguished functions. Any disturbance in the gene expression of alkaline phosphatase eventually induces serious disease conditions. Thus, the need to explore new lead inhibitors has increased recently. In this literature review, we aim to investigate the role of alkaline phosphatase in different diseases and physiological conditions and to study the structure–activity relationships of recently reported inhibitors. We focused on the lead compounds reported in the last 5 years (between 2015 and 2019).     

脂质体递药系统的临床研究进展

本文将脂质体递药系统按结构、组成和功能分成普通脂质体、多囊脂质体、长循环脂质体、热敏脂质体和免疫脂质体5类，分别介绍其应用和临床研究进展。     

Recent advances of benzimidazole as anticancer agents

Cancer is the second leading cause of death globally, with 9.6 million deaths yearly. As a life-threatening disease, it necessitates the emergence of new therapies. Resistance to current chemotherapies drives scientists to develop new medications that will eventually be accessible. Because heterocycles are so common in biological substances, compounds play a big part in the variety of medications that have been developed. The “Master Key” is the benzimidazole nucleus, which consists of a six-membered benzene ring fused with a five-membered imidazole/imidazoline ring, which is an azapyrrole. One of the five-membered aromatic nitrogen heterocycles identified in American therapies that have been approved by the Food and Drug Administration (FDA). Our results show that benzimidazole's broad therapeutic spectrum is due to its structural isosteres with purine, which improves hydrogen bonding, electrostatic interactions with topoisomerase complexes, intercalation with DNA, and other functions. It also enhances protein and nucleic acid inhibition, tubulin microtubule degeneration, apoptosis, DNA fragmentation, and other functions. Additionally, readers for designing the more recent benzimidazole analogues as prospective cancer treatments.     

Recent advances in testing of microsphere drug delivery systems

ABSTRACT

Introduction: This review discusses advances in the field of microsphere testing.

Areas covered: In vitro release-testing methods such as sample and separate, dialysis membrane sacs and USP apparatus IV have been used for microspheres. Based on comparisons of these methods, USP apparatus IV is currently the method of choice. Accelerated in vitro release tests have been developed to shorten the testing time for quality control purposes. In vitro-in vivo correlations using real-time and accelerated release data have been developed, to minimize the need to conduct in vivo performance evaluation. Storage stability studies have been conducted to investigate the influence of various environmental factors on microsphere quality throughout the product shelf life. New tests such as the floating test and the in vitro wash-off test have been developed along with advancement in characterization techniques for other physico-chemical parameters such as particle size, drug content, and thermal properties.

Expert opinion: Although significant developments have been made in microsphere release testing, there is still a lack of guidance in this area. Microsphere storage stability studies should be extended to include microspheres containing large molecules. An agreement needs to be reached on the use of particle sizing techniques to avoid inconsistent data. An approach needs to be developed to determine total moisture content of microspheres.     

Recent advances in intravital imaging of dynamic biological systems

Intravital multiphoton microscopy has opened a new era in the field of biological imaging. Focal excitation of fluorophores by simultaneous attack of multiple (normally "two") photons generates images with high spatial resolution, and use of near-infrared lasers for multiphoton excitation allows penetration of thicker specimens, enabling biologists to visualize living cellular dynamics deep inside tissues and organs without thin sectioning. Moreover, the minimized photo-bleaching and toxicity associated with multiphoton techniques is beneficial for imaging of live specimens for extended observation periods. Here we focus on recent findings using intravital multiphoton imaging of dynamic biological systems such as the immune system and bone homeostasis. The immune system comprises highly dynamic networks, in which many cell types actively travel throughout the body and interact with each other in specific areas. Therefore, real-time intravital imaging represents a powerful tool for understanding the mechanisms underlying this dynamic system.     

透血脑屏障制剂的研究进展

透血脑屏障的研究是药剂学研究中的一个热点和难点，目前研究较多的途径是静脉注射纳米粒和鼻腔给药。综述了纳米粒的载药方法和透血脑 屏障的机制，通过鼻腔给药实现透血脑屏障的途径，影响药物从嗅觉区进入中枢神经系统的因素以及大分子药物利用该途径的可能性。