Current Medicinal Chemistry - Volume 24, Issue 38, 2017

Background: Molecular lesions of the NRG1 gene were recently described as a new molecular feature of Invasive Mucinous Adenocarcinoma of the lung. The NRG1 chimeric ligand leads to aberrant activation of the ErbB2/ErbB3 signaling via PI3K–AKT and MAPK cellular cascades. This review aims to highlight the current knowledge about the ErbB network and the effect of NRG1 deregulation in lung cancer and their merger into the ErbB/PI3K-AKT axis modulation by current pharmacologic strategies. Methods: We performed a structured search of bibliographic databases for peer-reviewed literature to outline the state of the art with regard ErbB signaling deregulation and NRG1 function in lung cancer. The quality of retrieved papers was assessed using standard tools and one hundred thirty-five were included in the review. In many papers the molecular lesions affecting the ErbB receptors in lung cancer but also in other type of solid tumors were updated. Papers describing the physiological role of NRG1 in cells was also screened for the review preparation, as well as the paper reporting NRG1 fusions in lung cancer and their implication in aberrant ErbB pathway activation. Results and Conclusion: Overall, this review highpoints how the knowledge of new molecular mechanisms of ErbB pathway deregulation may help in gaining new insights into the molecular status of lung cancer patients and unveil a novel molecular markers of patients' stratification. Moreover, this ultimately led the selection of new compounds designed to inhibit the bound between Nrg1-ErbB3 as a good alternative way to block the ErbB intracellular signaling.

Prostate cancer significantly affects the overall morbidity and mortality of malignant tumours in highly developed countries. Important risk factors include family predisposition and regional, racial and dietary determinants. The scientific literature contains a great deal of data on the role of calcium and dairy products in general in the process of neoplastic transformation of the prostate. This is most likely linked to the fact that changes in the concentration of calcium ions control such varied life processes as secretion of hormones and neurotransmitters, the level of cyclic nucleotides, and cell growth, division and differentiation. Research is conducted to demonstrate that disorders of cell cycle control due to differences in calcium ion concentrations may be crucial for the development and prevention of cancer. Disturbances of calcium homeostasis in the body can be caused by various mechanisms, such as excessive calcium intake in the diet, vitamin D deficiency, structural and functional changes in vitamin D receptor (VDR), Calcium-Sensing Receptor (CaSR), and parathyroid hormone receptor (PTH-1-R), changes in calcium ion channels, phosphate metabolism disorders (phosphatonin and the Klotho protein), changes in the level of parathyroid hormone-related protein (PTHrP), and others. The article presents data on the mechanisms maintaining calcium homeostasis at the molecular level and genetic aspects playing a role in the pathogenesis of prostate cancer. The data cited on the occurrence of abnormal mechanisms of calcium metabolism in prostate cancer suggest the need for individualized intake of this element in the diet, especially in the case of patients with a family history of PCa.

Background: With global increase in elderly population, modern societies must find strategies to reduce the consequences of aging process; thereby decreasing the incidence of age-related neurodegenerative diseases. Oxidative stress and recently inflammation, have been pointed out as the leading causes of brain aging. Thereby, the consumption or administration of antioxidant and anti-inflammatory molecules, such as polyphenols, is a beneficial strategy recommended for preventing brain aging and several brain age-related diseases. Methods and Results: Several studies suggest that long term consumption of dietary polyphenols offers protection against development of neurodegenerative diseases. These beneficial effects are in part due to their antioxidant and anti-inflammatory properties, together with their positive role in the modulation of processes involved in the physiopathology of several neurodegenerative diseases (e.g., epigenetic factors, amyloid deposition, cholinesterase inhibition, autophagy, and neurotrophic factors, among others). Altogether, these molecules open the door to the research of new neuroprotective strategies. This review summarizes the latest discoveries in how polyphenols can exert positive effects on brain health in aging, emphasizing those effects on the diseases that most commonly affect the brain during aging: Parkinson's Disease (PD), Alzheimer's disease (AD), dementia and depression. Moreover, within are addressed the epigenetic effects of polyphenols as possible mediators in their positive effects on brain health, and the future challenges of research in this topic Conclusion: In brief, this review presents a report of state-of the art knowledge regarding the positive influences of polyphenols on the most common brain age-related diseases as well as in healthy brain aging.

Background: The complex architecture of the mycobacterial cell wall is responsible for many physiological and infection-associated properties of these pathogens. Long chain mycolic acids with chiral functional groups constitute a major lipid envelope component, and therefore play a crucial role in determining the permeability and fluidity of the cell wall. Varying proportions of the different mycolate types are present in various mycobacteria. This serves to designate a specific mycolic acid profile, allowing the differentiation of species and subspecies. Objective: In this review, we explore the diversity in mycolic acid chemical structure, its influence on cell wall permeability and consequences for virulence, and present how they might be exploited as research targets in diagnosis and chemotherapy. Methods: The search of bibliographic databases for adequate, informative and valuable peerreviewed literature was undertaken. The proper papers were identified by the hand and electronic searching through the relevant to the topic-leading journals, key words, named authors, reference scanning, etc. Results: The review is based on the ninety two carefully selected articles that allow this review to provide up-to-date information. Twenty nine papers were published within last 5 years, including 10 showed up in 2016-2017. Conclusion: The revision of the relevant literature showed that mycolic acids played a crucial role in host-pathogen interactions and thus might serve as a promising tool for differentiation of mycobacterial species and discovering novel tuberculocidal therapeutic strategies.

Background: A great effort has been made to develop efficacious antiviral drugs, but many viral infections are still lack of efficient antiviral therapies so far. The related exploration of natural products to fight viruses has been raised in recent years. Natural compounds with structural diversity and complexity offer a great chance to find new antiviral agents. Particularly, phenolic acids have attracted considerable attention owing to their potent antiviral abilities and unique mechanisms. The aim of this review is to report new discoveries and updates pertaining to antiviral phenolic acids. Methods: The relevant references on natural phenolic acids were searched. The antiviral phenolic acids were classified according to their structural properties and antiviral types. Meanwhile, the antiviral characteristics and structure-activity relationships of phenolic acids and their derivatives were summarized. Results: The review finds that natural phenolic acids and their derivatives possessed potent inhibitory effects on multiple virus in humans such as human immunodeficiency virus, hepatitis C virus, hepatitis B virus, herpes simplex virus, influenza virus and respiratory syncytial virus. In particular, caffeic acid/gallic acid and their derivatives exhibited outstanding antiviral properties by a variety of modes of action. Conclusion: Naturally derived phenolic acids especially caffeic acid/gallic acid and their derivatives may be regarded as novel promising antiviral leads or candidates. Additionly, scarcely any of these compounds has been used as antiviral treatment in clinical practice. Therefore, these phenolic acids with diverse skeletons and mechanisms provide us an excellent resource for finding novel antiviral drugs.

Background: Antimicrobial resistance (AMR) has posed a serious threat to global public health and it requires immediate action, preferably long term. Current drug therapies have failed to curb this menace due to the ability of microbes to circumvent the mechanisms through which the drugs act. From the drug discovery point of view, the majority of drugs currently employed for antimicrobial therapy are small molecules. Recent trends reveal a surge in the use of peptides as drug candidates as they offer remarkable advantages over small molecules. Methods: Newer synthetic strategies like organometalic complexes, Peptide-polymer conjugates, solid phase, liquid phase and recombinant DNA technology encouraging the use of peptides as therapeutic agents with a host of chemical functions, and tailored for specific applications. In the last decade, many peptide based drugs have been successfully approved by the Food and Drug Administration (FDA). This success can be attributed to their high specificity, selectivity and efficacy, high penetrability into the tissues, less immunogenicity and less tissue accumulation. Considering the enormity of AMR, the use of Antimicrobial Peptides (AMPs) can be a viable alternative to current therapeutics strategies. AMPs are naturally abundant allowing synthetic chemists to develop semi-synthetics peptide molecules. AMPs have a broad spectrum of activity towards microbes and they possess the ability to bypass the resistance induction mechanisms of microbes. Result: The present review focuses on the potential applications of AMPs against various microbial disorders and their future prospects. Several resistance mechanisms and their strategies have also been discussed to highlight the importance in the current scenario. Conclusion: Breakthroughs in AMP designing, peptide synthesis and biotechnology have shown promise in tackling this challenge and has revived the interest of using AMPs as an important weapon in fighting AMR.