Tau protein aggregation: Key features to improve drug discovery screening.

Tauopathies are neurodegenerative disorders associated with the accumulation of abnormal tubulin associated unit (tau) protein in the brain. Tau pathologies include a broad spectrum of diseases, with Alzheimer's disease (AD) being the most common tauopathy. The pathophysiological mechanisms of AD are still only partially understood. As a consequence, attempts to establish therapeutic approaches have led to numerous clinical trial failures and, to date, no curative treatment is available for AD despite the considerable number of research programs. Therefore, over the past decade, the aggregation of the tau protein in AD has become a therapeutic target of interest. In this review, we gather in silico, in vitro, and in vivo methodologies that are relevant to assess compounds targeting tau aggregation, from early drug design to clinical trials.

Drug Repurposing: Deferasirox Inhibits the Anti-Apoptotic Activity of Mcl-1.

INTRODUCTION: With the aim of repositioning commercially available drugs for the inhibition of the anti-apoptotic myeloid cell leukemia protein, Mcl-1, implied in various cancers, five molecules, highlighted from a published theoretical screening, were selected to experimentally validate their affinity toward Mcl-1. RESULTS: A detailed NMR study revealed that only two of the five tested drugs, Torsemide and Deferasirox, interacted with Mcl-1. NMR data analysis allowed the complete characterization of the binding mode of both drugs to Mcl-1, including the estimation of their affinity for Mcl-1. Biological assays evidenced that the biological activity of Torsemide was lower as compared to the Deferasirox, which was able to efficiently and selectively inhibit the anti-apoptotic activity of Mcl-1. Finally, docking and molecular dynamics led to a 3D model for the Deferasirox:Mcl-1 complex and revealed the positioning of the drug in the Mcl-1 P2/P3 pockets as well as almost all synthetic Mcl-1 inhibitors. Interestingly, contrary to known synthetic Mcl-1 inhibitors which interact through Arg263, Deferasirox, establishes a salt bridge with Lys234. CONCLUSION: Deferasirox could be a potential candidate for drug repositioning as Mcl-1 inhibitor.

Structural revision of the Mcl-1 inhibitor MIM1: synthesis and biological studies on ovarian cancer cells with evaluation of designed analogues.

In the area of cancer research, the development of new and potent inhibitors of anti-apoptotic proteins is a very active and promising topic. The small molecule MIM1 has been reported earlier as one of the first selective inhibitors of the anti-apoptotic protein Mcl-1. In the present paper, we first revised the structure of this molecule based on extensive physicochemical analyses. Then we designed and synthesized a focused library of analogues for the corrected structure of MIM1. Next, these molecules were subjected to a panel of in cellulo biological studies, allowing the identification of dual Bcl-xL/Mcl-1 inhibitors, as well as selective Mcl-1 inhibitors. These results have been complemented by fluorescence polarization assays with the Mcl-1 protein. Preliminary structure-activity relationships were discussed and extensive molecular modelling studies allowed us to propose a rationale for the biological activity of this series of new inhibitors, in particular for the selectivity of inhibition of Mcl-1 versus Bcl-xL.

Nutrient Requirements during Pregnancy and Lactation.

A woman's nutritional status during pregnancy and breastfeeding is not only critical for her health, but also for that of future generations. Nutritional requirements during pregnancy differ considerably from those of non-pregnant women. Thus, a personalized approach to nutritional advice is recommended. Currently, some countries recommend routine supplementation for all pregnant women, while others recommend supplements only when necessary. Maternal physiological adaptations, as well as nutritional requirements during pregnancy and lactation, will be reviewed in the literature examining the impacts of dietary changes. All of these data have been studied deeply to facilitate a discussion on dietary supplement use and the recommended doses of nutrients during pregnancy and lactation. The aim of this review is to evaluate the knowledge in the scientific literature on the current recommendations for the intake of the most common micronutrients and omega-3 fatty acids during pregnancy and lactation in the United States, Canada, and Europe. Taking into account these considerations, we examine minerals, vitamins, and omega-3 fatty acid requirements. Finally, we conclude by discussing the potential benefits of each form of supplementation.

Noncellular screening for the discovery of protein-protein interaction modulators.

Protein-protein interactions (PPIs) constitute many potential therapeutic targets for the discovery of new drugs. Given their specificity, PPIs are more challenging to target than other ligands. Thus, finding the best screening process can be difficult. Moreover, PPIs often have no direct accessible activity readout. Therefore, it can be unclear which test to choose for the screening of small molecules targeting PPIs. Given that noncellular assays are the most suitable both as first screening assays and for high-throughput screening (HTS), here we focus on noncellular screening assays. For each assay, we discuss the principles and advantages/drawbacks and provide a recent example. We also highlight the crucial parameters to take into account to select the most suitable assays to screen PPI modulators.

Tau protein aggregation in Alzheimer's disease: An attractive target for the development of novel therapeutic agents.

Alzheimer's Disease (AD) is a neurodegenerative brain disorder in which many biological dysfunctions are involved. Among them, two main types of lesions were discovered and widely studied: the amyloid plaques and the neurofibrillary tangles (NFTs). These two lesions are caused by the dysfunction and the accumulation of two proteins which are, respectively, the beta-amyloid peptide and the tau protein. The process that leads these two proteins to aggregate is complex and is the subject of current studies. After a brief description of the aggregation mechanisms, we will provide an overview of new therapeutic agents targeting the different dysfunctions and toxic species found during aggregation.

MR22388, a novel anti-cancer agent with a strong FLT-3 ITD kinase affinity.

This work describes the study of the mechanism of action and spectrum of activity of MR22388, a novel anti-cancer agent belonging to the tripentone series. MR22388 is highly cytotoxic (within the nanomolar range) against numerous cancer cell lines and studies of its cytotoxicity mechanisms show that it is a weak inhibitor of the polymerization of tubulin and that it induces apoptosis via the MAP kinase pathways. Further MR22388 is a very strong inhibitor of several kinases including the tyrosine kinase FLT3-ITD. FLT3-ITD is a mutated form of the tyrosine kinase receptor (RTK) FLT3, resulting in the constitutive activation of the kinase, occurring in about 25% of normal karyotypes' Acute Myeloid Leukemia (AML) and is linked to a bad prognosis. Consecutively, MR22388 appears as a novel promising anticancer lead agent especially for AML therapy.