During mouse embryonic development a mass of pluripotent epiblast tissue is transformed during gastrulation to generate the three definitive germ layers endoderm, mesoderm, and ectoderm. During gastrulation, a spatiotemporally controlled sequence of events results in the generation of organ progenitors and positions them in a stereotypical fashion throughout the embryo. Key to the correct specification and differentiation of these cell fates is the establishment of an axial coordinate system along with the integration of multiple signals by individual epiblast cells to produce distinct outcomes. These signaling domains evolve as the anterior-posterior axis is established and the embryo grows in size. Gastrulation is initiated at the posteriorly positioned primitive streak, from which nascent mesoderm and endoderm progenitors ingress and begin to diversify. Advances in technology have facilitated the elaboration of landmark findings that originally described the epiblast fate map and signaling pathways required to execute those fates. Here we will discuss the current state of the field and reflect on how our understanding has shifted in recent years.Vitamin D receptor (VDR) signaling is important for optimal neurobehavioral development. Disruption of VDR signaling by environmental toxicants during early development might contribute to the etiology of behavioral dysfunction. In the current set of studies, we examined ten compounds known to affect VDR function in vitro for neurobehavioral effects in vivo in zebrafish. Zebrafish embryos were exposed to concentrations of the compounds in their water during the first 5 days post-fertilization. On day 5, the embryos were tested in an alternating light-dark locomotor assay using a computerized video tracking system. We found that most of the compounds produced significant changes in locomotor behavior in exposed zebrafish larvae, although the direction of the effect (i.e., hypo- or hyperactivity) and the sensitivity of the effect to changes in illumination condition varied across the compounds. The nature of the behavioral effects generally corresponded to the effects these compounds have been shown to exert on VDR. These studies lay a foundation for further investigation to determine whether behavioral dysfunction persists into adulthood and if so which behavioral functions are affected. Zebrafish can be useful for screening compounds identified in high throughput in vitro assays to provide an initial test for how those compounds would affect construction and behavioral function of a complex nervous system, helping to bridge the gap between in vitro neurotoxicity assays and mammalian models for risk assessment in humans.Complete genome sequencing of the kinetoplastid protozoans Trypanosoma cruzi, Trypanosoma brucei and Leishmania major (Tritryp), published in 2005, opened up new perspectives for drug development targeting Chagas disease, African sleeping sickness and Leishmaniasis, neglected diseases affecting millions of most economically disadvantaged people. Still, half of the Tritryp genes code for proteins of unknown function. Moreover, almost 50% of conserved eukaryotic protein domains are missing in the Tritryp genomes. This suggests that functional and structural characterization of proteins of unknown function could reveal novel protein folds used by the trypanosomes for common cellular processes. Furthermore, proteins without homologous counterparts in humans may provide potential targets for therapeutic intervention. Here we describe the crystal structure of the T. cruzi protein Q4D6Q6, a conserved and kinetoplastid-specific protein essential for cell viability. Q4D6Q6 is a representative of a family of 20 orthologs, all annotated as proteins of unknown function. Q4D6Q6 monomers adopt a ββαββαββ topology and form a propeller-like tetramer. Oligomerization was verified in solution using NMR, SAXS, analytical ultra-centrifugation and gel filtration chromatography. A rigorous search for similar structures using the DALI server revealed similarities with propeller-like structures of several different functions. Although a Q4D6Q6 function could not be inferred from such structural comparisons, the presence of an oxidized cysteine at position 69, part of a cluster with phosphorylated serines and hydrophobic residues, identifies a highly reactive site and suggests a role of this cysteine as a nucleophile in a post-translational modification reaction.The European Federation of Pharmaceutical Sciences (EUFEPS) and American Association of Pharmaceutical Scientists (AAPS) have collaborated since 2015 to organize international conferences to support global harmonization of regulatory requirements for bioequivalence (BE) assessment. This collaboration has resulted in three Global Bioequivalence Harmonization Initiative (GBHI) workshops which provided a unique opportunity for scientists from academia, industry, and regulatory agencies to discuss current, complex BE issues. The 3rd GBHI workshop was held in April 2018 in Amsterdam/The Netherlands and covered the following topics (a) the necessity of multiple-dose studies in BE testing; (b) BE of transdermal delivery systems, and (c) liposomal parenteral preparations. This report summarizes the extensive discussions that led to better understanding of the similarities and differences across the major regulatory agencies on these topics and paved the way for future international harmonization.Trichomonas vaginalis infection is the STI most common worldwide. Indole-3-carbinol (I3C) is a phytochemical presenting promising biological activities. In this study, design, formulation, and evaluation of a vaginal hydrogel containing I3C-loaded nanocapsules for the treatment of trichomoniasis have been investigated. Nanocapsules of Eudragit® RS100 and rosehip oil containing I3C (NC-I3C) were prepared by interfacial deposition of preformed polymer method. In vitro evaluations showed that free I3C (IC50 = 3.36 µg/mL) was able to reduce the trophozoites viability at higher concentrations (3.13 and 6.25 µg/mL), while nanoencapsulation (IC50 = 2.09 µg/mL) reduced the viability at all concentrations evaluated. Comparing free and nanoencapsulated I3C, we observe that nanoencapsulation improved anti-T. vaginalis activity. In order to obtain a formulation for vaginal administration, hydrogels (HG-NC-I3C) were prepared by thickening the NC-I3C with gellan gum.  https://www.selleckchem.com/products/zidesamtinib.html  HG-NC-I3C presented particle size below 195 nm, low polydispersity index ( less then 0.