Human Liver Spheroids from Peripheral Blood for Liver Disease Studies.

Human liver cells can form a three-dimensional (3D) structure capable of growing in culture for some weeks, preserving their functional capacity. Due to their nature to cluster in the culture dishes with low or no adhesive characteristics, they form aggregates of multiple liver cells that are called human liver spheroids. The forming of 3D liver spheroids relies on the natural tendency of hepatic cells to aggregate in the absence of an adhesive substrate.

GM-Free Generation of Blood-Derived Neuronal Cells.

Many human neurological disorders are caused by degeneration of neurons and glial cells in the brain. Due to limitations in pharmacological and other therapeutic strategies, there is currently no cure available for the injured or diseased brain. Cell replacement appears as a promising therapeutic strategy for neurodegenerative conditions.

Identification of a small-molecule ligand of the epigenetic reader protein Spindlin1 via a versatile screening platform.

Epigenetic modifications of histone tails play an essential role in the regulation of eukaryotic transcription. Writer and eraser enzymes establish and maintain the epigenetic code by creating or removing posttranslational marks. Specific binding proteins, called readers, recognize the modifications and mediate epigenetic signalling.

Crystal structure of Cdc11, a septin subunit from Saccharomyces cerevisiae.

Septins are a conserved family of GTP-binding proteins that assemble into a highly ordered array of filaments at the mother bud neck in Saccharomyces cerevisiae cells. Many molecular functions and mechanisms of the septins in S. cerevisiae were already uncovered.

Assembly of methylated KDM1A and CHD1 drives androgen receptor-dependent transcription and translocation.

Prostate cancer evolution is driven by a combination of epigenetic and genetic alterations such as coordinated chromosomal rearrangements, termed chromoplexy. TMPRSS2-ERG gene fusions found in human prostate tumors are a hallmark of chromoplexy. TMPRSS2-ERG fusions have been linked to androgen signaling and depend on androgen receptor (AR)-coupled gene transcription.

NMR backbone assignments of the tyrosine kinase domain of human fibroblast growth factor receptor 1.

Members of the fibroblast growth factor receptor tyrosine kinase family (FGFR1-4) play an important role in many signalling cascades. Although tightly regulated, aberrant activity of these enzymes may lead to, or become features of, disease pathologies including cancer. FGFR isoforms have been the subject of drug discovery programmes, with a number of kinase-domain inhibitors in pre-clinical and clinical development.

Identification of first proadrenomedullin N-terminal 20 peptide (PAMP) modulator by means of virtual screening and NMR interaction experiments.

PAMP (proadrenomedullin N-terminal 20 peptide) is a regulatory peptide that is detected in a large variety of cell types and exerts important biological activities. PAMP acts as a potent angiogenic factor and decorates microtubules in cells from different origins, controlling tubulin polymerization. A high-throughput docking-based virtual screening was performed, followed by a competitive monoclonal antibody assay on selected compounds, and a detailed (1)H, (15)N NMR spectroscopy study.

Protein-ligand crystal structures can guide the design of selective inhibitors of the FGFR tyrosine kinase.

The design of compounds that selectively inhibit a single kinase is a significant challenge, particularly for compounds that bind to the ATP site. We describe here how protein-ligand crystal structure information was able both to rationalize observed selectivity and to guide the design of more selective compounds. Inhibition data from enzyme and cellular screens and the crystal structures of a range of ligands tested during the process of identifying selective inhibitors of FGFR provide a step-by-step illustration of the process.

Polymer coiled-coil conjugates: potential for development as a new class of therapeutic "molecular switch".

Polymer therapeutics, including polymeric drugs and polymer-protein conjugates, are clinically established as first-generation nanomedicines. Knowing that the coiled-coil peptide motif is fundamentally important in the regulation of many cellular and pathological processes, the aim of these studies was to examine the feasibility of designing polymer conjugates containing the coiled-coil motif as a putative therapeutic "molecular switch". To establish proof of concept, we prepared a mPEG-FosW(C) conjugate by reacting mPEG-maleimide (M(w) 5522 g mol(-1), M(w)/M(n) 1.

Evolution of vitamin B2 biosynthesis. A novel class of riboflavin synthase in Archaea.

The open reading frame MJ1184 of Methanococcus jannaschii with similarity to riboflavin synthase of Methanothermobacter thermoautotrophicus was cloned into an expression vector but was poorly expressed in an Escherichia coli host strain. However, a synthetic open reading frame that was optimized for expression in E.coli directed the synthesis of abundant amounts of a protein with an apparent subunit mass of 17.