The Global Fund partnership has made remarkable progress in the fight against AIDS, tuberculosis (TB) and malaria over the last two decades – saving 70 million lives and reducing the combined death ra...

Fibrodysplasia ossificans progressiva (FOP) is a rare autosomal-dominant disease leading to progressive soft tissue heterotopic ossification (HO) with no curative treatment available to date. It is caused by gain-of-function mutations in the activin A type-1 receptor ACVR1/ALK2, a member of the bone morphogenetic protein (BMP) type I receptor family. Most recent clinical trials in FOP have adopted for the first time on-target therapies to normalize the aberrant ALK2 receptor activity. Here we describe the discovery and preclinical characterization of zilurgisertib, a novel small-molecule inhibitor of ALK2 kinase with high biochemical and cellular potency, selectivity over other BMP and TGFβ signaling receptor kinases, and excellent oral bioavailability in preclinical species. Zilurgisertib fully suppresses HO in a pediatric mouse model of injury-induced FOP and therefore holds great potential as a novel targeted disease-modifying therapy for FOP. The candidate is being evaluated in clinical trials.

Epigenetic dysregulation, particularly aberrant histone methylation orchestrated by histone methyltransferases (HMTs), is a fundamental driver of hepatocellular carcinoma (HCC). Among these HMTs, H3K9-specific methyltransferase G9a is markedly upregulated and promotes tumorigenesis. However, current G9a inhibitors lack sufficient selectivity and potency. Here, we identified compound 1071, a novel selective G9a inhibitor with a distinct chemical scaffold, which demonstrates superior cellular activity compared with the existing G9a inhibitor UNC0638. Mechanistically, compound 1071 reduces H3K9me2 levels and modulates the expression of key G9a targets, including p21, FOXO1, and PD-L1. Moreover, compound 1071 exhibits potent antitumor activity in both subcutaneous and c-Myc-driven HCC models, outperforming the first-line drug sorafenib without significant toxicity. This study establishes compound 1071 as a promising lead for G9a-targeted HCC therapy, advancing epigenetic drug discovery.

Recent structure–activity relationships (SAR) were established around KU-177, the parent scaffold for an Hsp90/Aha1 small-molecule disruptor, which suggested that the central amide linker adopted a ci...

Authors analyzed malaria and tuberculosis drugs to create a pharmacometric model. They used an AI pipeline that prioritized pharmacogenetic drug-gene pairs with an emphasis on high variant frequency g...

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If it gets things right, the first major regulator of medicines to launch for 30 years could empower Africa to tackle African challenges around health and disease.

Kinesin spindle protein (KSP) represents a promising target for cancer therapy with a mechanism of action distinct from conventional microtubule agents. We previously identified S-trityl-L-cysteine (S...

The M1 receptor has long been investigated as a promising CNS drug target, yet further research is essential to fully elucidate compound’s Pharmacodynamic (PD) as well as Toxicokinetic (TK) effects. I...

Ferrocenyl–cyclo-(Gly-l-Pro) hybrids as novel inhibitors of ABCB1 and ABCG2 transporters were developed. These organometallic compounds were virtually nontoxic to colon cancer cells, their multidrug-r...

Targeting the capsid protein of the hepatitis B virus (HBV) has emerged as a promising strategy for developing new antiviral therapies. In this study, we report the discovery of a novel series of pyrrole oxo-carboxamide compounds as HBV capsid assembly modulators (CAMs) that block viral replication. Through a process of focused structure–activity relationship (SAR) optimization, we identified compound 12 (VNRX-9945), which exhibited excellent and broad antiviral activity against multiple HBV genotypes in vitro, along with favorable pharmacokinetic profiles across multiple species. Additionally, 12 demonstrated robust efficacy in the adeno-associated virus mouse model of HBV (AAV-HBV) infection. This compound has advanced into Phase 1 clinical trials to evaluate its safety and pharmacokinetics in healthy volunteers, to enable treatment of chronic HBV infections.

This study presents the chemical synthesis and biological evaluation of a series of gold(I)-N-heterocyclic carbene complexes as potential anticancer agents. The compounds demonstrated broad activity a...

Here we harnessed the unexplored binding interface between the 16-residue peptide (P) agonist and death receptor 5 (DR5). P is a solitary peptide ligand that mimics TRAIL (the natural ligand to death receptor) and is reported to control cancer growth in vivo selectively. We delved into the strategic merging of experimental and in silico structure–activity studies via the alanine scanning mutagenesis of P, wherein the disulfide bond was kept intact for structural integrity. Antiproliferative activity studies with these synthetic mutants on HCT116 cells enabled the mapping of the interaction engagement of each residue. Further, in silico docking and MD simulations led us to interpret and model the 3D interface of the binding site. Notably, Trp1, Leu4, Arg7, Ile8, Gln12, and Arg15 were projected experimentally as “hot-spot” residues crucial for primary interactions with DR5, which is predominantly supported via in silico investigations. This study is pivotal for developing new-generation peptide agonists that induce death receptor-mediated apoptosis.

Gastrin-releasing peptide receptor (GRPR) is a promising target for cancer radiotheranostics combining nuclear imaging with targeted radionuclide therapy. Improving the accumulation of radioligands in...