Publications by authors named "S Noiman"
This study describes the development of aptamers as a therapy against influenza virus infection. Aptamers are oligonucleotides (like ssDNA or RNA) that are capable of binding to a variety of molecular targets with high affinity and specificity. We have studied the ssDNA aptamer BV02, which was designed to inhibit influenza infection by targeting the hemagglutinin viral protein, a protein that facilitates the first stage of the virus' infection.
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- Recent studies indicate that the 5-HT(4) receptor activity improves cognition and offers neuroprotection, with the novel partial agonist VRX-03011 showing promise.
- In experiments with rats, VRX-03011 significantly improved cognitive performance under delayed conditions while not affecting performance in immediate tasks and enhanced acetylcholine output in the hippocampus.
- The compound also positively influenced amyloid precursor protein metabolism without causing gastrointestinal side effects, suggesting its potential as a treatment for Alzheimer's disease.
We report the discovery of a novel, potent, and selective amidosulfonamide nonazapirone 5-HT1A agonist for the treatment of anxiety and depression, which is now in Phase III clinical trials for generalized anxiety disorder (GAD). The discovery of 20m (PRX-00023), N-{3-[4-(4-cyclohexylmethanesulfonylaminobutyl)piperazin-1-yl]phenyl}acetamide, and its backup compounds, followed a new paradigm, driving the entire discovery process with in silico methods and seamlessly integrating computational chemistry with medicinal chemistry, which led to a very rapid discovery timeline. The program reached clinical trials within less than 2 years from initiation, spending less than 6 months in lead optimization with only 31 compounds synthesized.
View Article and Find Full Text PDFG-protein coupled receptors (GPCRs) are a major group of drug targets for which only one x-ray structure is known (the nondrugable rhodopsin), limiting the application of structure-based drug discovery to GPCRs. In this paper we present the details of PREDICT, a new algorithmic approach for modeling the 3D structure of GPCRs without relying on homology to rhodopsin. PREDICT, which focuses on the transmembrane domain of GPCRs, starts from the primary sequence of the receptor, simultaneously optimizing multiple 'decoy' conformations of the protein in order to find its most stable structure, culminating in a virtual receptor-ligand complex.
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- Structure-based in silico methods for drug discovery face challenges when the x-ray structure of target proteins, like human G protein-coupled receptors (GPCRs), is unknown, necessitating the use of 3D models.
- Researchers achieved success using ab initio in silico models for blind screening across five GPCR targets, screening over 100,000 compounds and ultimately narrowing it down to less than 100 virtual hits for laboratory testing.
- In vitro binding assays showed high hit rates of 12-21%, with many top hits being novel compounds exhibiting promising pharmacological properties, confirming the effectiveness of these in silico methods in identifying lead compounds for drug discovery.