Acetylcholinesterase (AChE) inhibitors are an important class of medicinal agents useful for the treatment of Alzheimer s disease, glaucoma, myasthenia gravis and for the recovery of neuromuscular block in surgery. To rationalize the structural requirements of AChE inhibitors we attempt to derive a coherent AChE-inhibitor recognition pattern based on literature data of molecular modelling and quantitative structure-activity relationship (QSAR) analyses. These data are summarised from nearly all therapeutically important chemical classes of reversible AChE inhibitors, e.g., derivatives of physostigmine, tacrine, donepezil and huperzine A. Interactions observed from X-ray crystallography between these inhibitors and AChE have also been incorporated and compared with modelling and QSAR results. It is concluded that hydrophobicity and the presence of an ionizable nitrogen are the pre-requisites for the inhibitors to interact with AChE. However the mode of interaction i.e., the 3-dimensional (3D) positioning of the inhibitor in the active site of the enzyme varies among different chemical classes. It is also recognised that water molecules play crucial roles in defining these different 3D positioning. The information on AChE-inhibitor interactions provided should be useful for future discovery of new chemical classes of AChE inhibitors, especially from De Novo design and hybrid construction.
An efficient and cost effective micropropagation protocol using liquid medium was developed for Catharanthus roseus, a commercially important medicinal plant. Comparative analysis of shoot growth and proliferation in liquid Murashige and Skoog (MS) medium supplemented with different concentrations of cytokinins [6-Benzyladenine (BA), Kinetin (KN) and Thidiazuron (TDZ)] was conducted. Better response in terms of shoot proliferation, shoot diameter, number of leaves/shoot, number of branches/shoot, fresh weight and dry weight was observed in a liquid medium vis-à-vis solid medium. A sample of 20 ml of liquid medium supplemented with 5 lM of BA was optimized for propagation of C. roseus by a liquid culture system. Among various concentrations of auxins tried, 1-Naphthaleneacetic acid (NAA) 5 lM was found to be the best for root induction. Quantification of pharmaceutically important constituents (vincristine and vinblastine) and total alkaloid content of microshoots grown in solid and liquid medium as well as in vitro raised plants and mother plant was also conducted, hitherto unreported in this highvalue medicinal plant. This work further lays the foundations for the shifting of plant production from small to commercial scale.
PI3Kδ is a lipid kinase and a member of a larger family of enzymes, PI3K class IA(α, β, δ) and IB (γ), which catalyze the phosphorylation of PIP2 to PIP3. PI3Kδ is mainly expressed in leukocytes, where it plays a critical, nonredundant role in B cell receptor mediated signaling and provides an attractive opportunity to treat diseases where B cell activity is essential, e.g., rheumatoid arthritis. We report the discovery of novel, potent, and selective PI3Kδ inhibitors and describe a structural hypothesis for isoform (α, β, γ) selectivity gained from interactions in the affinity pocket. The critical component of our initial pharmacophore for isoform selectivity was strongly associated with CYP3A4 time-dependent inhibition (TDI). We describe a variety of strategies and methods for monitoring and attenuating TDI. Ultimately, a structure-based design approach was employed to identify a suitable structural replacement for further optimization.
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