Litcius/Paper detail

The importance of intramolecular hydrogen bonds on the translocation of the small drug piracetam through a lipid bilayer

João T. S. Coimbra, Ralph Feghali, Rui Pedro Ribeiro, Maria J. Ramos, Pedro Alexandrino Fernandes

2021RSC Advances123 citationsDOIOpen Access PDF

Abstract

and increases the permeability of the tested molecule, partially compensating the desolvation penalty arising from the penetration of the drug into the biological membrane core. This effect was apparent in simulations where the formation of this interaction was prevented with the help of modified potentials, and in simulations with a similar compound to piracetam that was not able to form this intramolecular hydrogen bond due to a larger distance between the hydrogen bond donor and acceptor groups. These results were also supported by coarse-grained methods, which are becoming an important resource for sampling a larger chemical space of molecules, with reduced computational effort. Furthermore, entropy and enthalpy derived profiles were also obtained as the compounds translocated across the membrane, suggesting that, even though the process of formation of internal hydrogen bonds is entropically unfavorable, the enthalpic gain is such that the formation of these interactions is beneficial for the passive diffusion across cell membranes.

Topics & Concepts

Intramolecular forcePiracetamHydrogen bondChromosomal translocationChemistryBilayerLipid bilayerBiophysicsDrugStereochemistryPharmacologyBiochemistryOrganic chemistryMoleculeMembraneBiologyGeneLipid Membrane Structure and BehaviorRNA Interference and Gene DeliveryNeuroscience and Neuropharmacology Research