Seidl_2022_Front.Mol.Biosci_9_868597

Reference

Title : A Comprehensive 2D-LC\/MS Online Platform for Screening of Acetylcholinesterase Inhibitors - Seidl_2022_Front.Mol.Biosci_9_868597
Author(s) : Seidl C , de Lima JM , Leme GM , Pires AF , Stoll DR , Cardoso CL
Ref : Front Mol Biosci , 9 :868597 , 2022
Abstract :

The continuous interest in discovering new bioactive molecules derived from natural products (NP) has stimulated the development of improved screening assays to help overcome challenges in NP-based drug discovery. Here, we describe a unique platform for the online screening of acetylcholinesterase inhibitors without the need for pre-treating the sample. In the current study, we have demonstrated the ability to combine reversed-phase separation with a capillary immobilized enzyme reactor (cIMER) in two-dimensional liquid chromatography system coupled with mass spectrometry detection. We systematically investigated the effects of method parameters that are of practical significance and are known to affect the enzyme assay and interfere in the analysis such as: bioreactor dimensions, loop sizes, amount of immobilized enzyme, second dimension flow rates, reaction time, substrate concentration, presence of organic modifier, limit of detection and signal suppression. The performance of this new platform was evaluated using a mixture containing three known AChE inhibitors (tacrine, galanthamine and donepezil) and an ethanolic extract obtained from the dry bulbs of Hippeastrum calyptratum (Amaryllidaceae) was investigated to provide a proof of concept of the applicability of the platform for the analysis of complex mixtures such as those derived from NPs.

PubMedSearch : Seidl_2022_Front.Mol.Biosci_9_868597
PubMedID: 35372507

Related information

Citations formats

Seidl C, de Lima JM, Leme GM, Pires AF, Stoll DR, Cardoso CL (2022)
A Comprehensive 2D-LC\/MS Online Platform for Screening of Acetylcholinesterase Inhibitors
Front Mol Biosci 9 :868597

Seidl C, de Lima JM, Leme GM, Pires AF, Stoll DR, Cardoso CL (2022)
Front Mol Biosci 9 :868597