TY - JOUR
T1 - Screening of Heteroaromatic Scaffolds against Cystathionine Beta-Synthase Enables Identification of Substituted Pyrazolo[3,4-c]Pyridines as Potent and Selective Orthosteric Inhibitors
AU - Fantel, Anna Maria
AU - Myrianthopoulos, Vassilios
AU - Georgoulis, Anastasios
AU - Lougiakis, Nikolaos
AU - Zantza, Iliana
AU - Lamprinidis, George
AU - Augsburger, Fiona
AU - Marakos, Panagiotis
AU - Vorgias, Constantinos E.
AU - Szabo, Csaba
AU - Pouli, Nicole
AU - Papapetropoulos, Andreas
AU - Mikros, Emmanuel
N1 - Publisher Copyright:
© 2020 by the authors.
PY - 2020/8
Y1 - 2020/8
N2 - Cystathionine β-synthase (CBS) is a key enzyme in the production of the signaling molecule hydrogen sulfide, deregulation of which is known to contribute to a range of serious pathological states. Involvement of hydrogen sulfide in pathways of paramount importance for cellular homeostasis renders CBS a promising drug target. An in-house focused library of heteroaromatic compounds was screened for CBS modulators by the methylene blue assay and a pyrazolopyridine derivative with a promising CBS inhibitory potential was discovered. The compound activity was readily comparable to the most potent CBS inhibitor currently known, aminoacetic acid, while a promising specificity over the related cystathionine γ-lyase was identified. To rule out any possibility that the inhibitor may bind the enzyme regulatory domain due to its high structural similarity with cofactor s-adenosylmethionine, differential scanning fluorimetry was employed. A sub-scaffold search guided follow-up screening of related compounds, providing preliminary structure-activity relationships with respect to requisites for efficient CBS inhibition by this group of heterocycles. Subsequently, a hypothesis regarding the exact binding mode of the inhibitor was devised on the basis of the available structure-activity relationships (SAR) and a deep neural networks analysis and further supported by induced-fit docking calculations.
AB - Cystathionine β-synthase (CBS) is a key enzyme in the production of the signaling molecule hydrogen sulfide, deregulation of which is known to contribute to a range of serious pathological states. Involvement of hydrogen sulfide in pathways of paramount importance for cellular homeostasis renders CBS a promising drug target. An in-house focused library of heteroaromatic compounds was screened for CBS modulators by the methylene blue assay and a pyrazolopyridine derivative with a promising CBS inhibitory potential was discovered. The compound activity was readily comparable to the most potent CBS inhibitor currently known, aminoacetic acid, while a promising specificity over the related cystathionine γ-lyase was identified. To rule out any possibility that the inhibitor may bind the enzyme regulatory domain due to its high structural similarity with cofactor s-adenosylmethionine, differential scanning fluorimetry was employed. A sub-scaffold search guided follow-up screening of related compounds, providing preliminary structure-activity relationships with respect to requisites for efficient CBS inhibition by this group of heterocycles. Subsequently, a hypothesis regarding the exact binding mode of the inhibitor was devised on the basis of the available structure-activity relationships (SAR) and a deep neural networks analysis and further supported by induced-fit docking calculations.
KW - 7-azido-4-methylcoumarin assay
KW - Back-propagation DNN
KW - Bateman module
KW - Cystathionine β-synthase
KW - Docking-scoring calculations
KW - Hydrogen sulfide
KW - Pyrazolo[3,4-c]pyridine
KW - Sitemap algorithm
KW - Thermal shift assay
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U2 - 10.3390/molecules25163739
DO - 10.3390/molecules25163739
M3 - Article
C2 - 32824311
AN - SCOPUS:85089803195
SN - 1420-3049
VL - 25
JO - Molecules
JF - Molecules
IS - 16
M1 - 3739
ER -