Abstract
Background: Glutamine synthetase (GS) is a crucial enzyme to the nitrogen cycle with great commercial and pharmaceutical value. Current inhibitors target the active site, affecting GS activity indiscriminately in all organisms. As the active site is located at the interface between two monomers, the protein-protein interface (PPI) of GSs gains a new role, by providing new targets for enzyme inhibition. Exploring GSs PPI could allow for the development of inhibitors selective for specific organisms. Here we map the PPI of three GSs—human (hsGS), maize (zmGS) and Mycobacterium tuberculosis (mtGS)—and unravel new drugable pockets. Methods: The PPI binding free energy coming from key residues on three GSs from different organisms were mapped by computational alanine scan mutagenesis, applying a multiple dielectric constant MM-PBSA methodology. The most relevant residues for binding are referred as hot-spots. Drugable pockets on GS were detected with the Fpocket software. Results and Conclusions: A total of 23, 19 and 30 hot-spots were identified on hsGS, zmGS and mtGS PPI. Even possessing differences in the hot-spots, hsGS and zmGS PPI are overall very similar. On the other hand, mtGS PPI differs greatly from hsGS and zmGS PPI. A novel drugable pocket was detected on the mtGS PPI. It seems particularly promising for the development of selective anti-tuberculosis drugs given its location on a PPI region that is highly populated with hot-spots and is completely different from the hsGS and zmGS PPIs. Drugs targeting this pockets should be inactive on eukaryotic GS II enzymes.
Highlights
Glutamine Synthetase (GS, EC 6.3.1.2, known as γ-glutamyl:ammonia ligase) is a widely spread metalloenzyme
If the adjacent interacting monomer is from the same ring, the residue from that monomer will be followed by a single quotation mark (e.g., Y100’)
If the residue is arising from the adjacent interacting monomer located on the other ring an asterisk will be placed on the residue name (e.g., Y100*)
Summary
Glutamine Synthetase (GS, EC 6.3.1.2, known as γ-glutamyl:ammonia ligase) is a widely spread metalloenzyme. The most important and well-studied is the ATP-dependent synthesis of glutamine by combining glutamate and ammonium, commonly denominated as the biosynthetic reaction [1,2,3,4]. Different isoforms of this enzyme are expressed, varying in both sequence and structure. Methods: The PPI binding free energy coming from key residues on three GSs from different organisms were mapped by computational alanine scan mutagenesis, applying a multiple dielectric constant MM-PBSA methodology. Results and Conclusions: A total of 23, 19 and 30 hot-spots were identified on hsGS, zmGS and mtGS PPI. Even possessing differences in the hot-spots, hsGS and zmGS PPI are overall very similar. MtGS PPI differs greatly from hsGS and zmGS
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