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35 Publications visible to you, out of a total of 35
Destabilizers of the thymidylate synthase homodimer accelerate its proteasomal degradation and inhibit cancer growth.

Abstract (Expand)

Drugs that target human thymidylate synthase (hTS), a dimeric enzyme, are widely used in anticancer therapy. However, treatment with classical substrate-site-directed TS inhibitors induces over-expression of this protein and development of drug resistance. We thus pursued an alternative strategy that led us to the discovery of TS-dimer destabilizers. These compounds bind at the monomer-monomer interface and shift the dimerization equilibrium of both the recombinant and the intracellular protein toward the inactive monomers. A structural, spectroscopic, and kinetic investigation has provided evidence and quantitative information on the effects of the interaction of these small molecules with hTS. Focusing on the best among them, E7, we have shown that it inhibits hTS in cancer cells and accelerates its proteasomal degradation, thus causing a decrease in the enzyme intracellular level. E7 also showed a superior anticancer profile to fluorouracil in a mouse model of human pancreatic and ovarian cancer. Thus, over sixty years after the discovery of the first TS prodrug inhibitor, fluorouracil, E7 breaks the link between TS inhibition and enhanced expression in response, providing a strategy to fight drug-resistant cancers.

Authors: L. Costantino, S. Ferrari, M. Santucci, O. M. H. Salo-Ahen, E. Carosati, S. Franchini, A. Lauriola, C. Pozzi, M. Trande, G. Gozzi, P. Saxena, G. Cannazza, L. Losi, D. Cardinale, A. Venturelli, A. Quotadamo, P. Linciano, L. Tagliazucchi, M. G. Moschella, R. Guerrini, S. Pacifico, R. Luciani, F. Genovese, S. Henrich, S. Alboni, N. Santarem, A. da Silva Cordeiro, E. Giovannetti, G. J. Peters, P. Pinton, A. Rimessi, G. Cruciani, R. M. Stroud, R. C. Wade, S. Mangani, G. Marverti, D. D'Arca, G. Ponterini, M. P. Costi

Date Published: 7th Dec 2022

Publication Type: Journal

Diffusion of small molecule drugs is affected by surface interactions and crowder proteins

Abstract

Not specified

Authors: Debabrata Dey, Ariane Nunes-Alves, Rebecca C. Wade, Gideon Schreiber

Date Published: 1st Oct 2022

Publication Type: Journal

The Non-phosphorylating Glyceraldehyde-3-Phosphate Dehydrogenase GapN Is a Potential New Drug Target in Streptococcus pyogenes

Abstract (Expand)

The strict human pathogen Streptococcus pyogenes causes infections of varying severity, ranging from self-limiting suppurative infections to life-threatening diseases like necrotizing fasciitis orto life-threatening diseases like necrotizing fasciitis or streptococcal toxic shock syndrome. Here, we show that the non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase GapN is an essential enzyme for S. pyogenes . GapN converts glyceraldehyde 3-phosphate into 3-phosphoglycerate coupled to the reduction of NADP to NADPH. The knock-down of gapN by antisense peptide nucleic acids (asPNA) significantly reduces viable bacterial counts of S. pyogenes laboratory and macrolide-resistant clinical strains in vitro . As S. pyogenes lacks the oxidative part of the pentose phosphate pathway, GapN appears to be the major NADPH source for the bacterium. Accordingly, other streptococci that carry a complete pentose phosphate pathway are not prone to asPNA-based gapN knock-down. Determination of the crystal structure of the S. pyogenes GapN apo-enzyme revealed an unusual cis-peptide in proximity to the catalytic binding site. Furthermore, using a structural modeling approach, we correctly predicted competitive inhibition of S. pyogenes GapN by erythrose 4-phosphate, indicating that our structural model can be used for in silico screening of specific GapN inhibitors. In conclusion, the data provided here reveal that GapN is a potential target for antimicrobial substances that selectively kill S. pyogenes and other streptococci that lack the oxidative part of the pentose phosphate pathway.

Authors: Philip Eisenberg, Leon Albert, Jonathan Teuffel, Eric Zitzow, Claudia Michaelis, Jane Jarick, Clemens Sehlke, Lisa Große, Nicole Bader, Ariane Nunes-Alves, Bernd Kreikemeyer, Hermann Schindelin, Rebecca C. Wade, Tomas Fiedler

Date Published: 15th Feb 2022

Publication Type: Journal

Molecular Dynamics Simulation of a Mammalian Cytochrome P450 Protein and its Interaction with Substrates and Redox-Partners

Abstract

Not specified

Author: Jonathan Teuffel

Date Published: 2022

Publication Type: Master's Thesis

Generation and Testing of Boltzmann Generators Trained on Peptide Molecular Dynamics Simulations to Predict Peptide Conformational Behaviour

Abstract

Not specified

Author: Michelle Emmert

Date Published: 2022

Publication Type: Bachelor's Thesis

P. falciparum Circumsporozoite protein epitope/paratope interactions: Addressing the key role of molecular flexibility

Abstract

Not specified

Author: Anton Hanke

Date Published: 2022

Publication Type: Master's Thesis

Structural Insights into Neurotrophin Receptor Dimerization using Coarse-grained Molecular Dynamics Simulations

Abstract

Not specified

Author: Ainara Claveras Cabezudo

Date Published: 2022

Publication Type: Master's Thesis

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