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Our paper is in an ACS Central Science special virtual issue

13 December 2022
Our paper is in an ACS Central Science special virtual issue

Our study on structurally redesigned bioorthogonal reagents for mitochondria-specific prodrug activation has made it to A Special Virtual Issue Celebrating the 2022 Nobel Prize in Chemistry for the Development of Click Chemistry and Bioorthogonal Chemistry, curated by 2022 Nobel Prize laureate and ACS Central Science Editor-in-Chief Carolyn Bertozzi.

Check out the virtual issue: https://pubs.acs.org/page/vi/bioorthogonal-click-chemistry

Read our paper: Dzijak, R.; Galeta, J.; Vázquez, A.; Kozák, J.; Matoušová, M.; Fulka, H.; Dračínský, M.; Vrabel, M. Structurally Redesigned Bioorthogonal Reagents for Mitochondria-Specific Prodrug Activation. JACS Au 2021, 1, 23–30. https://doi.org/10.1021/jacsau.0c00053

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New paper in RSC Medicinal Chemistry

18 November 2022
New paper in RSC Medicinal Chemistry

In collaboration with the Structural Biology Group, we have published a new article on the identification of specific carbonic anhydrase inhibitors via in situ click chemistry, phage-display, and synthetic peptide libraries.

The development of highly active and selective enzyme inhibitors is one of the priorities of medicinal chemistry. Typically, various high-throughput screening methods are used to find lead compounds from a large pool of synthetic compounds, and these are further elaborated and structurally refined to achieve the desired properties. In an effort to streamline this complex and laborious process, new selection strategies based on different principles have recently emerged as an alternative.

In the article, we compare three such selection strategies with the aim of identifying potent and selective inhibitors of human carbonic anhydrase II. All three approaches, in situ click chemistry, phage-display libraries, and synthetic peptide libraries, led to the identification of more potent inhibitors when compared to the parent compounds.

In addition, one of the inhibitor–peptide conjugates identified from the phage libraries showed greater than 100-fold selectivity for the enzyme isoform used for the compound selection. In an effort to rationalize the binding properties of the conjugates, we performed detailed crystallographic and NMR structural analysis, which revealed the structural basis of the compound affinity towards the enzyme and led to the identification of a novel exosite that could be utilized in the development of isoform specific inhibitors.

  • Kugler, M.; Hadzima, M.; Dzijak, R.; Rampmaier, R.; Srb, P.; Vrzal, L.; Voburka, Z.; Majer, P.; Řezáčová, P.; Vrabel, M. Identification of specific carbonic anhydrase inhibitors via in situ click chemistry, phage-display and synthetic peptide libraries: comparison of the methods and structural study. RSC Medicinal Chemistry 2022. https://doi.org/10.1039/D2MD00330A
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New paper in ACS Omega

10 June 2022
New paper in ACS Omega

We published a new synthetic strategy to pyrrolo[2,1-f][1,2,4]triazines. We show that various synthetically easily accessible 1,2,4-triazines can be efficiently alkylated under mild conditions to provide the corresponding 1-alkyl-1,2,4-triazinium salts. These bench-stable salts serve as precursors to triazinium ylides, which react in 1,3-dipolar cycloadditions with electron-poor dipolarophiles to yield polysubstituted pyrrolotriazines in a single step.

  • Galeta, J.; Šlachtová, V.; Dračínský, M.; Vrabel, M. Regio- and Diastereoselective 1,3-Dipolar Cycloadditions of 1,2,4-Triazin-1-ium Ylides: a Straightforward Synthetic Route to Polysubstituted Pyrrolo[2,1-f][1,2,4]triazines. ACS Omega 2022, 7, 21233-21238. https://doi.org/10.1021/acsomega.2c02276
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We have won an ERC Proof of Concept Grant

25 May 2022
We have won an ERC Proof of Concept Grant

We have won an ERC Proof of Concept Grant for the project CHEMCELL: Chemical Engineering of Natural Killer Cells for Cancer Immunotherapy, and 150,000 euros for the next 18 months to explore the commercial or societal potential of our discoveries within the SWEETOOLS project.

“Originally, we were interested in performing various harmless but beneficial chemical reactions on living cells, such as staining them with fluorescent tags in order to visualize them in real time in the living organism, which would be very useful for example in diagnostics. But then we discovered that we could do much more, like placing a molecule on a natural killer cell that can quickly direct it straight to a tumor cell to destroy it. 

Thanks to this grant, we’ll be able to directly compare our method with CAR T-cell therapy and verify its real merit not only on cells but also in mice, which is a necessary step before use in human medicine. If the study goes well, our method could be adopted into practice in a matter of a few years,” says Milan.

Read more in the IOCB news: European grant opens the way for validation of a novel method for use in immunotherapy

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CuAAC in Protein Conjugation

24 January 2022

Check out our chapter about the application of CuAAC reaction for peptide and protein modification written by Agustina, Anna, and Milan and published now within the Science of Synthesis series.

  • La Venia, A.; Kovalová, A.; Vrabel, M. 2.3 CuAAC in Protein Conjugation. In Click Chemistry, 1st edition ed.; Georg Thieme Verlag KG: Stuttgart, 2022; Vol. 2021/4. https://doi.org/10.1055/sos-SD-235-00062
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Glycans, the key to immunity-boosting therapies? Results of our ERC-funded SWEETOOLS project

21 January 2022
Glycans, the key to immunity-boosting therapies? Results of our ERC-funded SWEETOOLS project

Read the main achievements of our work within the ERC-funded project SWEETOOLS which are now highlighted on the CORDIS website.

Our SWEETOOLS articles

An Optimized Protocol for the Synthesis of Peptides Containing trans-Cyclooctene and Bicyclononyne Dienophiles as Useful Multifunctional Bioorthogonal Probes
Chemistry - A European Journal 27 (54): 13632-13641 (2021)
Structurally Redesigned Bioorthogonal Reagents for Mitochondria-Specific Prodrug Activation
JACS Au 1 (1): 23-30 (2021)
Stepwise triple-click functionalization of synthetic peptides
Organic and Biomolecular Chemistry 16 (33): 5960-5964 (2018)
Design and Synthesis of Aza-Bicyclononene Dienophiles for Rapid Fluorogenic Ligations
Chemistry - A European Journal 24 (10): 2426-2432 (2018)
An Extended Approach for the Development of Fluorogenic trans-Cyclooctene-Tetrazine Cycloadditions
ChemBioChem 20 (7): 886-890 (2019)
Mechanism-Based Fluorogenic trans-Cyclooctene-Tetrazine Cycloaddition
Angewandte Chemie International Edition 56 (5): 1334-1337 (2017)
A Systematic Study of Coumarin‐Tetrazine Light‐Up Probes for Bioorthogonal Fluorescence Imaging
Chemistry - A European Journal 26 (44): 9945-9953 (2020)
Bioorthogonal Fluorescence Turn-On Labeling Based on Bicyclononyne-Tetrazine Cycloaddition Reactions that Form Pyridazine Products
ChemPlusChem 84 (5): 493-497 (2019)
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Liblice 2021

8 November 2021

Milan and Michal attended the 55th Advances in Organic, Bioorganic and Pharmaceutical Chemistry Conference (Liblice 2021), where Michal presented his work on a poster.

Great food, great location, great science and everything finally in person! 

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Veronika received IOCB postdoctoral fellowship

2 November 2021

Veronika Šlachtová received the prestigious IOCB postdoctoral fellowship to work on cycloadditions of triazinium salts.

Congratulation!

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New paper in ChemMedChem

28 September 2021
New paper in ChemMedChem

In collaboration with our ex-visiting student Francesca Mancuso and the group of Rosaria Gitto at the University of Messina, Italy we published new work on Vibrio cholerae carbonic anhydrase inhibitors.

  • Mancuso, F., De Luca, L., Bucolo, F., Vrabel, M., Angeli, A., Capasso, C., Supuran, C.T. and Gitto, R. (2021), 4-Sulfamoylphenylalkylamides as Inhibitors of Carbonic Anhydrases Expressed in Vibrio cholerae. ChemMedChem. https://doi.org/10.1002/cmdc.202100510

Congratulation!

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Marek joins the group

8 September 2021

New PhD student Marek Chovanec joins the group to work on organelle-targeted bioorthogonal reactions.

Welcome and good luck!

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