Experimental and computational studies on structure and energetic properties of halogen derivatives of 2-deoxy-d-glucose

Marcin Ziemniak; Anna Zawadzka-Kazimierczuk; Sylwia Pawlędzio; Maura Malinska; Maja Sołtyka; Damian Trzybiński; Wiktor Koźmiński; Stanisław Skora; Rafał Zieliński; Izabela Fokt; Waldemar Priebe; Krzysztof Woźniak; Beata Pająk

doi:10.3390/ijms22073720

Experimental and computational studies on structure and energetic properties of halogen derivatives of 2-deoxy-d-glucose

Marcin Ziemniak, Anna Zawadzka-Kazimierczuk, Sylwia Pawlędzio, Maura Malinska, Maja Sołtyka, Damian Trzybiński, Wiktor Koźmiński, Stanisław Skora, Rafał Zieliński, Izabela Fokt, Waldemar Priebe, Krzysztof Woźniak, Beata Pająk

Experimental Therapeutics

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

The results of structural studies on a series of halogen-substituted derivatives of 2-deoxy-D-glucose (2-DG) are reported. 2-DG is an inhibitor of glycolysis, a metabolic pathway crucial for cancer cell proliferation and viral replication in host cells, and interferes with D-glucose and D-mannose metabolism. Thus, 2-DG and its derivatives are considered as potential anticancer and antiviral drugs. X-ray crystallography shows that a halogen atom present at the C2 position in the pyranose ring does not significantly affect its conformation. However, it has a noticeable effect on the crystal structure. Fluorine derivatives exist as a dense 3D framework isostructural with the parent compound, while Cl-and I-derivatives form layered structures. Analysis of the Hirshfeld surface shows formation of hydrogen bonds involving the halogen, yet no indication for the existence of halogen bonds. Density functional theory (DFT) periodic calculations of cohesive and interaction energies (at the B3LYP level of theory) have supported these findings. NMR studies in the solution show that most of the compounds do not display significant differences in their anomeric equilibria, and that pyranose ring puckering is similar to the crystalline state. For 2-deoxy-2-fluoro-D-glucose (2-FG), electrostatic interaction energies between the ligand and protein for several existing structures of pyranose 2-oxidase were also computed. These interactions mostly involve acidic residues of the protein; single amino-acid substitutions have only a minor impact on binding. These studies provide a better understanding of the structural chemistry of halogen-substituted carbohydrates as well as their intermolecular interactions with proteins determining their distinct biological activity.

Original language	English (US)
Article number	3720
Journal	International journal of molecular sciences
Volume	22
Issue number	7
DOIs	https://doi.org/10.3390/ijms22073720
State	Published - Apr 1 2021

Keywords

2-DG analogues
2-deoxy-D-glucose
Electrostatic interactions
Energy frameworks
Glycolysis inhibitors
Hirshfeld surface
Hydrogen bonds
Ligand binding
NMR spectroscopy
The University at Buffalo Pseudoatom Databank (UBDB)

ASJC Scopus subject areas

Catalysis
Molecular Biology
Spectroscopy
Computer Science Applications
Physical and Theoretical Chemistry
Organic Chemistry
Inorganic Chemistry

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10.3390/ijms22073720

Cite this

Ziemniak, M., Zawadzka-Kazimierczuk, A., Pawlędzio, S., Malinska, M., Sołtyka, M., Trzybiński, D., Koźmiński, W., Skora, S., Zieliński, R., Fokt, I., Priebe, W., Woźniak, K., & Pająk, B. (2021). Experimental and computational studies on structure and energetic properties of halogen derivatives of 2-deoxy-d-glucose. International journal of molecular sciences, 22(7), Article 3720. https://doi.org/10.3390/ijms22073720

Ziemniak, M, Zawadzka-Kazimierczuk, A, Pawlędzio, S, Malinska, M, Sołtyka, M, Trzybiński, D, Koźmiński, W, Skora, S , Zieliński, R , Fokt, I , Priebe, W, Woźniak, K & Pająk, B 2021, 'Experimental and computational studies on structure and energetic properties of halogen derivatives of 2-deoxy-d-glucose', International journal of molecular sciences, vol. 22, no. 7, 3720. https://doi.org/10.3390/ijms22073720

@article{9949094c36a14df08c3b94f70ef436a7,

title = "Experimental and computational studies on structure and energetic properties of halogen derivatives of 2-deoxy-d-glucose",

abstract = "The results of structural studies on a series of halogen-substituted derivatives of 2-deoxy-D-glucose (2-DG) are reported. 2-DG is an inhibitor of glycolysis, a metabolic pathway crucial for cancer cell proliferation and viral replication in host cells, and interferes with D-glucose and D-mannose metabolism. Thus, 2-DG and its derivatives are considered as potential anticancer and antiviral drugs. X-ray crystallography shows that a halogen atom present at the C2 position in the pyranose ring does not significantly affect its conformation. However, it has a noticeable effect on the crystal structure. Fluorine derivatives exist as a dense 3D framework isostructural with the parent compound, while Cl-and I-derivatives form layered structures. Analysis of the Hirshfeld surface shows formation of hydrogen bonds involving the halogen, yet no indication for the existence of halogen bonds. Density functional theory (DFT) periodic calculations of cohesive and interaction energies (at the B3LYP level of theory) have supported these findings. NMR studies in the solution show that most of the compounds do not display significant differences in their anomeric equilibria, and that pyranose ring puckering is similar to the crystalline state. For 2-deoxy-2-fluoro-D-glucose (2-FG), electrostatic interaction energies between the ligand and protein for several existing structures of pyranose 2-oxidase were also computed. These interactions mostly involve acidic residues of the protein; single amino-acid substitutions have only a minor impact on binding. These studies provide a better understanding of the structural chemistry of halogen-substituted carbohydrates as well as their intermolecular interactions with proteins determining their distinct biological activity.",

keywords = "2-DG analogues, 2-deoxy-D-glucose, Electrostatic interactions, Energy frameworks, Glycolysis inhibitors, Hirshfeld surface, Hydrogen bonds, Ligand binding, NMR spectroscopy, The University at Buffalo Pseudoatom Databank (UBDB)",

author = "Marcin Ziemniak and Anna Zawadzka-Kazimierczuk and Sylwia Pawl{\c e}dzio and Maura Malinska and Maja So{\l}tyka and Damian Trzybi{\'n}ski and Wiktor Ko{\'z}mi{\'n}ski and Stanis{\l}aw Skora and Rafa{\l} Zieli{\'n}ski and Izabela Fokt and Waldemar Priebe and Krzysztof Wo{\'z}niak and Beata Paj{\c a}k",

note = "Funding Information: Acknowledgments: Paulina Dominiak is gratefully acknowledged for valuable scientific discussions concerning the computational studies Conflicts of Interest: W. Priebe is an inventor on patents covering new derivatives of 2-DG. He is Chair of SAB and a shareholder of Moleculin Biotech, Inc., CNS Pharmaceuticals, and WPD Pharmaceuticals. His research is in part supported by the sponsor research grant from Moleculin Biotech, Inc. and CNS Pharmaceuticals. I. Fokt and R. Zielinski are listed as inventors on patents covering new analogues of 2-DG, are consultants of Moleculin Biotech, Inc., and are shareholders of Moleculin Biotech, Inc. and CNS Pharmaceuticals. M. Ziemniak and K. Wozniak have been involved as consultants and experts in WPD Pharmaceuticals. B. Paj{\c a}k is CSO for WPD Pharmaceuticals. The other authors declare no conflict of interest. Funding Information: This work was supported by National Science Centre in Poland (grants No. UMO-2017/25/B/NZ3/00251 and UMO-2017/24/C/NZ1/00366). Grant No. UMO-2017/25/NZ3/00251 was carried out with the cooperation of Professor Waldemar Priebe, UT MD Anderson Cancer Center, where new 2-DG derivatives were designed and synthesized and funded by the sponsor research grant from Moleculin Biotech, Inc. The research was carried out at the Biological and Chemical Research Centre, University of Warsaw, established within the project co-financed by the European Union from the European Regional Development Fund under the Operational Programme Innovative Economy, 2007–2013. The X-ray diffraction data collection was accomplished at the Core Facility for Crystallographic and Biophysical research to support the development of medicinal products. The “Core facility for crystallographic and biophysical research to support the development of medicinal products” project was carried out within the TEAM-TECH Core Facility programme of the Foundation for Polish Science co-financed by the European Union under the European Regional Development Fund. Paulina Dominiak is gratefully acknowledged for valuable scientific discussions concerning the computational studies. Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2021",

month = apr,

day = "1",

doi = "10.3390/ijms22073720",

language = "English (US)",

volume = "22",

journal = "International journal of molecular sciences",

issn = "1661-6596",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "7",

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TY - JOUR

T1 - Experimental and computational studies on structure and energetic properties of halogen derivatives of 2-deoxy-d-glucose

AU - Ziemniak, Marcin

AU - Zawadzka-Kazimierczuk, Anna

AU - Pawlędzio, Sylwia

AU - Malinska, Maura

AU - Sołtyka, Maja

AU - Trzybiński, Damian

AU - Koźmiński, Wiktor

AU - Skora, Stanisław

AU - Zieliński, Rafał

AU - Fokt, Izabela

AU - Priebe, Waldemar

AU - Woźniak, Krzysztof

AU - Pająk, Beata

N1 - Funding Information: Acknowledgments: Paulina Dominiak is gratefully acknowledged for valuable scientific discussions concerning the computational studies Conflicts of Interest: W. Priebe is an inventor on patents covering new derivatives of 2-DG. He is Chair of SAB and a shareholder of Moleculin Biotech, Inc., CNS Pharmaceuticals, and WPD Pharmaceuticals. His research is in part supported by the sponsor research grant from Moleculin Biotech, Inc. and CNS Pharmaceuticals. I. Fokt and R. Zielinski are listed as inventors on patents covering new analogues of 2-DG, are consultants of Moleculin Biotech, Inc., and are shareholders of Moleculin Biotech, Inc. and CNS Pharmaceuticals. M. Ziemniak and K. Wozniak have been involved as consultants and experts in WPD Pharmaceuticals. B. Pająk is CSO for WPD Pharmaceuticals. The other authors declare no conflict of interest. Funding Information: This work was supported by National Science Centre in Poland (grants No. UMO-2017/25/B/NZ3/00251 and UMO-2017/24/C/NZ1/00366). Grant No. UMO-2017/25/NZ3/00251 was carried out with the cooperation of Professor Waldemar Priebe, UT MD Anderson Cancer Center, where new 2-DG derivatives were designed and synthesized and funded by the sponsor research grant from Moleculin Biotech, Inc. The research was carried out at the Biological and Chemical Research Centre, University of Warsaw, established within the project co-financed by the European Union from the European Regional Development Fund under the Operational Programme Innovative Economy, 2007–2013. The X-ray diffraction data collection was accomplished at the Core Facility for Crystallographic and Biophysical research to support the development of medicinal products. The “Core facility for crystallographic and biophysical research to support the development of medicinal products” project was carried out within the TEAM-TECH Core Facility programme of the Foundation for Polish Science co-financed by the European Union under the European Regional Development Fund. Paulina Dominiak is gratefully acknowledged for valuable scientific discussions concerning the computational studies. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2021/4/1

Y1 - 2021/4/1

N2 - The results of structural studies on a series of halogen-substituted derivatives of 2-deoxy-D-glucose (2-DG) are reported. 2-DG is an inhibitor of glycolysis, a metabolic pathway crucial for cancer cell proliferation and viral replication in host cells, and interferes with D-glucose and D-mannose metabolism. Thus, 2-DG and its derivatives are considered as potential anticancer and antiviral drugs. X-ray crystallography shows that a halogen atom present at the C2 position in the pyranose ring does not significantly affect its conformation. However, it has a noticeable effect on the crystal structure. Fluorine derivatives exist as a dense 3D framework isostructural with the parent compound, while Cl-and I-derivatives form layered structures. Analysis of the Hirshfeld surface shows formation of hydrogen bonds involving the halogen, yet no indication for the existence of halogen bonds. Density functional theory (DFT) periodic calculations of cohesive and interaction energies (at the B3LYP level of theory) have supported these findings. NMR studies in the solution show that most of the compounds do not display significant differences in their anomeric equilibria, and that pyranose ring puckering is similar to the crystalline state. For 2-deoxy-2-fluoro-D-glucose (2-FG), electrostatic interaction energies between the ligand and protein for several existing structures of pyranose 2-oxidase were also computed. These interactions mostly involve acidic residues of the protein; single amino-acid substitutions have only a minor impact on binding. These studies provide a better understanding of the structural chemistry of halogen-substituted carbohydrates as well as their intermolecular interactions with proteins determining their distinct biological activity.

AB - The results of structural studies on a series of halogen-substituted derivatives of 2-deoxy-D-glucose (2-DG) are reported. 2-DG is an inhibitor of glycolysis, a metabolic pathway crucial for cancer cell proliferation and viral replication in host cells, and interferes with D-glucose and D-mannose metabolism. Thus, 2-DG and its derivatives are considered as potential anticancer and antiviral drugs. X-ray crystallography shows that a halogen atom present at the C2 position in the pyranose ring does not significantly affect its conformation. However, it has a noticeable effect on the crystal structure. Fluorine derivatives exist as a dense 3D framework isostructural with the parent compound, while Cl-and I-derivatives form layered structures. Analysis of the Hirshfeld surface shows formation of hydrogen bonds involving the halogen, yet no indication for the existence of halogen bonds. Density functional theory (DFT) periodic calculations of cohesive and interaction energies (at the B3LYP level of theory) have supported these findings. NMR studies in the solution show that most of the compounds do not display significant differences in their anomeric equilibria, and that pyranose ring puckering is similar to the crystalline state. For 2-deoxy-2-fluoro-D-glucose (2-FG), electrostatic interaction energies between the ligand and protein for several existing structures of pyranose 2-oxidase were also computed. These interactions mostly involve acidic residues of the protein; single amino-acid substitutions have only a minor impact on binding. These studies provide a better understanding of the structural chemistry of halogen-substituted carbohydrates as well as their intermolecular interactions with proteins determining their distinct biological activity.

KW - 2-DG analogues

KW - 2-deoxy-D-glucose

KW - Electrostatic interactions

KW - Energy frameworks

KW - Glycolysis inhibitors

KW - Hirshfeld surface

KW - Hydrogen bonds

KW - Ligand binding

KW - NMR spectroscopy

KW - The University at Buffalo Pseudoatom Databank (UBDB)

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U2 - 10.3390/ijms22073720

DO - 10.3390/ijms22073720

M3 - Article

C2 - 33918425

AN - SCOPUS:85103480778

SN - 1661-6596

VL - 22

JO - International journal of molecular sciences

JF - International journal of molecular sciences

IS - 7

M1 - 3720

ER -

Experimental and computational studies on structure and energetic properties of halogen derivatives of 2-deoxy-d-glucose

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