Aspects of the creation of neuroprotective antiinflammatory drugs

Authors

  • I.S. Chekman PHEI Kyiv Medical University
  • I.F. Belenichev Zaporizhzhya State Medical University
  • A.O. Syrovaja Kharkiv National Medical University
  • N.A. Gorchakova Bogomolets National Medical University, Kyiv
  • N.V. Buhtijarova Zaporizhzhya State Medical University
  • V.P. Ryzhenko Zaporizhzhya State Medical University
  • O.L. Levashova Kharkiv National Medical University
  • N.N. Chalenko Kharkiv National Medical University

DOI:

https://doi.org/10.15407/dopovidi2019.09.088

Keywords:

antiinflammatory antioxidant properties, computer programs, neuroprotective, quantum- chemical investigations, virtual screening

Abstract

The chemical, physiological, and pharmacological aspects of creation of neuroprotective antiinflammatory drugs are considered. It is stated the expediency of the creation of neuroprotective compounds among the 1,2,4- tri azol derivatives and antiinflammatory compounds as the coxibes derivatives. During the synthesis of new compounds, computer programs, quantum-chemical investigations, and virtual screening have been used to determine antioxidant properties.

Downloads

Download data is not yet available.

References

Belenichev, I. F., Cherniy, V. I., Nagorna, E. A., Pavlov, S. V. & Buhtiyarova, N. V. (2014). Neuroprotection and neuroplasticity. Kyiv: Logos (in Russian).

Aleksandrova, K., Belenichev, I., Shkoda, A., Levich, S., Yurchenko, D. & Buchtiyarova, N. (2014). Research of antioxidant properties of theophyllinyl-7-acetic acid derivatives. Oxid. Antioxid. Med. Sci., 3, No. 3, pp. 187-194. doi: https://doi.org/10.5455/oams.191214.or.078

Ryzhov, O. A., Ryzhenko, V.P., Levich, S. V. & Belenichev, I. F. (2017). Analysis of influence of quantum chemical descriptors on NO-scavenger properties among xanthine derivatives. Biological Markers and Guided Therapy, 4 No. 1, pp. 39-48. doi: https://doi.org/10.12988/bmgt.2017.735

Chekman, I. S., Kazakova, O. O. & Nebesna, T. Iu. (2008). Quantum-chemical and topological descriptors in studies of dependence “structure-activity” (review of literature and own research). Zhurn. Nac. akad. med. nauk Ukrainy, 14, No. 4, pp. 636-650 (in Ukrainian).

Foye, W. O. (2008). Foye’s principles of medicinal chemistry. 6th ed. Philadelphia: Lippincott Williams & Wilkins.

Chekman, I. S., Syrova, H. O., Kazakova, O. O., Horchakova, N. O., Belenichev, I. F., Zahorodnyi, M. I. Levashova, O. L., Chalenko, N. M., Pogotova, G. A., Dovgan, R. S. & Nagorna, O. O. (2017). Quantum chemistry: medical and pharmaceutical aspect. Kharkiv: Planeta-prynt (in Ukrainian).

Chekman, I. S., Syrovaya, A. O. & Levashova, O. L. (2018). Quantum-chemical aspects of non-steroidal antiinflamatory drugs. Kyiv, Kharkiv: Planeta-print.

Belenychev, Y. F., Nesterova, N. O., Kovalenko, S. I. & Karpenko, O.V. (2004). Formation of the combinato rial library of quinazolin-4-yl hydrazone with antioxidant activity. Med. Khimiia, 6, No. 3, pp. 14-21 (in Uk rainian).

Nebesna, T. Iu., Zahorodnyi, M. I., Yahupova, A. S., Horchakova, N. O. & Chekman, I. S. (2007). Study of the molecular structure and the quantum-chemical properties of acetyl cysteine. Ukr. nauk.-med. mol. zhurn., 1, No. 2, pp. 19-23 (in Ukrainian).

Chekman, I. S., Belenichev, I. F., Demchenko, A. V., Bobrova, V. I., Kucherenko, L. I., Gorchakova, N. A. & Bukhtiyarova, N. V. (2014). Nootropics in comlex therapy of chronic cerebral ischemia. Sci. Innov., 10 No. 4, pp. 56-68. doi: https://doi.org/10.15407/scine10.04.056

Ishihara, M., Wakabayashi, H., Motohashi, N. & Sakagami, H. (2010). Estimation of relationship between the structure of trihaloacetylazulene derivatives determined by a semiempirical molecular-orbital method (PM5) and their cytotoxicity. Anticancer Res., 30, No. 3, pp. 837-842.

Deniz, M., Borman, H., Seyhan, T. & Haberal, M. (2013). An effective antioxidant drug on prevention of the necrosis of zone of stasis: N-acetylcysteine. Burns, 39, No. 2, pp. 320-325. doi: https://doi.org/10.1016/j.burns.2012.06.015

Ryzhenko, V. P., Ryzhov, O. A., Belenichev, I. F. & Levich, S. V. (2018). Study of dependence of xanthine derivatives NO-scavenger properties from energy descriptors. Biological Markers and Guided Therapy, 15, No. 1, pp. 37-42. doi: https://doi.org/10.12988/bmgt.2018.857

Ryizhenko, V. P., Ryizhov, A. A., Levich, S. V., Belenichev, I. F. & Aleksandrova, E. V. (2016). Targeted search of substances among a number of 3-aryl(aralkyl)xantine derivatives having antiradical activity with regard to superoxide radicals. Med. Informatika ta Inzheneriya, 1, pp. 109 (in Russian).

Belenichev, I. F., Aleksandrova, K. V., Nosach, S. F., Levich, S. V., Yurchenko, D. M., Abramov, A. V. & Suprun, E. V. (2014). New xanthine derivative B-YR-2 as antioxidant modulator of post-stroke damage of sensorimotor cortex neurons in rats. Elixir Pharmacy, 76, pp. 28286-28292.

Downloads

Published

24.04.2024

How to Cite

Chekman, I., Belenichev, I., Syrovaja, A., Gorchakova, N., Buhtijarova, N., Ryzhenko, V., Levashova, O., & Chalenko, N. (2024). Aspects of the creation of neuroprotective antiinflammatory drugs . Reports of the National Academy of Sciences of Ukraine, (9), 88–98. https://doi.org/10.15407/dopovidi2019.09.088

Issue

No. 9 (2019): Reports of the National Academy of Sciences of Ukraine

Section

Biochemistry

License

Copyright (c) 2024 Reports of the National Academy of Sciences of Ukraine

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.