The influence of oligopeptides - the homologues of ACTH15-18 on the liver and adrenal glands in the rats on the model of acute immobilization stress

Olesya V. Kudina; Кудина Олеся Викторовна; Sergey Yu. Shtrygol’; Штрыголь Сергей Юрьевич; Aleksandr A. Kolobov; Колобов Александр Александрович; Yulia B. Lar’yanovska; Ларьяновская Юлия Борисовна

doi:10.17816/RCF15430-37

The influence of oligopeptides - the homologues of ACTH15-18 on the liver and adrenal glands in the rats on the model of acute immobilization stress

Authors: Kudina O.V.¹, Shtrygol’ S.Y.¹, Kolobov A.A.², Lar’yanovska Y.B.³
Affiliations:
1. National University of Pharmacy
2. State Research Institute of Highly Pure Biopreparations of Russian Federal Medical and Biological Agency
3. Central Scientific-Research Laboratory
Issue: Vol 15, No 4 (2017)
Pages: 30-37
Section: Articles
URL: https://journal-vniispk.ru/RCF/article/view/7722
DOI: https://doi.org/10.17816/RCF15430-37
ID: 7722

Cite item

Full Text

Abstract
Full Text
About the authors
References
Statistics

Abstract

An in-depth study the possible links of the stress-protective action of oligopeptides - homologues of the of adrenocorticotropic hormone fragment (15-18) on the model of acute immobilization stress has been carried out. A marked antioxidant effect, not inferior to the reference medicine “Semax”, has been detected in the blood serum and liver of the rats. The results of the morphological study of liver tissue also indicate the normalization of the stress-induced damage in the organ under the influence of oligopeptides (KK-1, KK-5). Both peptides have been exceeded the reference drug, however, the peptide KK-1 had the marked positive effect on the reduction of histological structure of the liver. The stress-protective action of the investigated oligopeptides KK-1 and KK-5 is confirmed by their ability to reduce the increased activity of steroidogenesis and reduce the release of catecholamines, as well as normalize the damaged structure of the adrenal cortex. According to the indices of the adrenal structure recovering, the peptide KK-1 exceeded the reference drug and the peptide KK-1.

Keywords

acute immobilization stress, stress-protective activity, oligopeptides

Full Text

##article.viewOnOriginalSite##

About the authors

Olesya V. Kudina

National University of Pharmacy

Author for correspondence.
Email: olesiakudina@gmail.com

Ph.D. in Pharmaceutical Sciences, Associate professor, Pharmacology department

Ukraine, Kharkiv

Sergey Yu. Shtrygol’

National University of Pharmacy

Email: shtrygol@ukr.net

Doctor of Medicine, professor, Head, Pharmacology department

Ukraine, Kharkiv

Aleksandr A. Kolobov

State Research Institute of Highly Pure Biopreparations of Russian Federal Medical and Biological Agency

Email: kolobov@hpb-spb.com

Doctor of Biological Sciences, Head, Peptide chemistry laboratory

Russian Federation, Saint Petersburg

Yulia B. Lar’yanovska

Central Scientific-Research Laboratory

Email: cndl@nuph.edu.ua

PhD (Cell Biol), Senior researcher, Histologist

Russian Federation, Kharkiv

References

Киричек Л.Т., Перепилица А.В., Кальчук Р.О. Лекарственный антистресс в эксперименте (иммобилизация, травма, воспаление). – Харьков: Контраст, 2016. [Kirichek LT, Perepilitsa AV, Kal’chuk RO. Drug anti-stress in the experiment (immobilisation, trauma, inflammation). Khar’kov: Kontrast; 2016. (In Russ.)
Киричек Л.Т. Стресспротекторы в эксперименте и в клинике. – Харьков: Контраст, 2008. [Kirichek LT. Stressprotectors in the experiment and in the clinic. Khar’kov: Kontrast; 2008. (In Russ.)]
Ковалицкая Ю.А., Садовников В.Б., Золотарев Ю.А., Наволоцкая Е.В. Стресспротекторная активность синтетического пептида CH3CO-Lys-Lys-Arg-Arg-NH2 (протектина) // Биоорганическая химия. – 2009. – № 4. – С. 493–500. [Kovalitskaya YuA, Sadovnikov VB, Zolotarev YuA, Navolotskaya EV. Stressprotective activity of the synthetic peptide CH3CO-Lys-Lys-Arg-Arg-NH2 (Protektin). Bioorganicheskaya khimiya. 2009;(4):493-500. (In Russ.)]
Стефанов О.В., ред. Доклінічні дослідження лікарських засобів: методичні рекомендації. – Київ: Авіцена, 2001. [Stefanov OV, ed. Preclinical investigation of the drugs: guidelines. Kiev: Avіtsena; 2001. (In Ukr.)
Стальная И.Д., Гаришвили Т.Г. Метод определения малонового диальдегида с помощью тиобарбитуровой кислоты // Орехович В.Н., ред. Современные методы в биохимии. – М.: Медицина, 1977. – С. 66–68. [Stal’naya ID, Garishvili TG. The method of the malonic dialdehyde identification using thiobarbituric acid. In: Orekhovich V.N., ed. Sovremennye metody v biokhimii. Moscow: Meditsina; 1977. P. 66-8. (In Russ.)
Стальная И.Д. Mетод определения диеновой конъюгации ненасыщенных высших жирных кислот // Орехович В.Н., ред. Современные методы в биохимии. – М.: Медицина, 1977. – С. 63–64. [Stal’naya ID. The method of the diene conjugation identification of the unsaturated fatty acids. In: Orekhovich V.N., ed. Sovremennye metody v biokhimii. Moscow: Meditsina; 1977. P. 63-4. (In Russ.)]
Владимиров Ю.А., Арчаков А.И. Перекисное окисление липидов в биологических мембранах. – М.: Наука, 1972. [Vladimirov YuA, Archakov AI. Lipid peroxidation in biological membranes. Moscow: Nauka; 1972. (In Russ.)]
Королюк М.А., Иванова Л.И., Майорова И.Г., Токарев В.Е. Метод определения активности каталазы // Лабораторное дело. – 1988. – № 1. – С. 16–19. [Korolyuk MA, Ivanova LI, Mayorova IG, Tokarev VE. The method for the catalase activity identification. Laboratornoe delo. 1988;(1):16-9. (In Russ.)]
Дубинина Е.Е., Бурмистров С.О., Ходов Д.А., Поротов И.С. Окислительная модификация белков сыворотки крови человека. Методы ее определения // Вопросы медицинской химии. – 1995. – № 1. – C. 24–26. [Dubinina EE, Burmistrov SO, Khodov DA, Porotov IS. Oxidative modification of human serum proteins. The methods of the identification. Voprosy meditsinskoy khimii. 1995;(1):24-6. (In Russ.)]
Брусов О.С., Герасимов А.М., Панченко Л.Ф. Влияние природных ингибиторов радикальных материй на аутоокисление адреналина // Бюллетень экспериментальной биологии и медицины. – 1976. – № 1. – С. 33. [Brusov OS, Gerasimov AM, Panchenko LF. The influence of the natural inhibitors of radical matters at autooxidation of adrenaline. Byulleten’ eksperimental’noy biologii i meditsiny. 1976;(1):33. (In Russ.)]
Глинник С.В. Состояние перекисного окисления липидов и систем антиоксидантной защиты тканей при гипокинетическом стрессе у крыс с экспериментальным гипотиреозом // Медицинский журнал. – 2006. – № 4. – С. 40–41. [Glinnik SV. The condition of lipid peroxidation and antioxidant protective systems of tissues in hypokinetic stress in rats with experimental hypothyroidism. Meditsinskiy zhurnal. 2006;(4):40-1. (In Russ.)]
Губский Ю.И., Беленичев И.Ф., Левицкий Е.Л., и др. Токсикологические последствия окислительной модификации белков при различных патологических состояниях (Обзор литературы) // Современные проблемы токсикологии. – 2005. – № 3. – С. 20–26. [Gubskiy YuI,Belenichev IF, Levitskiy EL, et al. The toxicological effects of proteins oxidative modification in the various pathological conditions (literature review)]. Sovremennye problemy toksikologii. 2005;(3):20-6. (In Russ.)]
Барабой В.А., Брехман И.И., Голотин В.Г., Кудряшов Ю.Б. Перекисное окисление и стресс. – СПб.: Наука, 1992. [Baraboy VA, Brekhman II, Golotin VG, et al. Peroxidation and stress. Saint Petersburg: Nauka; 1992. (In Russ.)]
Абрамченко В.В. Антиоксиданты и антигипоксанты в акушерстве. – СПб.: ДЕАН, 2001. [Abramchenko VV. Antioxidants and antihypoxants in obstetrics. Saint Petersburg: DEAN; 2001. (In Russ.)]
Bhatia N, Maiti PP, Choudhary A, et al. Animal models of stress: a review. NSHM J Pharm Healthcare Manage. 2011;2:42-0.
Kudina OV, Shtrygol’ SYu, Tsyvunin VV, et al. The screening study of stressprotective effect of new oligopeptides. International Scientific and Practical Conference of Young Scientists and Students “Topical issues of new drugs development”: abstracts. Kharkiv; 2015. P. 323.

Username
Password
Remember me

Forgot password?	Register

Username
Password
Remember me

Forgot password?	Register