Does change in neurotransmitter brain status affect the growth of transplantable melanoma?

Does change in neurotransmitter brain status affect the growth of transplantable melanoma?

Aim. Studying the influence of the features of aminergic brain status on the development of B16/F10 melanoma in mice with urokinase gene knockout and chronic neurogenic pain (CNP).Material and methods. The study included female (n = 68) С57ВL/6 mice with the normal urokinase gene (+uPA) and C57BL/6-...

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Main Authors: O. I. Kit, E. M. Frantsiyants, V. A. Bandovkina, I. V. Kaplieva, E. I. Surikova, L. K. Trepitaki, N. D. Cheryarina, I. M. Kotieva
Format: Article
Language:English
Published: Siberian State Medical University (Tomsk) 2021-01-01
Series:Bûlleten' Sibirskoj Mediciny
Subjects:
b16/f10 melanoma
melanoma course
chronic neurogenic pain
upa urokinase gene knockout
mice
brain
biogenic amines
Online Access:https://bulletin.tomsk.ru/jour/article/view/4155
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spelling doaj-bdb98532e7624693a30dcbc2ea4b746f2021-07-29T08:38:08ZengSiberian State Medical University (Tomsk)Bûlleten' Sibirskoj Mediciny1682-03631819-36842021-01-011949410110.20538/1682-0363-2020-4-94-1012727Does change in neurotransmitter brain status affect the growth of transplantable melanoma?O. I. Kit0E. M. Frantsiyants1V. A. Bandovkina2I. V. Kaplieva3E. I. Surikova4L. K. Trepitaki5N. D. Cheryarina6I. M. Kotieva7National Medical Research Centre for OncologyNational Medical Research Centre for OncologyNational Medical Research Centre for OncologyNational Medical Research Centre for OncologyNational Medical Research Centre for OncologyNational Medical Research Centre for OncologyNational Medical Research Centre for OncologyNational Medical Research Centre for OncologyAim. Studying the influence of the features of aminergic brain status on the development of B16/F10 melanoma in mice with urokinase gene knockout and chronic neurogenic pain (CNP).Material and methods. The study included female (n = 68) С57ВL/6 mice with the normal urokinase gene (+uPA) and C57BL/6-PlautmI.IBug-This Plau6FDhu/GFDhu mice with urokinase gene knockout (–uPA). The model of CNP was created in the animals, and in 14 days B16/F10 melanoma was transplanted. The mice were euthanized 21 days after the transplantation. Levels of adrenaline (A), noradrenaline (NA), dopamine (DA), histamine (H), serotonin (5HT), 5-hydroxyindoleacetic acid (5HIAA) were determined in the brain using standard ELISA test systems (Cusabio, China).Results. CNP in (+uPA) females resulted in the reduction of almost all studied biogenic amines (BA). On the opposite, (–uPA) females showed an increase in NA, DA, 5HT and a decrease of H. 5HIAA increased in both CNP and gene knockout. 5HT in (+uPA) females with CNP decreased, while its physiological level in gene knockout mice was maintained. After 3 weeks of tumor growth in animals with CNP, (+uPA) mice demonstrated increased levels of studied BA (except for 5HIAA) compared to mice with CNP alone. Only H increase was observed in (–uPA) mice from the similar group.Conclusion. CNP in mice inhibited A-, NA-, H- and 5HT-ergic systems of the brain; the opposite effects were registered in urokinase gene knockout, except for the H-ergic system. Combination of CNP and melanoma in (+uPA) female mice activated all studied BA systems, and in (–uPA) females – H-ergic system only. Different stressful effects, CNP, and genetic disorders (urokinase gene knockout) contributed to changes in the brain BA system functions, leading to the activation of pro- or antitumor mechanisms.https://bulletin.tomsk.ru/jour/article/view/4155b16/f10 melanomamelanoma coursechronic neurogenic painupa urokinase gene knockoutmicebrainbiogenic amines
collection DOAJ
language English
format Article
sources DOAJ
author O. I. Kit
E. M. Frantsiyants
V. A. Bandovkina
I. V. Kaplieva
E. I. Surikova
L. K. Trepitaki
N. D. Cheryarina
I. M. Kotieva
spellingShingle O. I. Kit
E. M. Frantsiyants
V. A. Bandovkina
I. V. Kaplieva
E. I. Surikova
L. K. Trepitaki
N. D. Cheryarina
I. M. Kotieva
Does change in neurotransmitter brain status affect the growth of transplantable melanoma?
Bûlleten' Sibirskoj Mediciny
b16/f10 melanoma
melanoma course
chronic neurogenic pain
upa urokinase gene knockout
mice
brain
biogenic amines
author_facet O. I. Kit
E. M. Frantsiyants
V. A. Bandovkina
I. V. Kaplieva
E. I. Surikova
L. K. Trepitaki
N. D. Cheryarina
I. M. Kotieva
author_sort O. I. Kit
title Does change in neurotransmitter brain status affect the growth of transplantable melanoma?
title_short Does change in neurotransmitter brain status affect the growth of transplantable melanoma?
title_full Does change in neurotransmitter brain status affect the growth of transplantable melanoma?
title_fullStr Does change in neurotransmitter brain status affect the growth of transplantable melanoma?
title_full_unstemmed Does change in neurotransmitter brain status affect the growth of transplantable melanoma?
title_sort does change in neurotransmitter brain status affect the growth of transplantable melanoma?
publisher Siberian State Medical University (Tomsk)
series Bûlleten' Sibirskoj Mediciny
issn 1682-0363
1819-3684
publishDate 2021-01-01
description Aim. Studying the influence of the features of aminergic brain status on the development of B16/F10 melanoma in mice with urokinase gene knockout and chronic neurogenic pain (CNP).Material and methods. The study included female (n = 68) С57ВL/6 mice with the normal urokinase gene (+uPA) and C57BL/6-PlautmI.IBug-This Plau6FDhu/GFDhu mice with urokinase gene knockout (–uPA). The model of CNP was created in the animals, and in 14 days B16/F10 melanoma was transplanted. The mice were euthanized 21 days after the transplantation. Levels of adrenaline (A), noradrenaline (NA), dopamine (DA), histamine (H), serotonin (5HT), 5-hydroxyindoleacetic acid (5HIAA) were determined in the brain using standard ELISA test systems (Cusabio, China).Results. CNP in (+uPA) females resulted in the reduction of almost all studied biogenic amines (BA). On the opposite, (–uPA) females showed an increase in NA, DA, 5HT and a decrease of H. 5HIAA increased in both CNP and gene knockout. 5HT in (+uPA) females with CNP decreased, while its physiological level in gene knockout mice was maintained. After 3 weeks of tumor growth in animals with CNP, (+uPA) mice demonstrated increased levels of studied BA (except for 5HIAA) compared to mice with CNP alone. Only H increase was observed in (–uPA) mice from the similar group.Conclusion. CNP in mice inhibited A-, NA-, H- and 5HT-ergic systems of the brain; the opposite effects were registered in urokinase gene knockout, except for the H-ergic system. Combination of CNP and melanoma in (+uPA) female mice activated all studied BA systems, and in (–uPA) females – H-ergic system only. Different stressful effects, CNP, and genetic disorders (urokinase gene knockout) contributed to changes in the brain BA system functions, leading to the activation of pro- or antitumor mechanisms.
topic b16/f10 melanoma
melanoma course
chronic neurogenic pain
upa urokinase gene knockout
mice
brain
biogenic amines
url https://bulletin.tomsk.ru/jour/article/view/4155
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