The Influence of β-Arrestin-2 Gene Knockout in Mice on Survival of Cultured Astrocytes Exposed to Thrombin and on the Cerebral Thrombosis Aftereffects In Vivo

— Thrombin is a multifunctional serine protease that attracts the attention of many researchers in particular in connection with a wide range of its effects in the nervous tissue. It is known that the main thrombin receptor is a protease-activated type 1 receptor, the functional activity of which is...

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Published inBiochemistry (Moscow). Supplement series A, Membrane and cell biology Vol. 14; no. 1; pp. 17 - 23
Main Authors Galkov, M. D., Ivanova, A. E., Gulyaev, M. V., Kiseleva, E. V., Savinkova, I. G., Gorbacheva, L. R.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 2020
Springer Nature B.V
Subjects
Adapter proteins
Adapters
Arrestin
Astrocytes
Biocompatibility
Biomedical and Life Sciences
Cell Biology
Cell death
In vivo methods and tests
Ischemia
Life Sciences
Molecular modelling
Neuroprotection
Protease
Serine
Serine proteinase
Survival
Thrombin
Thrombosis
Toxicity
β-arrestin-2
thrombin
biased agonism
PAR1
photothrombosis
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Summary:— Thrombin is a multifunctional serine protease that attracts the attention of many researchers in particular in connection with a wide range of its effects in the nervous tissue. It is known that the main thrombin receptor is a protease-activated type 1 receptor, the functional activity of which is associated with adapter protein β-arrestin-2. Here we assessed potential involvement of β-arrestin-2 in the thrombin toxicity both in vitro and in vivo using gene knockout mice. It was found that thrombin induced dose-dependent cell death of cultured β-arrestin-2 –/– astrocytes 48 h after the exposure. In contrast, thrombin did not exert any effects on the survival of astrocytes from wild-type animals. The in vivo study showed that β-arrestin-2 gene knockout did not alter the severity of the focal photoinduced cerebral ischemia aftereffects, which could involve additional cell types and molecular mechanisms in nervous tissue damage. Our findings demonstrate for the first time the necessity of β-arrestin-2 for the survival of mouse astrocytes under the toxic action of thrombin. At the CNS level, however, further studies are required to determine the key targets of this protease in each cell types of the nervous tissue and to clarify the role of β-arrestin signaling in neuroprotection.
ISSN:1990-7478
1990-7494
DOI:10.1134/S1990747819060060