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A database of human genes and a gene network involved in response to tick-borne encephalitis virus infection. / Ignatieva, Elena V.; Igoshin, Alexander V.; Yudin, Nikolay S.

в: BMC Evolutionary Biology, Том 17, № Suppl 2, 259, 28.12.2017, стр. 259.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Ignatieva, EV, Igoshin, AV & Yudin, NS 2017, 'A database of human genes and a gene network involved in response to tick-borne encephalitis virus infection', BMC Evolutionary Biology, Том. 17, № Suppl 2, 259, стр. 259. https://doi.org/10.1186/s12862-017-1107-8

APA

Ignatieva, E. V., Igoshin, A. V., & Yudin, N. S. (2017). A database of human genes and a gene network involved in response to tick-borne encephalitis virus infection. BMC Evolutionary Biology, 17(Suppl 2), 259. [259]. https://doi.org/10.1186/s12862-017-1107-8

Vancouver

Ignatieva EV, Igoshin AV, Yudin NS. A database of human genes and a gene network involved in response to tick-borne encephalitis virus infection. BMC Evolutionary Biology. 2017 дек. 28;17(Suppl 2):259. 259. doi: 10.1186/s12862-017-1107-8

Author

Ignatieva, Elena V. ; Igoshin, Alexander V. ; Yudin, Nikolay S. / A database of human genes and a gene network involved in response to tick-borne encephalitis virus infection. в: BMC Evolutionary Biology. 2017 ; Том 17, № Suppl 2. стр. 259.

BibTeX

@article{eba7bd1e657e4b5897b3cd0cf4d4576b,
title = "A database of human genes and a gene network involved in response to tick-borne encephalitis virus infection",
abstract = "Background: Tick-borne encephalitis is caused by the neurotropic, positive-sense RNA virus, tick-borne encephalitis virus (TBEV). TBEV infection can lead to a variety of clinical manifestations ranging from slight fever to severe neurological illness. Very little is known about genetic factors predisposing to severe forms of disease caused by TBEV. The aims of the study were to compile a catalog of human genes involved in response to TBEV infection and to rank genes from the catalog based on the number of neighbors in the network of pairwise interactions involving these genes and TBEV RNA or proteins. Results: Based on manual review and curation of scientific publications a catalog comprising 140 human genes involved in response to TBEV infection was developed. To provide access to data on all genes, the TBEVhostDB web resource (http://icg.nsc.ru/TBEVHostDB/) was created. We reconstructed a network formed by pairwise interactions between TBEV virion itself, viral RNA and viral proteins and 140 genes/proteins from TBEVHostDB. Genes were ranked according to the number of interactions in the network. Two genes/proteins (CCR5 and IFNAR1) that had maximal number of interactions were revealed. It was found that the subnetworks formed by CCR5 and IFNAR1 and their neighbors were a fragments of two key pathways functioning during the course of tick-borne encephalitis: (1) the attenuation of interferon-I signaling pathway by the TBEV NS5 protein that targeted peptidase D; (2) proinflammation and tissue damage pathway triggered by chemokine receptor CCR5 interacting with CD4, CCL3, CCL4, CCL2. Among nine genes associated with severe forms of TBEV infection, three genes/proteins (CCR5, IL10, ARID1B) were found to have protein-protein interactions within the network, and two genes/proteins (IFNL3 and the IL10, that was just mentioned) were up- or down-regulated in response to TBEV infection. Based on this finding, potential mechanisms for participation of CCR5, IL10, ARID1B, and IFNL3 in the host response to TBEV infection were suggested. Conclusions: A database comprising 140 human genes involved in response to TBEV infection was compiled and the TBEVHostDB web resource, providing access to all genes was created. This is the first effort of integrating and unifying data on genetic factors that may predispose to severe forms of diseases caused by TBEV. The TBEVHostDB could potentially be used for assessment of risk factors for severe forms of tick-borne encephalitis and for the design of personalized pharmacological strategies for the treatment of TBEV infection.",
keywords = "Candidate genes, Database, Flavivirus, Network, PPIs, TBEV, Tick-borne encephalitis, Humans, RNA, Viral/genetics, Databases, Genetic, Encephalitis Viruses, Tick-Borne/physiology, Gene Regulatory Networks, Encephalitis, Tick-Borne/genetics, Animals, Internet, FAR-EASTERN SUBTYPE, I INTERFERON RESPONSE, CEREBROSPINAL-FLUID, RUSSIAN POPULATION, VARIABLE REGION, IMMUNE-RESPONSES, SINGLE NUCLEOTIDE POLYMORPHISM, HUMAN PREDISPOSITION, GENOME-WIDE ASSOCIATION, WEST-NILE-VIRUS",
author = "Ignatieva, {Elena V.} and Igoshin, {Alexander V.} and Yudin, {Nikolay S.}",
note = "Publisher Copyright: {\textcopyright} 2017 The Author(s).",
year = "2017",
month = dec,
day = "28",
doi = "10.1186/s12862-017-1107-8",
language = "English",
volume = "17",
pages = "259",
journal = "BMC Evolutionary Biology",
issn = "1471-2148",
publisher = "BioMed Central Ltd.",
number = "Suppl 2",

}

RIS

TY - JOUR

T1 - A database of human genes and a gene network involved in response to tick-borne encephalitis virus infection

AU - Ignatieva, Elena V.

AU - Igoshin, Alexander V.

AU - Yudin, Nikolay S.

N1 - Publisher Copyright: © 2017 The Author(s).

PY - 2017/12/28

Y1 - 2017/12/28

N2 - Background: Tick-borne encephalitis is caused by the neurotropic, positive-sense RNA virus, tick-borne encephalitis virus (TBEV). TBEV infection can lead to a variety of clinical manifestations ranging from slight fever to severe neurological illness. Very little is known about genetic factors predisposing to severe forms of disease caused by TBEV. The aims of the study were to compile a catalog of human genes involved in response to TBEV infection and to rank genes from the catalog based on the number of neighbors in the network of pairwise interactions involving these genes and TBEV RNA or proteins. Results: Based on manual review and curation of scientific publications a catalog comprising 140 human genes involved in response to TBEV infection was developed. To provide access to data on all genes, the TBEVhostDB web resource (http://icg.nsc.ru/TBEVHostDB/) was created. We reconstructed a network formed by pairwise interactions between TBEV virion itself, viral RNA and viral proteins and 140 genes/proteins from TBEVHostDB. Genes were ranked according to the number of interactions in the network. Two genes/proteins (CCR5 and IFNAR1) that had maximal number of interactions were revealed. It was found that the subnetworks formed by CCR5 and IFNAR1 and their neighbors were a fragments of two key pathways functioning during the course of tick-borne encephalitis: (1) the attenuation of interferon-I signaling pathway by the TBEV NS5 protein that targeted peptidase D; (2) proinflammation and tissue damage pathway triggered by chemokine receptor CCR5 interacting with CD4, CCL3, CCL4, CCL2. Among nine genes associated with severe forms of TBEV infection, three genes/proteins (CCR5, IL10, ARID1B) were found to have protein-protein interactions within the network, and two genes/proteins (IFNL3 and the IL10, that was just mentioned) were up- or down-regulated in response to TBEV infection. Based on this finding, potential mechanisms for participation of CCR5, IL10, ARID1B, and IFNL3 in the host response to TBEV infection were suggested. Conclusions: A database comprising 140 human genes involved in response to TBEV infection was compiled and the TBEVHostDB web resource, providing access to all genes was created. This is the first effort of integrating and unifying data on genetic factors that may predispose to severe forms of diseases caused by TBEV. The TBEVHostDB could potentially be used for assessment of risk factors for severe forms of tick-borne encephalitis and for the design of personalized pharmacological strategies for the treatment of TBEV infection.

AB - Background: Tick-borne encephalitis is caused by the neurotropic, positive-sense RNA virus, tick-borne encephalitis virus (TBEV). TBEV infection can lead to a variety of clinical manifestations ranging from slight fever to severe neurological illness. Very little is known about genetic factors predisposing to severe forms of disease caused by TBEV. The aims of the study were to compile a catalog of human genes involved in response to TBEV infection and to rank genes from the catalog based on the number of neighbors in the network of pairwise interactions involving these genes and TBEV RNA or proteins. Results: Based on manual review and curation of scientific publications a catalog comprising 140 human genes involved in response to TBEV infection was developed. To provide access to data on all genes, the TBEVhostDB web resource (http://icg.nsc.ru/TBEVHostDB/) was created. We reconstructed a network formed by pairwise interactions between TBEV virion itself, viral RNA and viral proteins and 140 genes/proteins from TBEVHostDB. Genes were ranked according to the number of interactions in the network. Two genes/proteins (CCR5 and IFNAR1) that had maximal number of interactions were revealed. It was found that the subnetworks formed by CCR5 and IFNAR1 and their neighbors were a fragments of two key pathways functioning during the course of tick-borne encephalitis: (1) the attenuation of interferon-I signaling pathway by the TBEV NS5 protein that targeted peptidase D; (2) proinflammation and tissue damage pathway triggered by chemokine receptor CCR5 interacting with CD4, CCL3, CCL4, CCL2. Among nine genes associated with severe forms of TBEV infection, three genes/proteins (CCR5, IL10, ARID1B) were found to have protein-protein interactions within the network, and two genes/proteins (IFNL3 and the IL10, that was just mentioned) were up- or down-regulated in response to TBEV infection. Based on this finding, potential mechanisms for participation of CCR5, IL10, ARID1B, and IFNL3 in the host response to TBEV infection were suggested. Conclusions: A database comprising 140 human genes involved in response to TBEV infection was compiled and the TBEVHostDB web resource, providing access to all genes was created. This is the first effort of integrating and unifying data on genetic factors that may predispose to severe forms of diseases caused by TBEV. The TBEVHostDB could potentially be used for assessment of risk factors for severe forms of tick-borne encephalitis and for the design of personalized pharmacological strategies for the treatment of TBEV infection.

KW - Candidate genes

KW - Database

KW - Flavivirus

KW - Network

KW - PPIs

KW - TBEV

KW - Tick-borne encephalitis

KW - Humans

KW - RNA, Viral/genetics

KW - Databases, Genetic

KW - Encephalitis Viruses, Tick-Borne/physiology

KW - Gene Regulatory Networks

KW - Encephalitis, Tick-Borne/genetics

KW - Animals

KW - Internet

KW - FAR-EASTERN SUBTYPE

KW - I INTERFERON RESPONSE

KW - CEREBROSPINAL-FLUID

KW - RUSSIAN POPULATION

KW - VARIABLE REGION

KW - IMMUNE-RESPONSES

KW - SINGLE NUCLEOTIDE POLYMORPHISM

KW - HUMAN PREDISPOSITION

KW - GENOME-WIDE ASSOCIATION

KW - WEST-NILE-VIRUS

UR - http://www.scopus.com/inward/record.url?scp=85039758438&partnerID=8YFLogxK

U2 - 10.1186/s12862-017-1107-8

DO - 10.1186/s12862-017-1107-8

M3 - Article

C2 - 29297316

AN - SCOPUS:85039758438

VL - 17

SP - 259

JO - BMC Evolutionary Biology

JF - BMC Evolutionary Biology

SN - 1471-2148

IS - Suppl 2

M1 - 259

ER -

ID: 9399471