BIOMAT Database Logo BIOMAT Database Logo

Regulation of immune recognition molecules by flavivirus, West Nile. 2002

Alison M Kesson, and Ying Cheng, and Nicholas J C King
Department of Virology and Microbiology, The Children's Hospital at Westmead, NSW, Australia. alisonk2@chw.edu.au

We have shown the flaviviruses can up-regulate the cell surface expression of the immune recognition molecules, major histocompatability complex class-I and class-II (MHC-I, MHC-II), ICAM-1, VCAM, and E-selectin, in an interferon-independent and tumor necrosis factor-independent manner. This up-regulation is associated with an increased transcription of the relevant genes and is due to activation of the transcription factor, nuclear factor-kappa B. The level of up-regulation is determined in part by the cell cycle position of the cell when infected with the flavivirus, as quiescent cells show a greater increase in the level of expression of the immune recognition molecules, MHC-I and ICAM-1, than cells in other phases of the cell cycle. The resultant increased cell surface expression is functional with the increased expression resulting in increased recognition by flavivirus-specific and allo-specific cytotoxic T cells.

UI MeSH Term Description Entries
D007111 Immunity, Cellular Manifestations of the immune response which are mediated by antigen-sensitized T-lymphocytes via lymphokines or direct cytotoxicity. This takes place in the absence of circulating antibody or where antibody plays a subordinate role. Cell-Mediated Immunity,Cellular Immune Response,Cell Mediated Immunity,Cell-Mediated Immunities,Cellular Immune Responses,Cellular Immunities,Cellular Immunity,Immune Response, Cellular,Immune Responses, Cellular,Immunities, Cell-Mediated,Immunities, Cellular,Immunity, Cell-Mediated,Response, Cellular Immune
D002453 Cell Cycle The complex series of phenomena, occurring between the end of one CELL DIVISION and the end of the next, by which cellular material is duplicated and then divided between two daughter cells. The cell cycle includes INTERPHASE, which includes G0 PHASE; G1 PHASE; S PHASE; and G2 PHASE, and CELL DIVISION PHASE. Cell Division Cycle,Cell Cycles,Cell Division Cycles,Cycle, Cell,Cycle, Cell Division,Cycles, Cell,Cycles, Cell Division,Division Cycle, Cell,Division Cycles, Cell
D002462 Cell Membrane The lipid- and protein-containing, selectively permeable membrane that surrounds the cytoplasm in prokaryotic and eukaryotic cells. Plasma Membrane,Cytoplasmic Membrane,Cell Membranes,Cytoplasmic Membranes,Membrane, Cell,Membrane, Cytoplasmic,Membrane, Plasma,Membranes, Cell,Membranes, Cytoplasmic,Membranes, Plasma,Plasma Membranes
D003602 Cytotoxicity, Immunologic The phenomenon of target cell destruction by immunologically active effector cells. It may be brought about directly by sensitized T-lymphocytes or by lymphoid or myeloid "killer" cells, or it may be mediated by cytotoxic antibody, cytotoxic factor released by lymphoid cells, or complement. Tumoricidal Activity, Immunologic,Immunologic Cytotoxicity,Immunologic Tumoricidal Activities,Immunologic Tumoricidal Activity,Tumoricidal Activities, Immunologic
D005416 Flavivirus A genus of FLAVIVIRIDAE containing several subgroups and many species. Most are arboviruses transmitted by mosquitoes or ticks. The type species is YELLOW FEVER VIRUS. Arbovirus, Group B,Arboviruses, Group B,Flaviviruses,Group B Arbovirus,Group B Arboviruses
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D000949 Histocompatibility Antigens Class II Large, transmembrane, non-covalently linked glycoproteins (alpha and beta). Both chains can be polymorphic although there is more structural variation in the beta chains. The class II antigens in humans are called HLA-D ANTIGENS and are coded by a gene on chromosome 6. In mice, two genes named IA and IE on chromosome 17 code for the H-2 antigens. The antigens are found on B-lymphocytes, macrophages, epidermal cells, and sperm and are thought to mediate the competence of and cellular cooperation in the immune response. The term IA antigens used to refer only to the proteins encoded by the IA genes in the mouse, but is now used as a generic term for any class II histocompatibility antigen. Antigens, Immune Response,Class II Antigens,Class II Histocompatibility Antigen,Class II Major Histocompatibility Antigen,Ia Antigens,Ia-Like Antigen,Ia-Like Antigens,Immune Response Antigens,Immune-Associated Antigens,Immune-Response-Associated Antigens,MHC Class II Molecule,MHC II Peptide,Class II Antigen,Class II Histocompatibility Antigens,Class II MHC Proteins,Class II Major Histocompatibility Antigens,Class II Major Histocompatibility Molecules,I-A Antigen,I-A-Antigen,IA Antigen,MHC Class II Molecules,MHC II Peptides,MHC-II Molecules,Antigen, Class II,Antigen, I-A,Antigen, IA,Antigen, Ia-Like,Antigens, Class II,Antigens, Ia,Antigens, Ia-Like,Antigens, Immune-Associated,Antigens, Immune-Response-Associated,I A Antigen,II Peptide, MHC,Ia Like Antigen,Ia Like Antigens,Immune Associated Antigens,Immune Response Associated Antigens,MHC II Molecules,Molecules, MHC-II,Peptide, MHC II,Peptides, MHC II
D013601 T-Lymphocytes Lymphocytes responsible for cell-mediated immunity. Two types have been identified - cytotoxic (T-LYMPHOCYTES, CYTOTOXIC) and helper T-lymphocytes (T-LYMPHOCYTES, HELPER-INDUCER). They are formed when lymphocytes circulate through the THYMUS GLAND and differentiate to thymocytes. When exposed to an antigen, they divide rapidly and produce large numbers of new T cells sensitized to that antigen. T Cell,T Lymphocyte,T-Cells,Thymus-Dependent Lymphocytes,Cell, T,Cells, T,Lymphocyte, T,Lymphocyte, Thymus-Dependent,Lymphocytes, T,Lymphocytes, Thymus-Dependent,T Cells,T Lymphocytes,T-Cell,T-Lymphocyte,Thymus Dependent Lymphocytes,Thymus-Dependent Lymphocyte
D014901 West Nile Fever A mosquito-borne viral illness caused by the WEST NILE VIRUS, a FLAVIVIRUS and endemic to regions of Africa, Asia, and Europe. Common clinical features include HEADACHE; FEVER; maculopapular rash; gastrointestinal symptoms; and lymphadenopathy. MENINGITIS; ENCEPHALITIS; and MYELITIS may also occur. The disease may occasionally be fatal or leave survivors with residual neurologic deficits. (From Joynt, Clinical Neurology, 1996, Ch26, p13; Lancet 1998 Sep 5;352(9130):767-71) Kunjin virus Infection,Encephalitis, West Nile Fever,WNV Infection,West Nile Fever Encephalitis,West Nile Fever Meningitis,West Nile Fever Meningoencephalitis,West Nile Fever Myelitis,West Nile Virus Infection,Infection, Kunjin virus,Infection, WNV,Kunjin virus Infections,WNV Infections

Related Publications

Alison M Kesson, and Ying Cheng, and Nicholas J C King
Monoclonal antibodies against the flavivirus West Nile.
February 1982, The Journal of general virology,
Alison M Kesson, and Ying Cheng, and Nicholas J C King
[Flavivirus encephalitis: focus on West Nile encephalitis].
August 2005, Rinsho byori. The Japanese journal of clinical pathology,
Alison M Kesson, and Ying Cheng, and Nicholas J C King
An infectious clone of the West Nile flavivirus.
March 2001, Virology,
Alison M Kesson, and Ying Cheng, and Nicholas J C King
Immunization of flavivirus West Nile recombinant envelope domain III protein induced specific immune response and protection against West Nile virus infection.
March 2007, Journal of immunology (Baltimore, Md. : 1950),
Alison M Kesson, and Ying Cheng, and Nicholas J C King
Encephalomyelitis from West Nile flavivirus in 3 alpacas.
January 2004, Journal of veterinary internal medicine,
Alison M Kesson, and Ying Cheng, and Nicholas J C King
[West nile virus. An unusual flavivirus with increased importance].
April 2004, Medizinische Monatsschrift fur Pharmazeuten,
Alison M Kesson, and Ying Cheng, and Nicholas J C King
Flavivirus West Nile (Sarafend) egress at the plasma membrane.
January 1994, Archives of virology,
Alison M Kesson, and Ying Cheng, and Nicholas J C King
Transcriptional regulation of major histocompatibility complex class I by flavivirus West Nile is dependent on NF-kappaB activation.
October 2001, The Journal of infectious diseases,
Alison M Kesson, and Ying Cheng, and Nicholas J C King
West Nile Flavivirus Polioencephalomyelitis in a harbor seal (Phoca vitulina).
January 2006, Veterinary pathology,
Alison M Kesson, and Ying Cheng, and Nicholas J C King
Stability of West Nile Virus (Flaviviridae: Flavivirus) RNA in Mosquito Excreta.
June 2019, Journal of medical entomology,
Copied contents to your clipboard!