弓形虫病
中文名称
通路描述
弓形虫是一种全球普遍存在的细胞内专性寄生虫。通过口摄入获得的速殖子通过多种机制下调促炎信号通路。在早期感染期间,NF-κB的核转位被时间性阻断,p38 MAPK磷酸化被阻止,从而抑制IL-12的产生。另一种诱导IL-12的途径是通过CCR5依赖途径,但寄生虫诱导的脂氧素LXA4有助于下调IL-12。寄生虫直接激活STAT3增强IL-10和TGF-β的抗炎功能。弓形虫可以通过诱导bcl-2或IAPs建立抗凋亡环境,以及将LDL介导的胆固醇转运重定向以从宿主获取营养,从而引起终身慢性感染。
英文描述
Toxoplasma gondii is an obligate intracellular parasite that is prevalent worldwide. The tachyzoite form acquired by oral ingestion downmodulates proinflammatory signaling pathways via various mechanisms. During early infection, nuclear translocation of NFkB is temporally blocked and p38 MAPK phosphorylation is prevented, suppressing IL-12 production. Another pathway for IL-12 induction occurs through CCR5 dependent pathway, but parasitic induction of an eicosanoid LXA4 contributes to the downregulation of IL-12. Direct activation of STAT3 by the parasite enhance anti-inflammatory function of IL-10 and TGF beta. T. gondii can cause lifelong chronic infection by establishing an anti-apoptotic environment through induction of bcl-2 or IAPs and by redirecting LDL-mediated cholesterol transport to scavenge nutrients from the host.
所含基因
112 个基因
AKT1
AKT2
AKT3
ALOX5
BAD
BCL2
BCL2L1
BIRC2
BIRC3
BIRC7
CASP3
CASP8
CASP9
CCR5
CD40
CD40LG
CHUK
CIITA
CYCS
GNAI1
GNAI2
GNAI3
GNAO1
HLA-DMA
HLA-DMB
HLA-DOA
HLA-DOB
HLA-DPA1
HLA-DPB1
HLA-DQA1
HLA-DQA2
HLA-DQB1
HLA-DQB2
HLA-DRA
HLA-DRB1
HLA-DRB3
HLA-DRB4
HLA-DRB5
HSPA1A
HSPA1B
HSPA1L
HSPA6
HSPA8
IFNG
IFNGR1
IFNGR2
IKBKB
IKBKG
IL10
IL10RA
IL10RB
IL12A
IL12B
IRAK1
IRAK4
IRGM
ITGA6
ITGB1
JAK1
JAK2
LAMA1
LAMA2
LAMA3
LAMA4
LAMA5
LAMB1
LAMB2
LAMB3
LAMB4
LAMC1
LAMC2
LAMC3
LDLR
LY96
MAP2K3
MAP2K6
MAP3K7
MAPK1
MAPK10
MAPK11
MAPK12
MAPK13
MAPK14
MAPK3
MAPK8
MAPK9
MYD88
NFKB1
NFKBIA
NFKBIB
NOS2
PDPK1
PIK3CG
PIK3R5
PIK3R6
PPIF
RELA
SOCS1
STAT1
STAT3
TAB1
TAB2
TGFB1
TGFB2
TGFB3
TLR2
TLR4
TNF
TNFRSF1A
TRAF6
TYK2
XIAP