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Entity

Name
astrocyte activation
Namespace
go
Namespace Version
20180921
Namespace URL
https://raw.githubusercontent.com/pharmacome/terminology/b46b65c3da259b6e86026514dfececab7c22a11b/external/go-names.belns

Appears in Networks 3

In-Edges 7

a(HBP:HBP00018) causesNoChange bp(GO:"astrocyte activation") View Subject | View Object

On the contrary, no relationship between total Aβ plaque burden and number of astrocytes or neurons was found (da Rocha-Souto et al. 2011). PubMed:29196815

a(HBP:HBP00074) increases bp(GO:"astrocyte activation") View Subject | View Object

Furthermore, it was demonstrated that AβO may not only injure the neurites of brain neurons, but also activate microglia and astrocyte response (Sondag et al. 2009). PubMed:29196815

a(HBP:HBP00074) positiveCorrelation bp(GO:"astrocyte activation") View Subject | View Object

In addition, the load of AβO deposits significantly correlated with fibrillar Aβ plaque deposition as well as with neuronal loss and numbers of astrocytes, although not with memory deficits. PubMed:29196815

p(HBP:"Tau isoform F (441 aa)", var("p.Lys280del")) negativeCorrelation bp(GO:"astrocyte activation") View Subject | View Object

Surprisingly, expression of neuronal activity marker cFos, astrocytic activity marker Gfap, and oxidative stress marker Hmox1 were reduced in the proaggregant Tau transgenic slices, whereas antiaggregant Tau transgenic slices were not different from littermate controls (Fig. 4A) PubMed:27671637

p(MGI:Gfap) biomarkerFor bp(GO:"astrocyte activation") View Subject | View Object

Surprisingly, expression of neuronal activity marker cFos, astrocytic activity marker Gfap, and oxidative stress marker Hmox1 were reduced in the proaggregant Tau transgenic slices, whereas antiaggregant Tau transgenic slices were not different from littermate controls (Fig. 4A) PubMed:27671637

p(HGNC:IL18) increases bp(GO:"astrocyte activation") View Subject | View Object

It is noteworthy that IL-1 beta and IL-18 can activate various cell types, par- ticularly astrocytes and microglia to induce additional cytokine release involving IL-1 beta , IL-6, and IL-18, and also nitric oxide (NO) synthase that can stimulate production of free radical NO, leading to the forma- tion of peroxynitrite that denatures DNA and impairs cellular energy pathways [48, 49]. PubMed:27314526

p(HGNC:IL1B) increases bp(GO:"astrocyte activation") View Subject | View Object

It is noteworthy that IL-1 beta and IL-18 can activate various cell types, par- ticularly astrocytes and microglia to induce additional cytokine release involving IL-1 beta , IL-6, and IL-18, and also nitric oxide (NO) synthase that can stimulate production of free radical NO, leading to the forma- tion of peroxynitrite that denatures DNA and impairs cellular energy pathways [48, 49]. PubMed:27314526

Out-Edges 6

bp(GO:"astrocyte activation") positiveCorrelation a(HBP:HBP00074) View Subject | View Object

In addition, the load of AβO deposits significantly correlated with fibrillar Aβ plaque deposition as well as with neuronal loss and numbers of astrocytes, although not with memory deficits. PubMed:29196815

bp(GO:"astrocyte activation") negativeCorrelation p(HBP:"Tau isoform F (441 aa)", var("p.Lys280del")) View Subject | View Object

Surprisingly, expression of neuronal activity marker cFos, astrocytic activity marker Gfap, and oxidative stress marker Hmox1 were reduced in the proaggregant Tau transgenic slices, whereas antiaggregant Tau transgenic slices were not different from littermate controls (Fig. 4A) PubMed:27671637

bp(GO:"astrocyte activation") increases sec(p(HGNC:IL1B)) View Subject | View Object

It is noteworthy that IL-1 beta and IL-18 can activate various cell types, par- ticularly astrocytes and microglia to induce additional cytokine release involving IL-1 beta , IL-6, and IL-18, and also nitric oxide (NO) synthase that can stimulate production of free radical NO, leading to the forma- tion of peroxynitrite that denatures DNA and impairs cellular energy pathways [48, 49]. PubMed:27314526

bp(GO:"astrocyte activation") increases sec(p(HGNC:IL6)) View Subject | View Object

It is noteworthy that IL-1 beta and IL-18 can activate various cell types, par- ticularly astrocytes and microglia to induce additional cytokine release involving IL-1 beta , IL-6, and IL-18, and also nitric oxide (NO) synthase that can stimulate production of free radical NO, leading to the forma- tion of peroxynitrite that denatures DNA and impairs cellular energy pathways [48, 49]. PubMed:27314526

bp(GO:"astrocyte activation") increases sec(p(HGNC:IL18)) View Subject | View Object

It is noteworthy that IL-1 beta and IL-18 can activate various cell types, par- ticularly astrocytes and microglia to induce additional cytokine release involving IL-1 beta , IL-6, and IL-18, and also nitric oxide (NO) synthase that can stimulate production of free radical NO, leading to the forma- tion of peroxynitrite that denatures DNA and impairs cellular energy pathways [48, 49]. PubMed:27314526

bp(GO:"astrocyte activation") increases sec(p(HGNC:NOS2)) View Subject | View Object

It is noteworthy that IL-1 beta and IL-18 can activate various cell types, par- ticularly astrocytes and microglia to induce additional cytokine release involving IL-1 beta , IL-6, and IL-18, and also nitric oxide (NO) synthase that can stimulate production of free radical NO, leading to the forma- tion of peroxynitrite that denatures DNA and impairs cellular energy pathways [48, 49]. PubMed:27314526

About

BEL Commons is developed and maintained in an academic capacity by Charles Tapley Hoyt and Daniel Domingo-Fernández at the Fraunhofer SCAI Department of Bioinformatics with support from the IMI project, AETIONOMY. It is built on top of PyBEL, an open source project. Please feel free to contact us here to give us feedback or report any issues. Also, see our Publishing Notes and Data Protection information.

If you find BEL Commons useful in your work, please consider citing: Hoyt, C. T., Domingo-Fernández, D., & Hofmann-Apitius, M. (2018). BEL Commons: an environment for exploration and analysis of networks encoded in Biological Expression Language. Database, 2018(3), 1–11.