Jessica Oenarto scite author profile

Hepatic encephalopathy is a neuropsychiatric syndrome evolving from cerebral osmotic disturbances and oxidative/nitrosative stress. Ammonia, the main toxin of hepatic encephalopathy, triggers astrocyte senescence in an oxidative stress-dependent way. As miRNAs are critically involved in cell cycle regulation and their expression may be regulated by oxidative stress, we analysed, whether astrocyte senescence is a consequence of ammonia-induced miRNA expression changes. Using a combined miRNA and gene microarray approach, 43 miRNA species which were downregulated and 142 genes which were upregulated by NH4Cl (5 mmol/l, 48 h) in cultured rat astrocytes were found. Ammonia-induced miRNA and gene expression changes were validated by qPCR and 43 potential miRNA target genes, including HO-1, were identified by matching upregulated mRNA species with predicted targets of miRNA species downregulated by ammonia. Inhibition of HO-1 targeting miRNAs which were downregulated by NH4Cl strongly upregulated HO-1 mRNA and protein levels and inhibited astrocyte proliferation in a HO-1-dependent way. Preventing ammonia-induced upregulation of HO-1 by taurine (5 mmol/l) as well as blocking HO-1 activity by tin-protoporphyrine IX fully prevented ammonia-induced proliferation inhibition and senescence. The data suggest that ammonia induces astrocyte senescence through NADPH oxidase-dependent downregulation of HO-1 targeting miRNAs and concomitant upregulation of HO-1 at both mRNA and protein level.

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Taurine transporter (TauT) deficiency impairs ammonia detoxification in mouse liver

Qvartskhava

Wei

Buschmann

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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Hepatic ammonia handling was analyzed in taurine transporter (TauT) KO mice. Surprisingly, hyperammonemia was present at an age of 3 and 12 months despite normal tissue integrity. This was accompanied by cerebral RNA oxidation. As shown in liver perfusion experiments, glutamine production from ammonia was diminished in TauT KO mice, whereas urea production was not affected. In livers from 3-month-old TauT KO mice protein expression and activity of glutamine synthetase (GS) were unaffected, whereas the ammonia-transporting RhBG protein was down-regulated by about 50%. Double reciprocal plot analysis of glutamine synthesis versus perivenous ammonia concentration revealed that TauT KO had no effect on the capacity of glutamine formation in 3-monthold mice, but doubled the ammonia concentration required for halfmaximal glutamine synthesis. Since hepatic RhBG expression is restricted to GS-expressing hepatocytes, the findings suggest that an impaired ammonia transport into these cells impairs glutamine synthesis. In livers from 12-, but not 3-month-old TauT KO mice, RhBG expression was not affected, surrogate markers for oxidative stress were strongly up-regulated, and GS activity was decreased by 40% due to an inactivating tyrosine nitration. This was also reflected by kinetic analyses in perfused liver, which showed a decreased glutamine synthesizing capacity by 43% and a largely unaffected ammonia concentration dependence. It is concluded that TauT deficiency triggers hyperammonemia through impaired hepatic glutamine synthesis due to an impaired ammonia transport via RhBG at 3 months and a tyrosine nitration-dependent inactivation of GS in 12month-old TauT KO mice. glutamine | hyperammonemia | taurine | scavenger cells | oxidative stress

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Expression of organic osmolyte transporters in cultured rat astrocytes and rat and human cerebral cortex

Oenarto¹,

Görg²,

Moos³

et al. 2014

Archives of Biochemistry and Biophysics

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Taurine Transporter Deficiency Induces Hyperammonemia, Oxidative Stress and Senescence in Mouse Liver

Monhasery

Görg

Oenarto

et al. 2017

Journal of Clinical and Experimental Hepatology

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Taurine deficiency induces hyperammonemia and oxidative stress and senescence in mouse liver

Qvartskhava¹,

Jin²,

Buschmann³

et al. 2018

Z Gastroenterol

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Jessica Oenarto

Ammonia-induced miRNA expression changes in cultured rat astrocytes

Taurine transporter (TauT) deficiency impairs ammonia detoxification in mouse liver

Expression of organic osmolyte transporters in cultured rat astrocytes and rat and human cerebral cortex

Taurine Transporter Deficiency Induces Hyperammonemia, Oxidative Stress and Senescence in Mouse Liver

Taurine deficiency induces hyperammonemia and oxidative stress and senescence in mouse liver

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