Inhibition of nitric oxide synthesis during induced cholestasis ameliorates hepatocellular injury by facilitating S-nitrosothiol homeostasis

López‐Sánchez, Laura M.; Corrales, Fernando J.; Barcos, Montserrat; Espejo, Isabel; Muñoz‐Castañeda, Juan R.; Rodríguez‐Ariza, Antonio

doi:10.1038/labinvest.2009.104

Cited by 23 publications

(24 citation statements)

References 49 publications

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“…We have previously shown that NOS-2 overexpression in the BDL group is associated with the hepatocellular injury [15]. According to the results of the present study, the adverse effects exerted by NO during cholestatic injury might be due to both the increase in NOS-2 and the reduction in NOS-3 expression.…”

Section: Discussionsupporting

confidence: 80%

“…This result is not surprising since the hepatic cholestasis was associated with tissue fibrosis [15], and liver fibrosis has been previously linked to changes in the expression of commonly used loading control proteins [42,43]. We have previously shown that NOS-2 overexpression in the BDL group is associated with the hepatocellular injury [15].…”

Section: Discussionmentioning

confidence: 78%

“…Animals were randomized into two groups: Sham operated control group (SO group, n = 13) and bile duct ligation group (BDL group, n = 13). Surgical procedure and sample collection were carried out as we described before [15]. Briefly, 13 animals in each group were killed 7 days after surgery under sevofluorane anaesthesia.…”

Section: Experimental Animal Model Of Cholestasismentioning

confidence: 99%

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GCDCA down-regulates gene expression by increasing Sp1 binding to the NOS-3 promoter in an oxidative stress dependent manner

González-Rubio

López‐Sánchez

Muñoz‐Castañeda

et al. 2015

Biochemical Pharmacology

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Section: Discussionsupporting

confidence: 80%

Section: Discussionmentioning

confidence: 78%

Section: Experimental Animal Model Of Cholestasismentioning

confidence: 99%

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GCDCA down-regulates gene expression by increasing Sp1 binding to the NOS-3 promoter in an oxidative stress dependent manner

González-Rubio

López‐Sánchez

Muñoz‐Castañeda

et al. 2015

Biochemical Pharmacology

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“…The excessive generation of NO has been observed both in experimental cholestasis [34,35] and in primary biliary cirrhosis patients [36,37]. Renal impairment occurs in cirrhotic patients with a high concentration of NO in the plasma and ascitic fluid.…”

Section: Discussionmentioning

confidence: 99%

The effect of albumin administration on renal dysfunction after experimental surgical obstructive jaundice in male rats

Saad

Fathelbab

El-Saba

et al. 2016

Journal of Taibah University for Science

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The aim was to study the influence of albumin supplementation on the changes of the kidney function and structure in cirrhotic rats induced by common bile duct ligation (BDL). Twenty-four male albino rats weighing 200-250 g were divided into Group I: 6 rats underwent laparotomy alone, and the bile duct was only dissected from the surrounding tissue; Group II: 6 rats underwent a sham operation and received 2% albumin in their drinking water; Group III: 6 rats were subjected to bile duct ligation only; and Group IV: 6 rats were subjected to bile duct ligation and received a daily albumin 2% in drinking water. All rats were sacrificed after 4 weeks. We measured the liver and kidney functions and oxidative stress markers in the renal tissue and conducted a histological evaluation of the liver and kidney. The liver enzymes were decreased, but there was no significant difference in the bilirubin levels in group IV compared to group III. There was a significant elevation of serum creatinine in group III compared to group II, and serum creatinine was attenuated in group IV. The renal tissue catalase activity and reduced glutathione, as well as the nitric oxide levels, were significantly increased in group IV and were elevated in group III. Histologically, the livers of group IV showed degeneration and inflammatory cell infiltration with regeneration areas in which normal hepatocytes appeared. The kidneys of group IV showed recovery as well as areas of inflammatory cell infiltration. Some tubules appeared with normal epithelial lining. In conclusion, the results suggest that albumin partially improves the renal functions and structures after their disturbances as a result of BDL.

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“…It has also been shown that overall Snitrosylation levels increase in NO donor-treated hepatic stellate cells (29). Recent work has shown that inhibition of nitric oxide synthesis during induced cholestasis can ameliorate hepatocellular injury by facilitating S-nitrosothiol homeostasis (23). Despite these findings, very little work has been done investigating a role for S-nitrosylation in the regulation of hepatic transporters.…”

mentioning

confidence: 99%

Nitric oxide-mediated inhibition of taurocholate uptake involvesS-nitrosylation of NTCP

Schonhoff

Ramasamy

Anwer

2011

American Journal of Physiology-Gastrointestinal and Liver Physi

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The sodium-taurocholate (TC) cotransporting polypeptide (NTCP) facilitates bile formation by mediating sinusoidal Na ϩ -TC cotransport. During sepsis-induced cholestasis, there is a decrease in NTCPdependent uptake of bile acids and an increase in nitric oxide (NO) levels in hepatocytes. In rat hepatocytes NO inhibits Na ϩ -dependent uptake of taurocholate. The aim of this study was to extend these findings to human NTCP and to further investigate the mechanism by which NO inhibits TC uptake. Using a human hepatoma cell line stably expressing NTCP (HuH-NTCP), we performed experiments with the NO donors sodium nitroprusside and S-nitrosocysteine and demonstrated that NO inhibits TC uptake in these cells. Kinetic analyses revealed that NO significantly decreased the V max but not the K m of TC uptake by NTCP, indicating noncompetitive inhibition. NO decreased the amount of NTCP in the plasma membrane, providing a molecular mechanism for the noncompetitive inhibition of TC uptake. One way that NO can modify protein function is through a posttranslational modification known as S-nitrosylation: the binding of NO to cysteine thiols. Using a biotin switch technique we observed that NTCP is S-nitrosylated under conditions in which NO inhibits TC uptake. Moreover, dithiothreitol reversed NO-mediated inhibition of TC uptake and S-nitrosylation of NTCP, indicating that NO inhibits TC uptake via modification of cysteine thiols. In addition, NO treatment led to a decrease in Ntcp phosphorylation. Taken together these results indicate that the inhibition of TC uptake by NO involves S-nitrosylation of NTCP. sodium-taurocholate cotransporting polypeptide TRANSPORT OF SOLUTES FROM the sinusoidal space to the canaliculus provides the driving force for bile formation (1). Bile formation, in turn, depends on the proper functioning of a number of hepatobiliary transporters present on the hepatic sinusoidal (basolateral) and canalicular (apical) membranes. NTCP, present at the basolateral membrane of hepatocytes, mediates the transport of conjugated bile salts such as taurocholate (TC) and taurochenodeoxycholate in a Na ϩ -dependent fashion using the sodium gradient produced by the Na , 13, 19, 39). Lipopolysaccharide (LPS)-induced cholestasis is associated with a decrease in TC uptake and an increase in proinflammatory cytokines such as tumor necrosis factor (TNF), interleukin-6 (IL-6), and interleukin-1␤ (IL-1␤) (6,11,19). At the same time, LPS also initiates a burst of NO production by inducible nitric oxide synthase in all major cell types of the liver (11).The roles for NO in the liver are diverse and varied. NO plays important roles in regulating hepatic blood flow including portal hypertension (11). NO has both proapoptotic and antiapoptotic actions in the liver (31). Additionally, NO plays important roles in alcoholic liver disease and ischemia/reperfusion injury (31). NO has also been implicated in regulating bile formation. Whereas lower levels of NO have been linked to increased bile flow, higher levels of NO are associate...

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Inhibition of nitric oxide synthesis during induced cholestasis ameliorates hepatocellular injury by facilitating S-nitrosothiol homeostasis

Cited by 23 publications

References 49 publications

GCDCA down-regulates gene expression by increasing Sp1 binding to the NOS-3 promoter in an oxidative stress dependent manner

GCDCA down-regulates gene expression by increasing Sp1 binding to the NOS-3 promoter in an oxidative stress dependent manner

The effect of albumin administration on renal dysfunction after experimental surgical obstructive jaundice in male rats

Nitric oxide-mediated inhibition of taurocholate uptake involvesS-nitrosylation of NTCP

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