Laia Chavarria scite author profile

Background & Aims: Endothelial dysfunction plays an essential role in liver injury, yet the phenotypic regulation of liver sinusoidal endothelial cells (LSECs) remains unknown. Autophagy is an endogenous protective system whose loss could undermine LSEC integrity and phenotype. The aim of our study was to investigate the role of autophagy in the regulation of endothelial dysfunction and the impact of its manipulation during liver injury. Methods: We analyzed primary isolated LSECs from Atg7control and Atg7endo mice as well as rats after CCl4 induced liver injury. Liver tissue and primary isolated stellate cells were used to analyze liver fibrosis. Autophagy flux, microvascular function, nitric oxide bioavailability, cellular superoxide content and the antioxidant response were evaluated in endothelial cells. Results: Autophagy maintains LSEC homeostasis and is rapidly upregulated during capillarization in vitro and in vivo. Pharma-cological and genetic downregulation of endothelial autophagy increases oxidative stress in vitro. During liver injury in vivo, the selective loss of endothelial autophagy leads to cellular dysfunction and reduced intrahepatic nitric oxide. The loss of autophagy also impairs LSECs ability to handle oxidative stress and aggravates fibrosis. Conclusions: Autophagy contributes to maintaining endothelial phenotype and protecting LSECs from oxidative stress during early phases of liver disease. Selectively potentiating autophagy in LSECs during early stages of liver disease may be an attractive approach to modify the disease course and prevent fibrosis progression. Lay summary: Liver endothelial cells are the first liver cell type affected after any kind of liver injury. The loss of their unique phenotype during injury amplifies liver damage by orchestrating the response of the liver microenvironment. Autophagy is a mechanism involved in the regulation of this initial response and its manipulation can modify the progression of liver damage.

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Hepatic encephalopathy is associated with posttransplant cognitive function and brain volume

García-Martinez

et al. 2011

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Hepatic encephalopathy (HE) is a common complication of cirrhosis that is associated with brain atrophy and may participate in impaired cognitive function after liver transplantation. This study analyzes the relationship of HE with cognitive function and brain volume after transplantation. A total of 52 consecutive patients with cirrhosis (24 alcohol abuse, 24 prior HE, 14 diabetes mellitus) completed a neuropsychological assessment before liver transplantation and again, 6 to 12 months after transplantation. In 24 patients who underwent the posttransplant assessment, magnetic resonance imaging was performed in addition, with measurement of brain volume and relative concentration of N-acetylaspartate (NAA) and creatine/ phosphocreatine (Cr), a neuronal marker, by magnetic resonance spectroscopy. Neuropsychological assessment prior to transplantation identified minimal HE in 28 patients. All cognitive indexes improved after liver transplantation, but 7 patients (13%) showed persistent mild cognitive impairment. Global cognitive function after transplantation was poorer in patients with the following variables before liver transplantation: alcohol etiology, diabetes mellitus, and HE. Brain volume after transplantation was smaller in patients with prior HE. Brain volume correlated to NAA/Cr values (r ¼ 0.498, P ¼ 0.013) and poor motor function (r ¼ 0.41, P ¼ 0.049). In conclusion, the association of HE with cognitive function and brain volume suggests that having experienced HE before liver transplantation impairs the posttransplantation neurological outcome. Liver Liver transplant candidates often exhibit cognitive disturbances, which are related to the effects of liver failure, the etiology of liver disease (eg, alcoholism), complications of cirrhosis (eg, hyponatremia), and extrahepatic comorbidities (eg, cerebrovascular disease). 1 The most common cause of cognitive impairment appears to be minimal hepatic encephalopathy (HE), which is secondary to liver failure and shares the same pathogenic mechanism as overt HE. Liver transplantation (LT) restores liver function and results in an improvement of minimal HE. 2 However, it is unclear whether minimal HE is fully reversible or

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Laia Chavarria

Impaired endothelial autophagy promotes liver fibrosis by aggravating the oxidative stress response during acute liver injury

Hepatic encephalopathy is associated with posttransplant cognitive function and brain volume

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