Background & Aims
Ischemia and reperfusion injury are common causes of oxidative tissue damage associated with many liver diseases and hepatic surgery. The Wnt–β-catenin signaling pathway is an important regulator of hepatic development, regeneration, and carcinogenesis. However, the role of Wnt signaling in the hepatocellular response to ischemia–reperfusion (I/R) injury has not been determined.
Methods
Hepatic injury following ischemia or I/R was investigated in hepatocyte-specific, β-catenin–deficient mice, as well as Wnt1 overexpressing and wild-type (control) mice.
Results
Wnt–β-catenin signaling was affected by the cellular redox balance in hepatocytes. Following ischemia or I/R, mice with β-catenin–deficient hepatocytes were significantly more susceptible to liver injury. Conversely, mice that overexpressed Wnt1 in hepatocytes were resistant to hepatic I/R injury. Hypoxia inducible factor (HIF)-1α signaling was reduced in β-catenin–deficient liver but increased in hepatocytes that overexpressed Wnt1 under hypoxia and following I/R, indicating an interaction between β-catenin and HIF-1α signaling in the liver. The mechanism by which Wnt signaling protects against liver injury involves β-catenin’s role as a transcriptional co-activator of HIF-1α signaling, which promotes hepatocyte survival under hypoxic conditions.
Conclusion
Cellular redox balance affects Wnt–β-catenin signaling, which protects against hypoxia and I/R injury. These findings might be used to develop strategies for protection of hepatocytes, regeneration of liver, and inhibition of carcinogenesis.
The increased expression of SIRT1 has recently been identified in numerous human tumors and a possible correlation with c-Myc oncogene has been proposed. However, it remains unclear whether SIRT1 functions as an oncogene or tumor suppressor. We sought to elucidate the role of SIRT1 in liver cancer under the influence of c-Myc and to determine the prognostic significance of SIRT1 and c-Myc expression in human hepatocellular carcinoma. The effect of either over-expression or knock down of SIRT1 on cell proliferation and survival was evaluated in both mouse and human liver cancer cells. Nicotinamide, an inhibitor of SIRT1, was also evaluated for its effects on liver tumorigenesis. The prognostic significance of the immunohistochemical detection of SIRT1 and c-Myc was evaluated in 154 hepatocellular carcinoma patients. SIRT1 and c-Myc regulate each other via a positive feedback loop and act synergistically to promote hepatocellular proliferation in both mice and human liver tumor cells. Tumor growth was significantly inhibited by nicotinamide in vivo and in vitro. In human hepatocellular carcinoma, SIRT1 expression positively correlated with c-Myc, Ki67 and p53 expression, as well as high á-fetoprotein level. Moreover, the expression of SIRT1, c-Myc and p53 were independent prognostic indicators of hepatocellular carcinoma. In conclusion, this study demonstrates that SIRT1 expression supports liver tumorigenesis and is closely correlated with oncogenic c-MYC expression. In addition, both SIRT1 and c-Myc may be useful prognostic indicators of hepatocellular carcinoma and SIRT1 targeted therapy may be beneficial in the treatment of hepatocellular carcinoma.
Family with sequence similarity 83, member h (FAM83H) was identified, from a genome-wide search, as having the genetic etiology of human autosomal dominant hypocalcified amelogenesis imperfecta 1 . Thereafter, various mutations of FAM83H have been detected in amelogenesis imperfecta 1-5 and FAM83H-associated amelogenesis imperfecta is reported to be the most prevalent form of amelogenesis imperfecta 3,6 . Therefore, studies on FAM83H have typically been focused on tooth development. However, the cytoplasmic localization of FAM83H protein suggests that FAM83H might be involved in other cellular processes, including tumorigenesis 2, 5 . Increased expression of FAM83H in cancer tissue compared with normal tissue has been presented in recent microarray data 7 . In colorectal cancer, FAM83H contributes to the progression of cancer via regulating keratin cytoskeleton organization [8][9][10] . FAM83H overexpression along with aberrant localization of CK-1α could contribute to the progression of colorectal cancer through keratin cytoskeleton organization 8 . Another study showed that FAM83H could be an important molecule that can cause androgen independent prostate cancer progression 11 .
Background-Keratins 8 and 18 (K8/K18) are important hepatoprotective proteins. Animals expressing K8/K18 mutants exhibit a marked susceptibility to acute/subacute liver injury. K8/K18 variants predispose to human end-stage liver disease and associate with fibrosis progression during chronic hepatitis C infection.
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