BACKGROUND/AIMS: Alcohol abuse may lead to microvesicular steatosis, a lesion ascribed to impaired mitochondrial function. Because alcohol abuse leads to reactive oxygen species in the hepatic mitochondria, it may damage mitochondrial DNA. The aim of this study was to look for the presence of the "common" 4977-base pair deletion in the hepatic mitochondrial DNA of alcoholic patients and age-matched, nonalcoholic controls. METHODS: Hepatic DNA was subjected to two polymerase chain reactions that amplified non-deleted and deleted mitochondrial DNA, respectively. RESULTS: The deletion was found in 6 of 10 alcoholics with microvesicular steatosis, 2 of 17 alcoholic patients with macrovacuolar steatosis, but in none of 12 patients with acute alcoholic hepatitis, 11 patients with alcoholic cirrhosis, or 62 nonalcoholic patients of comparable ages with various other liver diseases or normal liver histology. In all patients with the deletion, restriction fragments of deleted mitochondrial DNA co-migrated with those of reference Pearson bone marrow-pancreas syndrome patients with the common mitochondrial DNA deletion. CONCLUSIONS: The common deletion is frequent in the hepatic DNA of alcoholic patients with microvesicular steatosis. Alcohol-induced mitochondrial DNA damage may contribute to the occurrence of this lesion in some alcoholics.
BACKGROUND/AIMS: Alcohol abuse may lead to microvesicular steatosis, a lesion ascribed to impaired mitochondrial function. Because alcohol abuse leads to reactive oxygen species in the hepatic mitochondria, it may damage mitochondrial DNA. The aim of this study was to look for the presence of the "common" 4977-base pair deletion in the hepatic mitochondrial DNA of alcoholicpatients and age-matched, nonalcoholic controls. METHODS: Hepatic DNA was subjected to two polymerase chain reactions that amplified non-deleted and deleted mitochondrial DNA, respectively. RESULTS: The deletion was found in 6 of 10 alcoholics with microvesicular steatosis, 2 of 17 alcoholicpatients with macrovacuolar steatosis, but in none of 12 patients with acute alcoholic hepatitis, 11 patients with alcoholic cirrhosis, or 62 nonalcoholic patients of comparable ages with various other liver diseases or normal liver histology. In all patients with the deletion, restriction fragments of deleted mitochondrial DNA co-migrated with those of reference Pearson bone marrow-pancreas syndromepatients with the common mitochondrial DNA deletion. CONCLUSIONS: The common deletion is frequent in the hepatic DNA of alcoholicpatients with microvesicular steatosis. Alcohol-induced mitochondrial DNA damage may contribute to the occurrence of this lesion in some alcoholics.
Authors: Alan Cahill; Carol C Cunningham; Masayuki Adachi; Hiromasa Ishii; Shannon M Bailey; Bernard Fromenty; Adrian Davies Journal: Alcohol Clin Exp Res Date: 2002-06 Impact factor: 3.455
Authors: Harini Sampath; Ayesha K Batra; Vladimir Vartanian; J Russ Carmical; Deborah Prusak; Irena B King; Brian Lowell; Lauriel F Earley; Thomas G Wood; Daniel L Marks; Amanda K McCullough; Lloyd R Stephen Journal: Am J Physiol Endocrinol Metab Date: 2011-02-01 Impact factor: 4.310
Authors: Krisstonia Spruiell; Ricardo M Richardson; John M Cullen; Emmanuel M Awumey; Frank J Gonzalez; Maxwell A Gyamfi Journal: J Biol Chem Date: 2013-12-20 Impact factor: 5.157