Pi*Z heterozygous alpha-1 antitrypsin states accelerate parenchymal but not biliary cirrhosis.

OBJECTIVE: The degree to which heterozygous forms of alpha-1 antitrypsin (A1AT), principally MZ, causes liver disease is uncertain. If heterozygosity is a relevant cofactor, over-representation in patients with end-stage liver disease would be predicted. We therefore assessed the prevalence and disease-related distribution of A1AT heterozygosity in the largest cohort to date for this purpose. METHODS: We retrospectively analysed 1036 patients assessed for liver transplantation at our unit between 2003 and 2010. A1AT heterozygotes were identified on the basis of isoelectric focusing and/or histology, showing A1AT globule deposition consistent with an abnormal phenotype. RESULTS: Z-allele frequency was the highest in patients with nonalcoholic steatohepatitis (NASH) cirrhosis (20.3%), followed by patients with 'other parenchymal' diseases (11.9%), alcohol-related liver disease (9.9%), autoimmune disease (8.6%), hepatitis C (6.1%), hepatitis B (3.0%) and biliary disease (1.9%). Compared with the heterozygote frequency in the general European population of 9.0%, the heterozygote frequency was significantly higher among patients with NASH cirrhosis (P≤0.0001) and lower in the biliary subgroup (P=0.004). The prevalence of MZ heterozygosity was significantly increased in cirrhosis because of both alcohol (9.9%) and NASH (17.3%) compared with the general European population (2.8%; P<0.0001). CONCLUSION: Accumulation of misfolded A1AT aggregates appears to accelerate progression, in which the hepatocyte is the key injured cell. Heterozygous A1AT states worsen prognosis, particularly in NASH and alcohol-related cirrhosis, and should be identified at presentation. In cases in which genetic screening is not readily available, a low threshold for isoelectric focusing and routine specific histochemical staining of liver biopsy specimens are warranted to identify these patients.