UNLABELLED: Primary biliary cirrhosis (PBC) is a chronic cholestatic liver disorder that can progress to cirrhosis, shortening life expectancy. PBC patients are often asymptomatic, present with biochemical cholestasis, and test positive (>or=90%) for antimitochondrial antibodies (AMAs) in serum. Although AMA positivity without biochemical cholestasis may indicate increased risk of future PBC development, the contribution of these antibodies to pathogenesis remains enigmatic. Environmental risks and genetic determinants are likely implicated in PBC etiology. Given the familial aggregation of PBC, we hypothesized that AMAs also aggregate among relatives of PBC probands. We investigated the prevalence of AMAs in first-degree relatives (FDRs) of PBC probands to examine whether AMAs aggregate in such pedigrees. Using a PBC family registry, we prospectively screened for AMAs in the serum of 306 FDRs in 145 pedigrees, 350 PBC probands, and 196 controls who were age-matched, sex-matched, race-matched, and residence-matched to probands. The prevalence of AMA in FDRs and controls was 13.1% and 1%, respectively. Greater prevalence of AMA was found in female FDRs of PBC probands [sisters (20.7%), mothers (15.1%), and daughters (9.8%)] than in male FDRs [brothers (7.8%), fathers (3.7%), and sons (0%)]. CONCLUSIONS: AMAs aggregate among FDRs of PBC probands. Our data have clinical implications for FDRs of PBC probands because AMA positivity may suggest susceptibility to PBC. Thus, the identification and follow-up of these relatives may lead to earlier disease diagnosis and treatment. Furthermore, if AMA development is heritable, this trait will provide a basis to dissect the genetic predisposition to PBC.
UNLABELLED: Primary biliary cirrhosis (PBC) is a chronic cholestatic liver disorder that can progress to cirrhosis, shortening life expectancy. PBC patients are often asymptomatic, present with biochemical cholestasis, and test positive (>or=90%) for antimitochondrial antibodies (AMAs) in serum. Although AMA positivity without biochemical cholestasis may indicate increased risk of future PBC development, the contribution of these antibodies to pathogenesis remains enigmatic. Environmental risks and genetic determinants are likely implicated in PBC etiology. Given the familial aggregation of PBC, we hypothesized that AMAs also aggregate among relatives of PBC probands. We investigated the prevalence of AMAs in first-degree relatives (FDRs) of PBC probands to examine whether AMAs aggregate in such pedigrees. Using a PBC family registry, we prospectively screened for AMAs in the serum of 306 FDRs in 145 pedigrees, 350 PBC probands, and 196 controls who were age-matched, sex-matched, race-matched, and residence-matched to probands. The prevalence of AMA in FDRs and controls was 13.1% and 1%, respectively. Greater prevalence of AMA was found in female FDRs of PBC probands [sisters (20.7%), mothers (15.1%), and daughters (9.8%)] than in male FDRs [brothers (7.8%), fathers (3.7%), and sons (0%)]. CONCLUSIONS: AMAs aggregate among FDRs of PBC probands. Our data have clinical implications for FDRs of PBC probands because AMA positivity may suggest susceptibility to PBC. Thus, the identification and follow-up of these relatives may lead to earlier disease diagnosis and treatment. Furthermore, if AMA development is heritable, this trait will provide a basis to dissect the genetic predisposition to PBC.
Authors: Brian D Juran; Gideon M Hirschfield; Pietro Invernizzi; Elizabeth J Atkinson; Yafang Li; Gang Xie; Roman Kosoy; Michael Ransom; Ye Sun; Ilaria Bianchi; Erik M Schlicht; Ana Lleo; Catalina Coltescu; Francesca Bernuzzi; Mauro Podda; Craig Lammert; Russell Shigeta; Landon L Chan; Tobias Balschun; Maurizio Marconi; Daniele Cusi; E Jenny Heathcote; Andrew L Mason; Robert P Myers; Piotr Milkiewicz; Joseph A Odin; Velimir A Luketic; Bruce R Bacon; Henry C Bodenheimer; Valentina Liakina; Catherine Vincent; Cynthia Levy; Andre Franke; Peter K Gregersen; Fabrizio Bossa; M Eric Gershwin; Mariza deAndrade; Christopher I Amos; Konstantinos N Lazaridis; Michael F Seldin; Katherine A Siminovitch Journal: Hum Mol Genet Date: 2012-08-29 Impact factor: 6.150
Authors: Jinjun Wang; Guoxiang Yang; Alana Mari Dubrovsky; Jinjung Choi; Patrick S C Leung Journal: World J Gastroenterol Date: 2016-01-07 Impact factor: 5.742
Authors: Craig Lammert; Douglas L Nguyen; Brian D Juran; Erik Schlicht; Joseph J Larson; Elizabeth J Atkinson; Konstantinos N Lazaridis Journal: Dig Liver Dis Date: 2013-03-11 Impact factor: 4.088
Authors: Brian D Juran; Elizabeth J Atkinson; Joseph J Larson; Erik M Schlicht; Konstantinos N Lazaridis Journal: Am J Gastroenterol Date: 2009-04-21 Impact factor: 10.864