Objectives: Our goal was to evaluate intercellular adhesion complex proteins in myocardium in human infarct rupture.
Background: Infarct rupture, a fatal complication of myocardial infarction (MI), has been attributed to a defective cell adhesion complex in a transgenic mouse model.
Methods: Heart samples were collected from autopsies from infarct rupture and control (nonrupture) MI patients. Both infarcted and remote areas were included. Cell adhesion proteins including alphaE-catenin, beta-catenin, gamma-catenin, and N-cadherin were characterized by immunohistochemistry and immunoblotting. Genetic analysis was undertaken to evaluate mutations and polymorphisms in the alphaE-catenin gene. In addition, infarct rupture was studied in transgenic mice heterozygous for alphaE-catenin C-terminal deficiency, mimicking the situation in human infarct rupture patients.
Results: No alphaE-catenin was detected in 70% of remote samples of infarct rupture hearts compared with 20% in control MI by immunohistochemistry. The immunoblot analysis confirmed a significant reduction in remote areas, and complete absence of alphaE-catenin in infarct areas from infarct rupture patients. No mutation or polymorphism of the alphaE-catenin gene was discovered. Other cell adhesion proteins were not significantly affected in remote areas of infarct rupture hearts. Three-fourths of the heterozygous alphaE-catenin C-terminal truncated mice died of infarct rupture, compared with one-fourth of the wild-type littermates.
Conclusions: The data show a reduced expression and defective localization of alphaE-catenin in the intercalated disc region in patients dying of infarct rupture. The mechanism of lower expression of alphaE-catenin remains to be elucidated.