Background: Arrhythmogenic right ventricular dysplasia（ARVD）is an inherited cardiomyopathy characterized by progressive myocardial loss with fibrofatty replacement. Identification of causative mutations in plakoglobin(JUP), desmoplakin (DSP), plakophilin-2 (PKP2) , desmoglein-2 (DSG2)and desmocollin-2(DSC2) genes laeds to the hypothesis that ARVC is due to desmosomal defects. Three novel ARVD related DSG2 missense mutations were found in Taiwanese patients. Functional studies were performed to establish a causal relationship between DSG2 missense mutations and ARVD. Methods and Results: We studied the trafficking and assembly properties of three novel DSG2 mutations identified in patients with ARVD in Taiwan: Asn330Asp, Phe531Cys and Glu713Lys. DSG2 gene was cloned into pEGFP-N2 vector, which expressed a green fluorescent protein (GFP) fusion protein. The vector was transfected to desmosome-forming cell line: HEK293T or PC-3 cells. Confocal microscopic studies showed that all these mutants are trafficking competent. In order to investigate the effects of these mutations on the interactions between DSG2 and other desmosomal proteins, co-immunoprecipitation assay was performed. No changes were observed in the immunoprecipitation of DSC2/3 and DSG2; PKP2 was found to be immunoprecipitated by wild type and three mutant DSG2, the interactions between mutant DSGs and PKP2 are not different from that between wild type DSGs and PKP2; JUP was also found to be immunoprecipitated by wild type and three mutant DSG2, while the interactions between JUP and Glu713Lys mutant form decreased significantly. Conclusions: Three DSG2 mutations identified in patients with ARVD in Taiwan: Asn330Asp, Phe531Cys and Glu713Lys are all trafficking competent, while the interactions between JUP and Glu713Lys mutant form are much weaker. This may affect the adhesive capacity of desmosomes and finally results in ARVD.