Klebsiella pneumoniae is an important pathogen belonging to the family Enterobacteriacea. It is a common community- and hospital-acquired pathogen, and mainly causes pneumonia, meningitis, urinary tract infection and pyogenic liver abscess. The major virulence factors of K. pneumoniae include capsular, lipopolysaccharide (LPS), adhesion factors, serum-killing resistance and iron acquisition system. Recently, a novel secretion system, called type VI secretion system (T6SS), has been identified in the genome of K. pneumoniae NTHU-K2044 and numerous animal or plant Gram-negative pathogens. Although the mechanism of T6SS remains unclear, T6SS-dependent phenotypes were demonstrated for various pathogens in animal models. In this study, to determine the role of T6SS in K. pneumoniae virulence, I generated single and multiple gene-specific knockout mutants for hcp, vgrG, clpV, and icmF in K. pneumoniae CG43. In the liver abscess mice model, mice which were infected with T6SS mutants showed higher survival rates and displayed lower bacterial burdens in the liver and spleen as compared to mice that were infected with wild type K. pneumoniae. Furthermore, the adherence and cytotoxicity to BNL cells of T6SS mutants was decreased when compared to the wild type strain. Although T6SS might be functional for the display of K. pneumoniae virulence, the detailed mechanism needs further studies to explore.