We recently found that octaarginine modified liposomes (R8-Lip) can be efficiently internalized by cultured cells. The purpose of the present study was to quantitatively determine the effect of R8-density on the tissue distribution of R8-Lip in mice, using their clearance as an index. R8 was introduced in the form of stearylated R8 (STR-R8). The liposomes were composed of cholesterol and egg phosphatidylcholine and were labeled with [(3)H]cholesteryl hexadecyl ether. Various densities of R8 (3%, 10% and 30%) containing liposomes were prepared with a diameter of approximately 70-80 nm. The tissue distribution of R8-Lip was determined after their i.v. administration into mice and the effect of R8-density on tissue distribution was compared with uptake clearance, the calculated tissue distribution divided by the area under the blood concentration-time course. As results, R8-Lip were more rapidly eliminated from circulating blood and distributed to many tissues, especially liver depending on the R8-density. However, the tissue uptake clearance represented similar value to that of positively charge liposomes. Based on these results, we conclude that the R8-dependent increase in R8-Lip in various tissues tested indicates that positive charge, but not PTD function derived from R8 predominantly responsible for the enhancement of tissue distribution. Therefore, it is suggested that topology control of R8 is important to exhibit the PTD function.