Indolicidin (IL) is a cationic antimicrobial peptide with broad-spectrum against many kinds of pathogens; however, the cytotoxicity of IL limits its clinical application. Nine IL analogues with lower hemolysis or cytotoxicity have been designed by engineering the critical amino acids for IL biological action. In this study, the structure-function relationships of IL and its analogues were discussed to provide important implications on antimicrobial IL analogues design. The effects of hydrophobicity, electropositivity, hydrophobic moment of peptides on their biological activities, including antibacterial activity, normal cell toxicity, hemolytic activity, and antitumor cell activity, were examined. Furthermore, transmembranes of peptides were also monitored by the confocal microscopy analysis via image the localization of FITC-conjugated peptides, and quantified through the FITC fluorescence. IL has effective antibacterial and antitumor activities, but it is harmful to human erythrocytes. In conji.;jltrast, IL-K7F89 and IL-R57F89 peptides exhibit not only high antibacterial and antitumor activities but also lower cytotoxicity and hemolytic activity. These two peptides are potential antimicrobial peptides for clinical use. Furthermore, we observed that the hydrophobicity based on interface scale is well correlated to the hemolytic activity rather than water-octanol scale and hydrophobic moment. Apparently, the biological action of IL and its analogues are trickier. Moreover, we found free IL peptide can facilitate FITC into NIH-3T3 cells but IL-R57F89 doesn’t, indicating that IL peptide could make the membrane perturbation, pore forming or membrane local disruption, to transport the FITC into cell. On the other hand, we conjugated the FITC to IL peptide and potential antimicrobial peptide candidate, IL-R57F89 peptide, through the thiourethane linking. We observed that IL and IL-R57F89 peptides could enter the cell via direct transmembrane and endocytosis. Consequently, we suggested that IL-R57F89 peptide has the dual-functional biological actions: one is a lower cytotoxicity cationic antimicrobial peptide; another is a cell penetrating peptide for transporting the small molecule into cell.