An approach for the intracellular delivery of IgG via enzymatic ligation with a cell-permeable attenuated cationic amphiphilic lytic peptide

Achieving effective intracellular delivery of therapeutic molecules such as antibodies (IgG) is a challenge in biomedical research and pharmaceutical development. Conjugation of IgG with a cell-penetrating peptide is a rational approach. Here, not only the efficacy of the conjugates in internalizing into cells, but also the physicochemical property of the conjugates allowing their solubilized states in solution without forming aggregates are critical. In this study, we have shown that the first requirement can be addressed using a cell-permeable attenuated cationic amphiphilic lytic (CP-ACAL) peptide, L17ER4. The second requirement can be addressed by ligation of IgG to L17ER4 using sortase A, where the use of a linker of appropriate chain length is also important. For evaluation, the intracellular delivery efficacy was studied using conjugate structures with different orientations and conjugation modes of L17ER4 in ligation to a model protein, green fluorescent protein fused to a nuclear localization signal (NLS-EGFP). The effect of tetraarginine positioning in the L17ER4 sequence was also investigated. Following these studies, an optimized peptide sequence containing L17ER4 was ligated to an anti-green fluorescent protein (GFP) IgG bearing a sortase A recognition sequence. Treatment of the cells with the conjugate of anti-GFP IgG and L17ER4 resulted in a high efficiency of cytosolic translocation of the conjugate and the binding to the target protein in the cell without significant aggregate formation. The feasibility of the Dform of L17ER4 as a CP-ACAL was also confirmed.