Structural Factors and Mechanisms Underlying the Improved Photodynamic Cell Killing with Silicon Phthalocyanine Photosensitizers Directed to Lysosomes Versus Mitochondria

The phthalocyanine photosensitizer Pc 4 has been shown to bind preferentially to mitochondrial and endoplasmic reticulum membranes. Upon photoirradiation of Pc 4‐loaded cells, membrane components, especially Bcl‐2, are photodamaged and apoptosis, as indicated by activation of caspase‐3 and cleavage of poly(ADP‐ribose) polymerase, is triggered. A series of analogs of Pc 4 were synthesized, and the results demonstrate that Pcs with the aminopropylsiloxy ligand of Pc 4 or a similar one on one side of the Pc ring and a second large axial ligand on the other side of the ring have unexpected properties, including enhanced cell uptake, greater monomerization resulting in greater intracellular fluorescence and three‐fold higher affinity constants for liposomes. The hydroxyl‐bearing axial ligands tend to reduce aggregation of the Pc and direct it to lysosomes, resulting in four to six times more killing of cells, as defined by loss of clonogenicity, than with Pc 4. Whereas Pc 4‐PDT photodamages Bcl‐2 and Bcl‐xL, Pc 181‐PDT causes much less photodamage to Bcl‐2 over the same dose–response range relative to cell killing, with earlier cleavage of Bid and slower caspase‐3‐dependent apoptosis. Therefore, within this series of photosensitizers, these hydroxyl‐bearing axial ligands are less aggregated than is Pc 4, tend to localize to lysosomes and are more effective in overall cell killing than is Pc 4, but induce apoptosis more slowly and by a modified pathway.