Effects of Silencing Heme Biosynthesis Enzymes on 5‐Aminolevulinic Acid‐mediated Protoporphyrin IX Fluorescence and Photodynamic Therapy

Aminolevulinic acid ( ALA )‐mediated protoporphyrin IX (Pp IX ) production is being explored for tumor fluorescence imaging and photodynamic therapy ( PDT ). As a prodrug, ALA is converted in heme biosynthesis pathway to Pp IX with fluorescent and photosensitizing properties. To better understand the role of heme biosynthesis enzymes in ALA ‐mediated Pp IX fluorescence and PDT efficacy, we used lentiviral sh RNA to silence the expression of porphobilinogen synthase ( PBGS ), porphobilinogen deaminase ( PBGD ) and ferrochelatase ( FECH ) in SkBr3 human breast cancer cells. PBGS and PBGD are the first two cytosolic enzymes involved in Pp IX biosynthesis, and FECH is the enzyme responsible for converting Pp IX to heme. Pp IX fluorescence was examined by flow cytometry and confocal fluorescence microscopy. Cytotoxicity was assessed after ALA ‐mediated PDT . Silencing PBGS or PBGD significantly reduced ALA ‐stimulated Pp IX fluorescence, whereas silencing FECH elevated basal and ALA ‐stimulated Pp IX fluorescence. However, compared with vector control cells, the ratio of ALA ‐stimulated fluorescence to basal fluorescence without ALA was significantly reduced in all knockdown cell lines. PBGS or PBGD knockdown cells exhibited significant resistance to ALA ‐ PDT , while increased sensitivity to ALA ‐ PDT was found in FECH knockdown cells. These results demonstrate the importance of PBGS , PBGD and FECH in ALA ‐mediated Pp IX fluorescence and PDT efficacy.