Tumor hypoxia severely limits the therapeutic efficacy
of solid tumors in photodynamic therapy. One strategy is to develop
photosensitizers with simultaneously high efficiency in photodynamic
(PDT) and photothermal therapies (PTT) in a single natural-origin
phototheranostic agent to overcome this problem. However, less attention
has been paid to the natural-origin phototheranostic agent with high
PDT and PTT efficiencies even though they have negligible side effects
and are environmentally sustainable in comparison with many reported
phototheranostic agents. In addition, almost all clinical applied
photosensitizers are of natural origin so far. Herein, we synthesized
a natural product-based hypocrellin derivative (AETHB), with a high singlet oxygen quantum yield of 0.64 as an efficient
photosensitizer different from commercially available porphyrin-based
photosensitizers. AETHB is further assembled with human
serum albumin to construct nanoparticles (HSA-AETHB NPs) with a high photothermal conversion efficiency (more than 50%).
As-prepared HSA-AETHB NPs have shown good water solubility
and biocompatibility, pH and light stability, wide absorption (400–750
nm), and NIR emission centered at 710 nm. More importantly, HSA-AETHB NPs can be applied for fluorescent/photoacoustic
dual-mode imaging and simultaneously highly efficient PDT/PTT in hypoxic solid tumors.
Therefore, this natural-origin multifunctional phototheranostic agent
is showing very promising for effective, precise, and safe cancer
therapy in clinical applications.
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