Abstract
In the context of the high incidence of cancer worldwide, state-of-the-art photodynamic therapy (PDT) has entered as a usual protocol of attempting to eradicate cancer as a minimally invasive procedure, along with pharmacological resources and radiation therapy. The photosensitizer (PS) excited at certain wavelengths of the applied light source, in the presence of oxygen releases several free radicals and various oxidation products with high cytotoxic potential, which will lead to cell death in irradiated cancerous tissues. Current research focuses on the potential of natural products as a superior generation of photosensitizers, which through the latest nanotechnologies target tumors better, are less toxic to neighboring tissues, but at the same time, have improved light absorption for the more aggressive and widespread forms of cancer. Curcumin incorporated into nanotechnologies has a higher intracellular absorption, a higher targeting rate, increased toxicity to tumor cells, accelerates the activity of caspases and DNA cleavage, decreases the mitochondrial activity of cancer cells, decreases their viability and proliferation, decreases angiogenesis, and finally induces apoptosis. It reduces the size of the primary tumor, reverses multidrug resistance in chemotherapy and decreases resistance to radiation therapy in neoplasms. Current research has shown that the use of PDT and nanoformulations of curcumin has a modulating effect on ROS generation, so light or laser irradiation will lead to excessive ROS growth, while nanocurcumin will reduce the activation of ROS-producing enzymes or will determine the quick removal of ROS, seemingly opposite but synergistic phenomena by inducing neoplasm apoptosis, but at the same time, accelerating the repair of nearby tissue. The latest curcumin nanoformulations have a huge potential to optimize PDT, to overcome major side effects, resistance to chemotherapy, relapses and metastases. All the studies reviewed and presented revealed great potential for the applicability of nanoformulations of curcumin and PDT in cancer therapy.
Highlights
In an in vitro study, Halevas et al reported that the gallium curcumin complex used as a photosensitizer in photodynamic therapy on human breast MCF-7 adenocarcinoma cells, increased intracellular reactive oxygen species (ROS) levels, and significantly decreased the number of cancer cells compared to simple curcumin
Woźniak et al demonstrated a significant improvement in the bioavailability and stability of encapsulated liposomal curcumin as a potent apoptotic photosensitizer in squamous cell carcinoma (SCC-25) and melanoma (MugMel2); at the same time, low phototoxicity was observed in normal cutaneous keratinocyte HaCaT cells after photodynamic therapy (PDT) treatment [162]
The provision of new drugs and scientific treatment methods based on natural products is part of the research conducted by the group led by de Freitas et al, who studied in vitro effects on Caco-2 intestinal cancer cells treated with curcumin-conjugated silver nanoparticles (CUR-AgNPs) and PDT
Summary
The first goal of this review was to present discuss the latest nanotechnologies in relation to curcumin as photosensitizer (PS) toand optimize photodynamic therapy (PDT),in relation to curcumin as photosensitizer (PS). To optimize photodynamic therapy (PDT), to to overcome major side effects, resistance to chemotherapy, relapses and metastases. The second objective was to reveal the of the art of photodynamic therapy as field of continuous effervescent research andstate medical applications in direct connection a field of continuous effervescent with nanoformulations of curcumin.research and medical applications in direct connection withThe nanoformulations curcumin. The fourth goal was to push forward the field of study of natural photosensitizers, The curcuminfourth goaland wasPDT-related to push forward the field of providing study of natural photosensitizespecially nanotechnologies, an up-to-date highers, especially and PDT-related nanotechnologies, providing up-to-date quality evidencecurcuminbase for researchers and scientists to accelerate and rethinkan new experihigh-quality evidenceinbase for researchers and scientists to accelerate and rethink new ments and innovations cancer.
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