Molecular Determinants for Photodynamic Therapy Resistance and Improved Photosensitizer Delivery in Glioma
David Aebisher, Paweł Woźnicki, Magdalena Czarnecka-Czapczyńska, Klaudia Dynarowicz, Ewelina Szliszka, Aleksandra Kawczyk-Krupka, Dorota Bartusik-Aebisher

TL;DR
This paper explores why glioma tumors resist photodynamic therapy and suggests ways to improve treatment effectiveness by targeting specific molecules.
Contribution
The study identifies molecular targets and resistance factors for photodynamic therapy in gliomas, offering new directions for improving treatment.
Findings
Molecules like ATP-binding cassette efflux transporter G2 and glutathione may contribute to PDT resistance in glioma cells.
Targets like the epithelial growth factor receptor can improve photosensitizer delivery to glioma cells.
PDT increases molecules like VEGF and glutamate, which may reduce therapy effectiveness.
Abstract
Gliomas account for 24% of all the primary brain and Central Nervous System (CNS) tumors. These tumors are diverse in cellular origin, genetic profile, and morphology but collectively have one of the most dismal prognoses of all cancers. Work is constantly underway to discover a new effective form of glioma therapy. Photodynamic therapy (PDT) may be one of them. It involves the local or systemic application of a photosensitive compound—a photosensitizer (PS)—which accumulates in the affected tissues. Photosensitizer molecules absorb light of the appropriate wavelength, initiating the activation processes leading to the formation of reactive oxygen species and the selective destruction of inappropriate cells. Research focusing on the effective use of PDT in glioma therapy is already underway with promising results. In our work, we provide detailed insights into the molecular changes in…
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Taxonomy
TopicsNanoplatforms for cancer theranostics · Photodynamic Therapy Research Studies · Photoacoustic and Ultrasonic Imaging
