The in vivo modulatory effects of Cornus mas extract on photodynamic therapy in experimental tumors

Synergic anti-tumor effects of photodynamic therapy and resveratrol on triple-negative breast cancer cells

INTRODUCTION

Breast cancer is a widespread type of cancer found across the world. The use of chemotherapy in breast cancer treatment may result in side effects and the emergence of drug resistance. Hence, seeking new and efficient therapies that reduce adverse reactions is imperative. Recently, combination therapy has emerged as a fresh and innovative strategy in contrast to conventional treatment methods. Photodynamic therapy (PDT) serves as a highly effective and minimally invasive technique for addressing breast cancer, providing the option to be utilized either concurrently or in conjunction with other therapeutic approaches. Resveratrol (RES) is a polyphenol found in several food sources. Research has demonstrated that RES can inhibit cell proliferation and metastasis and trigger apoptosis in tumor cells. This research aimed to assess the impact of combining RES and photodynamic therapy on MDA-MB-231 breast cancer cells.

METHODS

MDA-MB-231 cells were grown in culture and subsequently exposed to different methylene blue (MB) doses while subjected to laser irradiation (PDT). Following this treatment, the cells were exposed to different RES concentrations. Cell viability was assessed utilizing the MTT assay. Light and fluorescence microscopy (AO/EB staining) were employed to observe cell morphological alterations following exposure to RES and MB-PDT. Additionally, flow cytometry was utilized to investigate cell cycle progression and apoptosis induction.

RESULTS

The findings indicated that the co-administration of MB-PDT and RES resulted in increased cytotoxic effects on MDA-MB-231 breast cancer cells compared to the individual application of either treatment.

DISCUSSION

The results of this study suggest that MB-PDT can reduce the dose and time of RES treatment and, therefore, can be indicated as a new approach for treating breast cancer cells.

Can Nanoparticles in Homeopathic Remedies Enhance Phototherapy of Cancer? A Hypothetical Model

The continuous rise in cancer incidence places a massive burden on the health sector to increase efforts in the fight against cancer. As a holistic complementary medicine modality, homeopathy has the potential to assist in the supportive and palliative treatment of cancer patients. Recent empirical studies demonstrate the presence of silica and original source nanoparticles in ultra-high dilutions of several homeopathic medicines. Recent studies have also demonstrated the efficacy of phototherapy in inducing the ablation of cancer cells through laser-activated nanoparticle photosensitizers. A new hypothetical research model is presented herein, in an attempt to investigate and compare the phototherapeutic effects of homeopathic source nanoparticles with photosensitizing nanoparticle agents that have previously been tested.

Combined photodynamic therapy with chloroaluminum phthalocyanine and doxorubicin nanoemulsions in breast cancer model

Breast cancer is the most common neoplasm among women but thanks to innovative therapies, patients' prognosis has considerably improved. In this aspect, nanotechnology has been applied for cancer therapy aiming to reduce its usual side effects. In this study we aimed to evaluate the effects of nanoemulsions containing photosensitizer and chemotherapeutic agents associated with photodynamic therapy in a breast cancer in vivo model. Our results showed that synergistic treatments in which chloroaluminum phthalocyanine (NE-Pc) administered together with Doxorubicin (Dox) in the presence of laser irradiation (NE-PcDoxo + PDT) led to a reduction of 4 T1 induced breast cancer in mice, decline of tumor VEGF expression, increase in Caspase-3 expression, tissue necrosis and massive decrease in proliferative cells, as shown by Ki67 immunostaining. Furthermore, this associated treatment induced overexpression of apoptotic genes ABL1, CD70, CRADD, FASL, and NME5 and a reduction in expression of anticancer drug target genes CDK2, ERBB2, FIGF, IGF2, PARP4 and PGR. These results validate this treatment as a promising alternative to improve the currently applied anticancer strategies.

Exploring the Applications of the Photoprotective Properties of Anthocyanins in Biological Systems

Due to their physical and chemical characteristics, anthocyanins are amongst the most versatile groups of natural compounds. Such unique signature makes these compounds a focus in several different areas of research. Anthocyanins have well been reported as bioactive compounds in a myriad of health disorders such as cardiovascular diseases, cancer, and obesity, among others, due to their anti-inflammatory, antioxidant, anti-diabetic, anti-bacterial, and anti-proliferative capacities. Such a vast number of action mechanisms may be also due to the number of structurally different anthocyanins plus their related derivatives. In this review, we highlight the recent advances on the potential use of anthocyanins in biological systems with particular focus on their photoprotective properties. Topics such as skin aging and eye degenerative diseases, highly influenced by light, and the action of anthocyanins against such damages will be discussed. Photodynamic Therapy and the potential role of anthocyanins as novel photosensitizers will be also a central theme of this review.