Breast Cancer Inhibition by Biosynthesized Titanium Dioxide Nanoparticles Is Comparable to Free Doxorubicin but Appeared Safer in BALB/c Mice.
Haroon IqbalAnam RazzaqBushra UzairNoor Ul AinShamaila SajjadNorah Ayidh AlthobaitiAishah Eid AlbalawiBouzid MenaaMuhammad HaroonMuslim KhanNaveed Ullah KhanFarid MenaaPublished in: Materials (Basel, Switzerland) (2021)
Cancer remains a global health burden prompting affordable, target-oriented, and safe chemotherapeutic agents to reduce its incidence rate worldwide. In this study, a rapid, cost-effective, and green synthesis of titanium dioxide (TiO2) nanoparticles (NPs) has been carried out; Ex vivo and in vivoevaluation of their safety and anti-tumor efficacy compared to doxorubicin (DOX), a highly efficient breast anti-cancer agent but limited by severe cardiotoxicity in many patients.Thereby,TiO2 NPs were eco-friendly synthetized using aqueous leaf extract of the tropical medicinal shrub Zanthoxylum armatum as a reducing agent. Butanol was used as a unique template. TiO2 NPs were physically characterized by ultraviolet-visible (UV-Vis) spectroscopy, dynamic light scattering (DLS), transmission electron microscopy (TEM), scanning electron microscope (SEM), X-ray powder diffraction (XRD), and Fourier-transform infrared spectroscopy (FTIR) as routine state-of-the art techniques. The synthesized TiO2 NPs were then evaluated for their cytotoxicity (by MTT, FACS, and oxidative stress assays) in 4T1 breast tumor cells, and their hemocompatibility (by hemolysis assay). In vivo anti-tumor efficacy and safety of the TiO2 NPs were further assessed using subcutaneous 4T1 breast BALB/c mouse tumor model.The greenly prepared TiO2 NPs were small, spherical, and crystalline in nature. Interestingly, they were hemocompatible and elicited a strong DOX-like concentration-dependent cytotoxicity-induced apoptosis both ex vivo and in vivo (with a noticeable tumor volume reduction). The underlying molecular mechanism was, at least partially, mediated through reactive oxygen species (ROS) generation (lipid peroxidation). Unlike DOX (P < 0.05), it is important to mention that no cardiotoxicity or altered body weight were observed in both the TiO2 NPs-treated tumor-bearing mouse group and the PBS-treated mouse group (P > 0.05). Taken together, Z. armatum-derived TiO2 NPs are cost-effective, more efficient, and safer than DOX. The present findings shall prompt clinical trials using green TiO2 NPs, at least as a possible alternative modality to DOX for effective breast cancer therapy.
Keyphrases
- visible light
- quantum dots
- electron microscopy
- oxide nanoparticles
- oxidative stress
- cancer therapy
- induced apoptosis
- clinical trial
- highly efficient
- end stage renal disease
- body weight
- reactive oxygen species
- global health
- drug delivery
- public health
- newly diagnosed
- chronic kidney disease
- dna damage
- endoplasmic reticulum stress
- high throughput
- high resolution
- randomized controlled trial
- type diabetes
- peritoneal dialysis
- climate change
- ionic liquid
- cell death
- magnetic resonance
- squamous cell carcinoma
- fatty acid
- clinical practice
- contrast enhanced
- crystal structure
- water quality
- light emitting