Alanda (Ephedra foeminea) nanoparticles as a modulator of genomic DNA degradation in mice: new inspiration for treating Ehrlich solid tumour-induced kidney and liver toxicity.

OBJECTIVE: The limitations faced by conventional drug delivery systems are being overcome through the use of rapidly evolving cancer nanotherapeutics. Determining the manner in which the Ehrlich solid tumor (EST) is impacted by the new bioactive Alanda-loaded flax seed gum nanoparticles (Alanda NPs) functioning as an anti-carcinogenic agent represents the research objective of this paper.

MATERIALS AND METHODS: Identification of the functional groups, surface morphology, particle size, and zeta potential were among the characterizations and preparations made for the prepared nanoparticles. A Control group, a Flax Seed Gum group, a raw Alanda group, an Alanda NPs group, an EST group, and an induced EST treated with Alanda NPs group comprised the six groups respectively which the 60 female mice were separated into in this in vivo study.

RESULTS: Toxicity assessments for kidneys and liver were performed alongside the detection of total genomic DNA degradation. The zeta potential and the particle sizes for Alanda NPs were -25.60±0.38 mv and 40±0.28 nm, respectively, where the latter demonstrated a monodisperse spherical shape, per the findings. The use of Alanda NPs to treat EST was found to alle te the DNA damage, apoptosis, and renal and hepatic toxicity that EST induces. Additionally, the activation of oxidative stress and apoptosis causing the renal and hepatic toxicity induced by EST is counteracted by the scavenging of free radicals by the Alanda NPs.

CONCLUSIONS: A high degree of safety for effective cancer treatment was displayed by the newly developed oral nanoparticles while also demonstrating strong potential in vivo.