Targeted lipolysis for obesity treatment: Cold atmospheric plasma-responsive nanoparticles amplify reactive oxygen species generation in adipocytes

Obesity is characterized by the accumulation of excess fat within adipocytes, leading to various metabolic complications. Photodynamic therapy has shown promise as an anti-obesity treatment due to its ability to induce lipolysis in the presence of a Photosensitizer. However, the emerging use of cold atmospheric plasma (CAP) offers a promising alternative to photodynamic therapy, as it generates Reactive Oxygen Species (ROS) without the need for a Photosensitizer. Despite this potential, the therapeutic application of CAP is limited by its shallow penetration depth and the short-lived nature of ROS, which results in minimal lipolytic effects in vivo. In this study, we developed a novel CAP-responsive lipid nanoparticle designed to amplify ROS generation within adipose tissue. These nanoparticles effectively increase intracellular ROS levels in adipocytes, thereby enhancing lipolysis. In a high-fat diet mouse model, local treatment with CAP, combined with our ROS-amplifying nanoparticles, led to a significant reduction in body weight, demonstrating the potential of this approach for obesity treatment. In conclusion, our study introduces a ROS-amplifying nanoplatform that enhances the efficacy of CAP for anti-obesity therapy, offering a targeted and effective strategy for reducing excessive adipose tissue accumulation. This innovative approach holds promise for overcoming the limitations of current CAP treatments and advancing the field of obesity management.

Cold atmospheric plasma; Lipolysis; Obesity; ROS amplifier; Reactive oxygen species.