Graphene quantum dots as nanotherapeutic agents for triple-negative breast cancer: Insights from 3D tumor models

Chemotherapy is a fundamental modality in the treatment of breast cancer (BC), employed across both early and advanced stages. Triple-negative breast cancer (TNBC), known for its aggressive behavior and propensity for metastasis, presents significant treatment challenges due to its resistance to standard chemotherapeutic approaches. Identifying molecular targets for TNBC is imperative, especially in the absence of specifically targeted drugs and given the generally poor prognosis of the disease. Although nanomedicine has substantially grown, incorporating a variety of clinical applications, challenges such as dose-limiting toxicities and limited patient response rates continue to hinder its broader application. Over the past decade, graphene quantum dots (GQDs) have emerged as a promising category of luminescent materials, characterized by their outstanding optoelectronic properties, and their highly tunable structures and surface functionalities. These attributes make GQDs ideal candidates as drug carriers, facilitating straightforward functionalization, heightened chemotherapy sensitivity, and substantial drug loading capacities. This review provides a thorough exploration of recent advancements in GQDs applied to BC, with a specific focus on TNBC. It delves into the dynamics of breast cancer, emphasizing the diagnostic and therapeutic challenges of TNBC and the innovative potential of GQDs in this context. Furthermore, it discusses various GQD-based therapeutic strategies that hold promise for enhancing outcomes in breast cancer treatment, potentially leading to transformative advancements in the management of TNBC. Additionally, this review incorporates insights from three-dimensional (3D) tumor models, offering a comprehensive perspective on GQD-mediated interventions in breast cancer therapy. [Display omitted] •The review examines Graphene Quantum Dots (GQDs) for targeting the aggressive traits of triple-negative breast cancer (TNBC).•Discusses GQDs with carriers, enhancing breast cancer treatment, including TNBC.•GQDs' unique properties and structures are ideal for advanced TNBC diagnostic applications.•Reviews GQD-based therapies like photodynamic and gene therapy, improving TNBC outcomes.•Includes insights from three-dimensional tumor models in the review.