In recent years, with the deepening understanding of the biological mechanisms underlying tumorigenesis, metabolic reprogramming has emerged as a pivotal process in cancer initiation, progression, and treatment resistance, gradually paving the way for new avenues in precision oncology. Natural herb ingredients, characterized by their multi-target engagement, low toxicity, and wide-ranging biological activities, exhibit unique advantages in anti-cancer therapy. Nonetheless, the clinical application of these components has been constrained by issues such as poor solubility, low bioavailability, and inadequate stability when administered through traditional delivery methods. The advent of multifunctional nanoformulations has offered solutions to these challenges, substantially advancing the utilization of natural herb components in precision therapy targeting tumor metabolic reprogramming. This article provides a comprehensive review of the multidimensional features of cancer metabolic reprogramming and its intricate regulatory network, highlighting the latest advancements in metabolic regulation, targeted delivery, and precision therapy achieved through natural herbs and their multifunctional nanomedicines. It also offers insights into future directions in this field. We are justified in believing that continued breakthroughs in this area will usher in safer and more effective treatment options for cancer patients, heralding a new chapter in cancer therapy.
Keywords: Herbal; Multifunctional nanoformulations; Precision therapy; Targeted delivery; Tumor metabolic reprogramming.
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