Tumor Microenvironment: From Cervical Carcinogenesis to Therapeutic Advancements.

Cervical cancer has become a major worldwide health concern that demands attention to women's health and often needs more effective and specialized treatment options. Cervical cancer claims the lives of over 300,000 women globally, ranking as the fourth most prevalent cancer among women. The tumor microenvironment (TME) shapes a distinctive landscape for tumor survival, characterized by factors like immunosuppression, hypoxia, acidity, and nutrient scarcity. Comprising tumor cells, immune cells, mesenchymal cells, cancer-associated fibroblasts, and extracellular matrix, the TME reprograms key aspects of tumor development, uncontrolled proliferation, invasion, metastasis, and response to treatments. Recognizing the TME's pivotal role in tumor progression and treatment responsiveness, targeting the TME has emerged as a potential strategy in cancer therapy. This publication delves into recent TME research, offering a comprehensive overview of the specific functions of each TME component in cancer development and progression. Based on the reviewed literature, it appears that women with cervical cancer may benefit from more effective therapy, fewer side effects, and a higher quality of life in the future. By addressing pressing problems and unmet needs in the field, this review has the potential to significantly alter the course of cervical cancer treatment in the future. Furthermore, it outlines the primary therapeutic targets identified by researchers, which may prove valuable in treating tumors.