Navigating the tumor landscape: VEGF, MicroRNAs, and the future of cancer treatment.

Cancer progression is a multifaceted process influenced by complex interactions within the tumor microenvironment (TME). Central to these dynamics are Vascular Endothelial Growth Factor (VEGF) signalling and microRNA (miRNA) modulation, both of which play critical roles in tumor growth and angiogenesis. VEGF is essential for promoting blood vessel formation; however, its splice variant, VEGF165b, acts as an anti-angiogenic factor, presenting a paradox challenging conventional cancer therapies. Meanwhile, miRNAs regulate gene expression that significantly impacts tumor behaviour by targeting various mRNAs involved in signalling pathways. The interplay between VEGF and miRNAs opens new avenues for targeted therapies designed to disrupt the networks supporting tumor growth. Additionally, the concept of exploiting the unique properties of VEGF splice variants is being explored to develop novel treatments that enhance anti-angiogenic effects while minimizing side effects. Understanding this is crucial for advancing personalized therapies that can effectively address the challenges posed by tumor adaptability and resistance mechanisms.