Sulfated Polysaccharides in Cancer Therapy: A Focus on Algal-Derived Bioactive.

Sulfated polysaccharides (SPs), biologically active macromolecules from marine and terrestrial organisms, hold significant potential in revolutionizing cancer therapy. Characterized by their unique sulfate ester groups and structural diversity, SPs exhibit a broad spectrum of bioactivities, including immunomodulation, apoptosis induction, metastasis suppression, and angiogenesis inhibition. Prominent SPs, such as fucoidan from brown algae and carrageenan from red algae, have shown remarkable anticancer properties, either as standalone agents or in synergy with conventional therapies like chemotherapy and radiotherapy. Their mechanisms of action involve targeting critical pathways such as NF-kB, VEGF, and PI3K/Akt, disrupting cancer cell proliferation, invasion, and tumor microenvironment dynamics. SPs also enhance immune system responses, reduce chemotherapy-induced side effects, and exhibit antioxidant properties, making them versatile candidates in cancer treatment. Innovations like SP-based nanoparticles are addressing bioavailability and drug delivery challenges, providing targeted and sustained therapeutic effects while minimizing off-target toxicity. Despite their promise, challenges such as structural complexity, scalability, and clinical validation hinder their widespread adoption. This review provides a comprehensive analysis of SPs' therapeutic potential, mechanisms, and emerging applications in oncology. It emphasizes the need for advanced extraction, characterization techniques, and clinical research to unlock their full potential, paving the way for novel, efficient, and safer cancer therapies.