Intra-tumoural nitric oxide release by macrophages activated by Gc-protein-derived Macrophage Activating Factor (GcMAF)

Over past decades, nitric oxide (NO) has emerged as a molecule of interest in cancer treatment because of its tumouricidal properties (Choudhari et al., 2013). Gc-protein-derived Macrophage Activating Factor (GcMAF) induces the synthesis and release of NO by activated macrophages. It was previously demonstrated that molecular complexes of oleic acid (OA) and GcMAF (OA-GcMAF) stimulate macrophage activation in cancer patients (Ward et al., 2014). Here we demonstrate that intra-tumoural injection of OA-GcMAF leads NO synthesis and release inside the tumour. Under ultrasound guidance, OA-GcMAF was injected into patients harbouring different types of solid tumours; a metastasis from a melanoma, and a metastasis from breast cancer. Intra-tumoural NO synthesis and release was monitored in real-time by power-doppler ultrasonography. One to two minutes after injection, we observed a significant increase in blood flow and in blood ves-sels diameter, a clear indication of vasodilation due to NO synthesis and release. These observations substantiate the dramatic clinical results previously observed by Ward et al. (2014), and open the way to further investigation in the role of GcMAF as a powerful anticancer agent. References [1] Choudari et al. (2013) Nitric oxide and cancer: a review. World J Surg Oncol 11: 118-129. [2] Ward et al. (2014) Clinical Experience of Cancer Immunotherapy integrated with Oleic Acid Complexed with De-glycosylated Vitamin D Binding Protein. Am J Immunol 10: 23-32.