ISSN: 2578-4811
Authors: Maher M. Akl* and Amr Ahmed
The Warburg effect, characterized by increased glucose uptake and lactate production in cancer cells even in the presence of oxygen, has long been recognized as a hallmark of cancer metabolism. This metabolic alteration provides cancer cells with a growth advantage, facilitating their rapid proliferation. The underlying mechanisms driving the Warburg effect involve dysregulated glucose metabolism, upregulation of glucose transporters, and metabolic reprogramming avoring glycolysis. The resulting accumulation of metabolic intermediates, such as lactate, contributes to the acidic tumor microenvironment, promoting tumor progression. However, a novel perspective proposed by Maher Akl suggests that dysregulated glycolipid metabolism, particularly the accumulation of glycolipids within cells, plays a pivotal role in tumor development. This glucolipotoxicity hypothesis offers a broader nderstanding of the primary causes of cancer, emphasizing the interference of accumulated glycolipids with cellular processes and the activation of oncogenic pathways. In this abstract, we summarize the mechanisms underlying the Warburg effect and glucolipotoxicity, highlighting their implications for tumor growth. Understanding these paradoxical conditions that activate tumor growth provides insights for the development of innovative therapeutic strategies targeting the primary cause of cancer.
Keywords: Warburg Effect; Glycolysis; Glucose Metabolism; Glycolipotoxicity; Cancer Metabolism; Tumor Microenvironment
