New Research Unveils How Cancer Cells Manipulate Lipids to Evade Immune System and Resist Therapies
September 11, 2024A recent study published in Nature highlights the critical role of sphingolipids in cancer cell survival and immune evasion.
Dysfunctional sphingolipid metabolism hinders the anticancer effects of ceramide, contributing to cancer cell survival and resistance to therapies.
The research indicates that cancer cells accumulate glycosphingolipids to obscure inflammatory signals, paving the way for new therapeutic strategies targeting lipid metabolism.
Lead author Mariluz Soula notes that cancer cells manipulate lipid metabolism not only for energy but also to distort immune signals.
By altering lipid metabolism, cancer cells effectively communicate their presence to the immune system, aiding in their evasion of detection.
Lipid-laden macrophages in tumors contribute to immunosuppression, facilitating cancer growth by transferring lipids to the tumor environment.
The study enhances understanding of the immune landscape in glioblastoma, a cancer known for its highly immunosuppressive microenvironment.
In glioblastoma, macrophages scavenge lipid debris from the myelin sheath of neurons, further complicating the tumor's immune interactions.
Despite clinical trials of P-glycoprotein (P-gp) inhibitors showing limited success, P-gp remains a significant factor in chemotherapy resistance.
P-gp overexpression reduces chemotherapy drug effectiveness by extruding them from cancer cells, a common mechanism of multidrug resistance.
Chemotherapy resistance can be intrinsic, existing before treatment, or acquired, developing during the course of treatment.
The study suggests that dietary interventions to modify sphingolipid production may enhance the effectiveness of existing immunotherapies.
Summary based on 3 sources
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Sources
Nature • Sep 11, 2024
Lipid recycling by macrophage cells drives the growth of brain cancerMedical Xpress • Sep 9, 2024
Cancer cells may be using lipids to hide from the immune system