AI Article Synopsis
- Cancer is a highly diverse disease, with prostate cancer (PCa) being the second most common type in men, characterized by significant genetic and phenotypic variations.
- Tumor metabolism in cancer is complex, relying on various metabolic pathways that support aggressive traits like rapid growth and invasive behavior, with lipids playing key roles in maintaining cellular functions and signaling.
- Research is increasingly focusing on altered lipid metabolism in PCa, aiming to identify specific metabolic signatures for better diagnosis and treatment strategies to manage this intricate disease.
Article Abstract
Cancer is increasingly recognized as an extraordinarily heterogeneous disease featuring an intricate mutational landscape and vast intra- and intertumor variability on both genetic and phenotypic levels. Prostate cancer (PCa) is the second most prevalent malignant disease among men worldwide. A single metabolic program cannot epitomize the perplexing reprogramming of tumor metabolism needed to sustain the stemness of neoplastic cells and their prominent energy-consuming functional properties, such as intensive proliferation, uncontrolled growth, migration, and invasion. In cancerous tissue, lipids provide the structural integrity of biological membranes, supply energy, influence the regulation of redox homeostasis, contribute to plasticity, angiogenesis and microenvironment reshaping, mediate the modulation of the inflammatory response, and operate as signaling messengers, i.e., lipid mediators affecting myriad processes relevant for the development of the neoplasia. Comprehensive elucidation of the lipid metabolism alterations in PCa, the underlying regulatory mechanisms, and their implications in tumorigenesis and the progression of the disease are gaining growing research interest in the contemporary urologic oncology. Delineation of the unique metabolic signature of the PCa featuring major aberrant pathways including de novo lipogenesis, lipid uptake, storage and compositional reprogramming may provide novel, exciting, and promising avenues for improving diagnosis, risk stratification, and clinical management of such a complex and heterogeneous pathology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9863986 | PMC |
| http://dx.doi.org/10.3390/ijms24021391 | DOI Listing |
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