Background and Aims:Cholangiocarcinoma (CCA) is a globally rare, increasingly incident cancer. Metabolic reprogramming is common in cancer cells, and altered lipid homeostasis favors tumor development and progression. Previous studies have described lipid deregulation in HCC cells, while in CCA, the lipidome profile is still poorly characterized.Methods:We used liquid chromatography-tandem mass spectrometry to examine the lipid level profile of intrahepatic CCA (iCCA) and non-tumor surrounding tissue from patients, as well as in patients' and healthy controls' sera.Results:All lipid classes were upregulated in tumor specimens and iCCA-derived sera. Newly synthesized fatty acids (FAs) accumulated in iCCA and were only marginally directed to mitochondrial beta-oxidation and scarcely folded in lipid droplets as neutral species. Metabolic flux assay showed that FAs were instead redirected toward plasma membrane formation and remodeling, being incorporated into phospholipids and sphingomyelin. A distinct lipid droplet and macrophage distribution was revealed by immunohistochemistry and Imaging Mass Cytometry. Lipid droplets were fewer in iCCA than in normal tissue and present mainly in the intratumoral fibrous septa and in M2 macrophages. Monocytes modified their lipid content and phenotype in the presence of iCCA cells, and the same effect could be recapitulated by FA supplementation.Conclusions:Our results reveal a profound alteration in the lipid content of iCCA tissues and demonstrate that FA accumulation prompts iCCA aggressiveness by supporting membrane biogenesis, generating bioactive lipids that boost proliferation, and by modifying macrophage phenotype.
Cholangiocarcinoma cells direct fatty acids to support membrane synthesis and modulate macrophage phenotype / M. Dei Cas, S. Mantovani, B. Oliviero, A. Zulueta, L. Montavoci, M. Falleni, D. Tosi, C. Morano, S. Penati, A. Chiocchetti, R. Sinella, C. Barbero Mazzucca, M. Donadon, C. Soldani, G. Piccolo, M. Barabino, P.P. Bianchi, M. Maestri, A. Lleo, J.M. Banales, M.U. Mondelli, A. Caretti. - In: HEPATOLOGY COMMUNICATIONS. - ISSN 2471-254X. - 9:6(2025 Jun), pp. e0717.1-e0717.17. [10.1097/hc9.0000000000000717]
Cholangiocarcinoma cells direct fatty acids to support membrane synthesis and modulate macrophage phenotype
M. Dei CasCo-primo
;L. Montavoci;M. Falleni;D. Tosi;C. Morano;S. Penati;M. Donadon;P.P. Bianchi;A. Lleo;A. CarettiUltimo
2025
Abstract
Background and Aims:Cholangiocarcinoma (CCA) is a globally rare, increasingly incident cancer. Metabolic reprogramming is common in cancer cells, and altered lipid homeostasis favors tumor development and progression. Previous studies have described lipid deregulation in HCC cells, while in CCA, the lipidome profile is still poorly characterized.Methods:We used liquid chromatography-tandem mass spectrometry to examine the lipid level profile of intrahepatic CCA (iCCA) and non-tumor surrounding tissue from patients, as well as in patients' and healthy controls' sera.Results:All lipid classes were upregulated in tumor specimens and iCCA-derived sera. Newly synthesized fatty acids (FAs) accumulated in iCCA and were only marginally directed to mitochondrial beta-oxidation and scarcely folded in lipid droplets as neutral species. Metabolic flux assay showed that FAs were instead redirected toward plasma membrane formation and remodeling, being incorporated into phospholipids and sphingomyelin. A distinct lipid droplet and macrophage distribution was revealed by immunohistochemistry and Imaging Mass Cytometry. Lipid droplets were fewer in iCCA than in normal tissue and present mainly in the intratumoral fibrous septa and in M2 macrophages. Monocytes modified their lipid content and phenotype in the presence of iCCA cells, and the same effect could be recapitulated by FA supplementation.Conclusions:Our results reveal a profound alteration in the lipid content of iCCA tissues and demonstrate that FA accumulation prompts iCCA aggressiveness by supporting membrane biogenesis, generating bioactive lipids that boost proliferation, and by modifying macrophage phenotype.
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