Regulation of fatty acid delivery to metastases by tumor endothelium

Edwards, Deanna N.; Wang, Shan; Song, Wenqiang; Kim, Laura C.; Ngwa, Verra M.; Hwang, Yoonha; Ess, Kevin C.; Boothby, Mark R.; Chen, Jin

doi:10.1101/2024.04.02.587724

2024

DOI: 10.1101/2024.04.02.587724

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Regulation of fatty acid delivery to metastases by tumor endothelium

Deanna N. Edwards,

Shan Wang,

Wenqiang Song

et al.

Abstract: Tumor metastasis, the main cause of death in cancer patients, requires outgrowth of tumor cells after their dissemination and residence in microscopic niches. Nutrient sufficiency is a determinant of such outgrowth. Fatty acids (FA) can be metabolized by cancer cells for their energetic and anabolic needs but impair the cytotoxicity of T cells in the tumor microenvironment (TME), thereby supporting metastatic progression. However, despite the important role of FA in metastatic outgrowth, the regulation of intr… Show more

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Cited by 2 publications

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The influence of endothelial metabolic reprogramming on the tumor microenvironment

Kane,

Edwards,

Chen

2024

Oncogene

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Endothelial cells (ECs) that line blood vessels act as gatekeepers and shape the metabolic environment of every organ system. In normal conditions, endothelial cells are relatively quiescent with organ-specific expression signatures and metabolic profiles. In cancer, ECs are metabolically reprogrammed to promote the formation of new blood vessels to fuel tumor growth and metastasis. In addition to EC’s role on tumor cells, the tortuous tumor vasculature contributes to an immunosuppressive environment by limiting T lymphocyte infiltration and activity while also promoting the recruitment of other accessory pro-angiogenic immune cells. These elements aid in the metastatic spreading of cancer cells and contribute to therapeutic resistance. The concept of restoring a more stabilized vasculature in concert with cancer immunotherapy is emerging as a potential approach to overcoming barriers in cancer treatment. This review summarizes the metabolism of endothelial cells, their regulation of nutrient uptake and delivery, and their impact in shaping the tumor microenvironment and anti-tumor immunity. We highlight new therapeutic approaches that target the tumor vasculature and harness the immune response. Appreciating the integration of metabolic state and nutrient levels and the crosstalk among immune cells, tumor cells, and ECs in the TME may provide new avenues for therapeutic intervention.

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The influence of endothelial metabolic reprogramming on the tumor microenvironment

Kane,

Edwards,

Chen

2024

Oncogene

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Dysregulation of genes involved in the long-chain fatty acid transport in pancreatic ductal adenocarcinoma

Poenaru,

Milanesi,

Niculae

et al. 2025

World J Gastrointest Oncol

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BACKGROUND Pancreatic ductal adenocarcinoma (PDAC) is an aggressive lethal malignancy with limited options for treatment and a 5-year survival rate of 11% in the United States. As for other types of tumors, such as colorectal cancer, aberrant de novo lipid synthesis and reprogrammed lipid metabolism have been suggested to be associated with PDAC development and progression. AIM To identify the possible involvement of lipid metabolism in PDAC by analyzing in tumoral and non-tumoral tissues the expression level of the most relevant genes involved in the long-chain fatty acid (FA) import into cell. METHODS A gene expression analysis of FASN , CD36 , SLC27A1 , SLC27A2 , SLC27A3 , SLC27A4 , SLC27A5 , ACSL1 , and ACSL3 was performed by qRT-PCR in 24 tumoral PDAC tissues and 11 samples from non-tumoral pancreatic tissues obtained via fine needle aspiration or via surgical resection. The genes were considered significantly dysregulated between the groups when the p value was < 0.05 and the fold change (FC) was ≤ 0.5 and ≥ 2. RESULTS We found that three FA transporters and two long-chain acyl-CoA synthetases genes were significantly upregulated in the PDAC tissue compared to the non-tumoral tissue: SLC27A2 (FC = 5.66; P = 0.033), SLC27A3 (FC = 2.68; P = 0.040), SLC27A4 (FC = 3.13; P = 0.033), ACSL1 (FC = 4.10; P < 0.001), and ACSL3 (FC = 2.67; P = 0.012). We further investigated any possible association between the levels of the analyzed mRNAs and the specific characteristics of the tumors, including the anatomic location, the lymph node involvement, and the presence of metastasis. A significant difference in the expression of SLC27A3 (FC = 3.28; P = 0.040) was found comparing patients with and without lymph nodes involvement with an overexpression of this transcript in 17 patients presenting tumoral cells in the lymph nodes. CONCLUSION Despite the low number of patients analyzed, these preliminary results seem to be promising. Addressing lipid metabolism through a broad strategy could be a beneficial way to treat this malignancy. Future in vitro and in vivo studies on these genes may offer important insights into the mechanisms linking PDAC with the long-chain FA import pathway.

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Regulation of fatty acid delivery to metastases by tumor endothelium

Cited by 2 publications

References 90 publications

The influence of endothelial metabolic reprogramming on the tumor microenvironment

The influence of endothelial metabolic reprogramming on the tumor microenvironment

Dysregulation of genes involved in the long-chain fatty acid transport in pancreatic ductal adenocarcinoma

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