Abstract
Abstract Mortality from colon and pancreatic cancers arises from cancer metastatic dissemination to the liver. The glycemic load from carbohydrates (carbs) has been specifically linked to the risk of metastatic recurrence of stage 3 colorectal cancer, but the mechanism of how dietary carbs contribute to the formation of liver metastases remains poorly understood. Our analyses now demonstrate that feeding mice a high carb diet (HCD) promotes liver colonization by tumor cells, and supports the survival of these cells, once in the liver. HCD also induces expression of a Type I interferon (IFN) inflammatory gene signatures which may contribute to its ability to promote metastatic seeding of the liver. Notably, this inflammatory phenotype in hepatocytes was completely abolished if animals are fed a diet enriched in fats (75% of calories), indicating a direct link between liver inflammation and consumption of carbohydrates. Specifically, we have discovered that: 1) dietary carbohydrates, but not a high-fat ketogenic diet, activate multiple independent inflammatory cascades in hepatocytes, including Type-I IFN/STAT1, NFkB, and IL6-STAT3 pathways; 2) the inflammatory signaling in hepatocytes is retained in Scid and NSG mice, indicating that it occurs in the absence of adaptive immunity; 3) HCD, but not fasting or ketogenic diet, markedly increases abundance of retained intronic sequences and formation of double-stranded RNA (dsRNAs). We nominate these yet uncharacterized dsRNAs as potential viral mimics which may trigger the Type I IFN signature observed in HCD-fed livers; and (4) a ketogenic diet showed a trend to reduce liver metastatic colonization, but was associated with mild hepatic steatosis. Overall, this study establishes a new paradigm in nutrient sensing by normal hepatocytes and nominates alternative RNA splicing as the potential trigger of inflammatory responses to HCDs via accumulation of dsRNAs. We suggest that a reduction of dietary carbohydrates, by suppressing the diet-induced hepatic inflammation, will improve the survival of cancer patients, and reduce the risk of liver metastases. Citation Format: Aizhan Surumbayeva, Riley Williams, Michael Kotliar, Maryclare Taylor, Débora B. Vendramini Costa, Charline Ogier, Diana Restifo, Kathy Q. Cai, Xueyang He, Paul Boutz, Siddharth Balachandran, Igor Astsaturov. Inflammatory response to dietary carbohydrates contributes to the formation of hepatic metastatic niche [abstract]. In: Proceedings of the AACR Special Conference on Pancreatic Cancer; 2022 Sep 13-16; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2022;82(22 Suppl):Abstract nr B019.
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