Sphingosine 1‐phosphate lyase facilitates cancer progression through converting sphingolipids to glycerophospholipids

Uranbileg, Baasanjav; Kurano, Makoto; Kano, Kuniyuki; Sakai, Eri; Arita, Junichi; Hasegawa, Kiyoshi; Nishikawa, Takeshi; Ishihara, Soichiro; Yamashita, Hiroharu; Seto, Yasuyuki; Ikeda, Hitoshi; Aoki, Junken; Yatomi, Yutaka

doi:10.1002/ctm2.1056

Cited by 18 publications

(14 citation statements)

References 108 publications

(174 reference statements)

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“…In our case, the S1P levels remained unchanged in tissue or cell samples, which is consistent with previous studies ( He et al, 2010 ; Ceccom et al, 2014 ; Couttas et al, 2014 ; Kurano et al, 2022c ), which reported either unchanged or decreased S1P levels and SK activity, suggesting a difficulty to employ S1P receptor agonists. These discrepancies might be attributed to postmortem effects, because S1P can be intracellularly degraded ( Uranbileg et al, 2022 ) or because of the lower accuracy of the comprehensive measuring method in the measurement of S1P versus the specific measuring methods of S1P. In fact, in our previous paper using a specific measuring method of S1P, the brain S1P levels were lower in the AD brains ( Kurano et al, 2022c ).…”

Section: Discussionmentioning

confidence: 94%

“…Sphingolipids are among the well-studied bioactive lipid mediators, playing crucial roles in the physiology and pathology of human diseases ( Kluk and Hla, 2002 ; Hla, 2003 ; Nakamura et al, 2021 ; Kurano et al, 2022a , b , d ; Uranbileg et al, 2022 ). In the field of neurology, their structural role in cellular membranes, particularly in lipid rafts, is a crucial aspect of their interaction with the amyloid beta (Aβ) metabolism ( Olsen and Faergeman, 2017 ), suggesting the potential to investigate their role in AD.…”

Section: Discussionmentioning

confidence: 99%

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Alzheimer’s disease manifests abnormal sphingolipid metabolism

Uranbileg,

Isago,

Sakai

et al. 2024

Front. Aging Neurosci.

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IntroductionAlzheimer’s disease (AD) is associated with disturbed metabolism, prompting investigations into specific metabolic pathways that may contribute to its pathogenesis and pathology. Sphingolipids have garnered attention due to their known physiological impact on various diseases.MethodsWe conducted comprehensive profiling of sphingolipids to understand their possible role in AD. Sphingolipid levels were measured in AD brains, Cerad score B brains, and controls, as well as in induced pluripotent stem (iPS) cells (AD, PS, and control), using liquid chromatography mass spectrometry.ResultsAD brains exhibited higher levels of sphingosine (Sph), total ceramide 1-phosphate (Cer1P), and total ceramide (Cer) compared to control and Cerad-B brains. Deoxy-ceramide (Deoxy-Cer) was elevated in Cerad-B and AD brains compared to controls, with increased sphingomyelin (SM) levels exclusively in Cerad-B brains. Analysis of cell lysates revealed elevated dihydroceramide (dhSph), total Cer1P, and total SM in AD and PS cells versus controls. Multivariate analysis highlighted the relevance of Sph, Cer, Cer1P, and SM in AD pathology. Machine learning identified Sph, Cer, and Cer1P as key contributors to AD.DiscussionOur findings suggest the potential importance of Sph, Cer1P, Cer, and SM in the context of AD pathology. This underscores the significance of sphingolipid metabolism in understanding and potentially targeting mechanisms underlying AD.

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Section: Discussionmentioning

confidence: 94%

Section: Discussionmentioning

confidence: 99%

Alzheimer’s disease manifests abnormal sphingolipid metabolism

Uranbileg,

Isago,

Sakai

et al. 2024

Front. Aging Neurosci.

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“…Fumonisin B1 and SKI II were relatively effective in inhibiting cell proliferation in HepG2 and Huh7.5 cells [ 108 ]. S1P lyase facilitates cancer progression by converting S1P into glycerophospholipids [ 57 ].…”

Section: Sphingolipid Metabolic Pathway In Hcc Therapymentioning

confidence: 99%

Critical Roles of the Sphingolipid Metabolic Pathway in Liver Regeneration, Hepatocellular Carcinoma Progression and Therapy

Nojima,

Shimizu,

Murakami

et al. 2024

Cancers

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The sphingolipid metabolic pathway, an important signaling pathway, plays a crucial role in various physiological processes including cell proliferation, survival, apoptosis, and immune regulation. The liver has the unique ability to regenerate using bioactive lipid mediators involving multiple sphingolipids, including ceramide and sphingosine 1-phosphate (S1P). Dysregulation of the balance between sphingomyelin, ceramide, and S1P has been implicated in the regulation of liver regeneration and diseases, including liver fibrosis and hepatocellular carcinoma (HCC). Understanding and modulating this balance may have therapeutic implications for tumor proliferation, progression, and metastasis in HCC. For cancer therapy, several inhibitors and activators of sphingolipid signaling, including ABC294640, SKI-II, and FTY720, have been discussed. Here, we elucidate the critical roles of the sphingolipid pathway in the regulation of liver regeneration, fibrosis, and HCC. Regulation of sphingolipids and their corresponding enzymes may considerably influence new insights into therapies for various liver disorders and diseases.

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“…52 Negative associations with both ceramides and sphingomyelins suggest that ceramides are probably diverted to the catabolic pathway to generate more pro-growth signaling molecules. Blocking of key enzymes, such as sphingosine kinase 2 (SphK2) 53 and S1P lyase (SPL) 54 in sphingolipids metabolism, 52 has also been shown to block liver cancer growth in cell and animal bioassays. Our results point to a higher activity of ceramidases in liver that can serve to both promote cell survival and to suppress the ceramide dependent apoptotic cascade.…”

Section: Anti-apoptotic Mechanismsmentioning

confidence: 99%

Identification of pre‐diagnostic lipid sets associated with liver cancer risk using untargeted lipidomics and chemical set analysis: A nested case‐control study within the ATBC cohort

Barupal,

Ramos,

Florio

et al. 2023

Intl Journal of Cancer

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In pre‐disposed individuals, a reprogramming of the hepatic lipid metabolism may support liver cancer initiation. We conducted a high‐resolution mass spectrometry based untargeted lipidomics analysis of pre‐diagnostic serum samples from a nested case‐control study (219 liver cancer cases and 219 controls) within the Alpha‐Tocopherol, Beta‐Carotene Cancer Prevention (ATBC) Study. Out of 462 annotated lipids, 158 (34.2%) were associated with liver cancer risk in a conditional logistic regression analysis at a false discovery rate (FDR) <0.05. A chemical set enrichment analysis (ChemRICH) and co‐regulatory set analysis suggested that 22/28 lipid classes and 47/83 correlation modules were significantly associated with liver cancer risk (FDR <0.05). Strong positive associations were observed for monounsaturated fatty acids (MUFA), triacylglycerols (TAGs) and phosphatidylcholines (PCs) having MUFA acyl chains. Negative associations were observed for sphingolipids (ceramides and sphingomyelins), lysophosphatidylcholines, cholesterol esters and polyunsaturated fatty acids (PUFA) containing TAGs and PCs. Stearoyl‐CoA desaturase enzyme 1 (SCD1), a rate limiting enzyme in fatty acid metabolism and ceramidases seems to be critical in this reprogramming. In conclusion, our study reports pre‐diagnostic lipid changes that provide novel insights into hepatic lipid metabolism reprogramming may contribute to a pro‐cell growth and anti‐apoptotic tissue environment and, in turn, support liver cancer initiation.

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Sphingosine 1‐phosphate lyase facilitates cancer progression through converting sphingolipids to glycerophospholipids

Cited by 18 publications

References 108 publications

Alzheimer’s disease manifests abnormal sphingolipid metabolism

Alzheimer’s disease manifests abnormal sphingolipid metabolism

Critical Roles of the Sphingolipid Metabolic Pathway in Liver Regeneration, Hepatocellular Carcinoma Progression and Therapy

Identification of pre‐diagnostic lipid sets associated with liver cancer risk using untargeted lipidomics and chemical set analysis: A nested case‐control study within the ATBC cohort

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