Murine chenodeoxycholic acid - muricholic acid/ murideoxycholic acid pathway: bile salt deconjugation, secondary bile acid synthesis, reconjugation and sulfation (Mus musculus)

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Description

This pathway focuses on murine-specific transformations of CDCA-derived bile acids, in which hepatic CYP2C70 converts CDCA and UDCA into α and β muricholic acids (MCA), which are primary bile acids in mice and can be further epimerized (via 7 and 6 hydroxyl epimerization) and dehydroxylated by the gut microbiota to form secondary species such as murideoxycholic acid and ω MCA. In mice, these MCA derivatives and their conjugated and sulfated forms are cycled through the enterohepatic circulation: gut bacteria deconjugate and desulfate muricholic and CDCA-derived bile salts, while hepatocytes reconjugate and resulfate them via SLC27A5, BAAT and sulfotransferase 2A, leading to a bile acid pool that is more enriched in muricholic acids than in humans.

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Ontology Terms

 

Bibliography

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  1. Zhuang T, Wang X, Wang Z, Gu L, Yue D, Li X, Yang L, Huang W, Ding L; ''Biological functions and pharmacological behaviors of bile acids in metabolic diseases.''; J Adv Res, 2025 PubMed Europe PMC Scholia
  2. Guzior DV, Okros M, Shivel M, Armwald B, Bridges C, Fu Y, Martin C, Schilmiller AL, Miller WM, Ziegler KM, Sims MD, Maddens ME, Graham SF, Hausinger RP, Quinn RA; ''Bile salt hydrolase acyltransferase activity expands bile acid diversity.''; Nature, 2024 PubMed Europe PMC Scholia
  3. Ito E, Inuki S, Izumi Y, Takahashi M, Dambayashi Y, Ciacchi L, Awad W, Takeyama A, Shibata K, Mori S, Mak JYW, Fairlie DP, Bamba T, Ishikawa E, Nagae M, Rossjohn J, Yamasaki S; ''Sulfated bile acid is a host-derived ligand for MAIT cells.''; Sci Immunol, 2024 PubMed Europe PMC Scholia
  4. Guo GL, Chiang JYL; ''Is CYP2C70 the key to new mouse models to understand bile acids in humans?''; J Lipid Res, 2020 PubMed Europe PMC Scholia
  5. Honda A, Miyazaki T, Iwamoto J, Hirayama T, Morishita Y, Monma T, Ueda H, Mizuno S, Sugiyama F, Takahashi S, Ikegami T; ''Regulation of bile acid metabolism in mouse models with hydrophobic bile acid composition.''; J Lipid Res, 2020 PubMed Europe PMC Scholia
  6. Zhang Y, Limaye PB, Lehman-McKeeman LD, Klaassen CD; ''Dysfunction of organic anion transporting polypeptide 1a1 alters intestinal bacteria and bile acid metabolism in mice.''; PLoS One, 2012 PubMed Europe PMC Scholia
  7. Doden HL, Ridlon JM; ''Microbial Hydroxysteroid Dehydrogenases: From Alpha to Omega.''; Microorganisms, 2021 PubMed Europe PMC Scholia
  8. Paul A. Dawson.; ''7. Biochemistry of Lipids, Lipoproteins and Membranes (Sixth Edition), Chapter 12 - Bile Acid Metabolism''; https://doi.org/10.1016/B978-0-444-63438-2.00012-2, 2016
  9. Chiang JYL, Ferrell JM; ''Bile Acid Metabolism in Liver Pathobiology.''; Gene Expr, 2018 PubMed Europe PMC Scholia
  10. Cai J, Rimal B, Jiang C, Chiang JYL, Patterson AD; ''Bile acid metabolism and signaling, the microbiota, and metabolic disease.''; Pharmacol Ther, 2022 PubMed Europe PMC Scholia
  11. Eyssen H, De Pauw G, Stragier J, Verhulst A; ''Cooperative formation of omega-muricholic acid by intestinal microorganisms.''; Appl Environ Microbiol, 1983 PubMed Europe PMC Scholia
  12. Takahashi S, Fukami T, Masuo Y, Brocker CN, Xie C, Krausz KW, Wolf CR, Henderson CJ, Gonzalez FJ; ''Cyp2c70 is responsible for the species difference in bile acid metabolism between mice and humans.''; J Lipid Res, 2016 PubMed Europe PMC Scholia

History

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CompareRevisionActionTimeUserComment
142290view17:32, 24 December 2025JmrodriguezcPathway nodes adequately changed to the "mus musculus" pathway ID.
142277view17:20, 24 December 2025JmrodriguezcOntology Term : 'primary bile acid biosynthetic pathway' added !
142276view17:20, 24 December 2025JmrodriguezcOntology Term : 'bile acid biosynthetic pathway' added !
142275view17:19, 24 December 2025JmrodriguezcOntology Term : 'secondary bile acid biosynthetic pathway' added !
142249view11:56, 22 December 2025JmrodriguezcModified description
142231view12:39, 18 December 2025JmrodriguezcUpdate Secondary BA Synthesis pathway name to: Secondary BA Synthesis(CDCA-LCA/UDCA)
142230view12:37, 18 December 2025JmrodriguezcModified description
142227view11:23, 18 December 2025JmrodriguezcNew pathway

External references

DataNodes

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NameTypeDatabase referenceComment
6-oxoLCAMetaboliteLMST04010146 (LIPID MAPS)
6αHSDHGeneProductCNIC-E001 (nan)
6βHSDHGeneProductCNIC-E002 (nan)
7α-dehydroxylationPathwayWP5611 (WikiPathways)
A0A8F5DVT9_9FIRM GeneProductA0A8F5DVT9  (Uniprot-TrEMBL)
BAATGeneProductQ91X34 (Uniprot-TrEMBL)
CBH_BIFL2 GeneProductP0DXD2  (Uniprot-TrEMBL)
CBH_BIFLN GeneProductQ9KK62  (Uniprot-TrEMBL)
CDCAMetaboliteLMST04010032 (LIPID MAPS)
CYP2c70GeneProductQ91W64 (Uniprot-TrEMBL)
GαMCAMetabolite13955647 (PubChem-compound)
GβMCAMetabolite137333454 (PubChem-compound)
GωMCAMetaboliteCNIC-M001 (nan)
HDCAMetaboliteLMST04010024 (LIPID MAPS)
MDCAMetaboliteLMST04010025 (LIPID MAPS)
SLC27A5GeneProductQ4LDG0 (Uniprot-TrEMBL)
Secondary BA Synthesis(CDCA)PathwayWP5612 (WikiPathways)
TαMCAMetaboliteLMST05040027 (LIPID MAPS)
TβMCAMetaboliteLMST05040012 (LIPID MAPS)
TωMCAMetaboliteLMST04010473 (LIPID MAPS)
UDCAMetaboliteLMST04010033 (LIPID MAPS)
Unknown
αMCAMetaboliteLMST04010066 (LIPID MAPS)
βMCAMetaboliteLMST04010067 (LIPID MAPS)
ωMCAMetaboliteLMST04010065 (LIPID MAPS)

Annotated Interactions

No annotated interactions

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