2024
Human AKR1C3 binds agonists of GPR84 and participates in an expanded polyamine pathway
Dudkina N, Park H, Song D, Jain A, Khan S, Flavell R, Johnson C, Palm N, Crawford J. Human AKR1C3 binds agonists of GPR84 and participates in an expanded polyamine pathway. Cell Chemical Biology 2024 PMID: 39163853, DOI: 10.1016/j.chembiol.2024.07.011.Peer-Reviewed Original ResearchHuman aldo-keto reductase family 1 member C3Mammalian fatty acid synthaseDNA double-strand break responseDouble-strand break responseAldo-keto reductase family 1 member C3Associated with poor prognosisPolyamine pathwayFatty acid synthesisFatty acid synthaseAcid synthaseAKR1C3 activityPoor prognosisBiochemical roleAcid synthesisClinical significanceLigand screeningFerroptosis resistanceDNA damageAKR1C3Metabolic diseasesDiverse cancersDNANADPHAgonists of GPR84GPR84
2022
Asparagine, colorectal cancer, and the role of sex, genes, microbes, and diet: A narrative review
Shen X, Jain A, Aladelokun O, Yan H, Gilbride A, Ferrucci LM, Lu L, Khan SA, Johnson CH. Asparagine, colorectal cancer, and the role of sex, genes, microbes, and diet: A narrative review. Frontiers In Molecular Biosciences 2022, 9: 958666. PMID: 36090030, PMCID: PMC9453556, DOI: 10.3389/fmolb.2022.958666.Peer-Reviewed Original ResearchColorectal cancerCRC patientsNarrative reviewSex steroid hormone estrogenFemale CRC patientsAnti-tumor effectsPI3K/Akt/Sex-related influencesSex-related factorsAsparagine synthetase expressionSex-specific factorsClinical outcomesTumor burdenCRC progressionPoor prognosisHormone estrogenEstrogen receptorSOX12 expressionRole of sexTherapeutic useAkt/Cancer cellsSynthetase expressionL-asparaginasePatients