Sulfatase and aromatase pathway (WP5368)
Homo sapiens
The intratumoral production of estradiol-17beta (E2) from circulating steroid hormone precursors plays an essential role in estrogen-related breast and epithelial ovarian cancer (EOC). There are two possible pathways producing E2, one being the sulfatase pathway starting from estrone sulfate, and one being the aromatase pathway which starts with DHEA-S. Both routes rely on two crucial enzymes: STS for estrogen activation and SULT1E1 for inactivation. Research indicates that an increased STS expression and E2 production is associated with cancer progression. However, sulfonation of E2 via SULT1E1 not only reduces proliferative effects of estrogens on hormone-sensitive tumor cells, but also generates water-soluble estrogen sulfates consequently leading to an increased excretion of sulfonated E2. This helps preventing a metabolic activation of the hormone into potentially mutagenic catechol metabolites. Thus, targeting estrogen-modifying enzymes is a potential endocrine therapy strategy for patients with estrogen-sensitive EOC. This pathway is based on Figure 1 from: Mungenast, F., Aust, S., Vergote, I., Vanderstichele, A., Sehouli, J., Braicu, E., Mahner, S., Castillo‑Tong, D. C., Zeillinger, R., Thalhammer, T."Clinical significance of the estrogen-modifying enzymes steroid sulfatase and estrogen sulfotransferase in epithelial ovarian cancer". Oncology Letters 13, no. 6 (2017): 4047-4054. https://doi.org/10.3892/ol.2017.5969
Authors
Lisa Glatt , Dorottya Szobol , Denise Slenter , Isabel Wassink , and Eric WeitzActivity
Discuss this pathway
Check for ongoing discussions or start your own.
Cited In
Are you planning to include this pathway in your next publication? See How to Cite and add a link here to your paper once it's online.
Organisms
Homo sapiensCommunities
Annotations
Disease Ontology
ovary epithelial cancerPathway Ontology
cancer pathway disease pathway sex steroids signaling pathway steroid biosynthetic pathway| Label | Type | Compact URI | Comment |
|---|---|---|---|
| NADH dianion | Metabolite | chebi:57945 | |
| estrone | Metabolite | chebi:17263 | |
| estradiol 3-sulphate | Metabolite | chebi:4866 | |
| NAD anion | Metabolite | chebi:57540 | |
| Estradiol-17beta | Metabolite | chebi:16469 | |
| NADPH tetraanion | Metabolite | chebi:57783 | |
| DHEA-S | Metabolite | chebi:16814 | |
| PAP | Metabolite | chebi:58343 | Adenosine 3',5'-bismonophosphate |
| DHEA | Metabolite | chebi:28689 | |
| PAPS(4-) | Metabolite | chebi:58339 | |
| Androstenedione | Metabolite | chebi:16422 | |
| NADP trianion | Metabolite | chebi:58349 | |
| estrone sulphate | Metabolite | chebi:17474 | |
| testosterone | Metabolite | chebi:17347 | |
| STS | GeneProduct | uniprot:P08842 | |
| SULT1E1 | Protein | uniprot:P49888 | |
| HSD17B1 | Protein | uniprot:P14061 | |
| HSD3B1 | Protein | uniprot:P14060 | |
| SLCO1B1 | Protein | uniprot:Q9Y6L6 | |
| SLCO1B3 | Protein | uniprot:Q9NPD5 | |
| HSD17B2 | Protein | uniprot:P37059 | |
| SLCO4A1 | Protein | uniprot:Q96BD0 | |
| ESR2 | Protein | uniprot:Q92731 | |
| CYP19A1 | Protein | uniprot:P11511 | |
| SLCO2B1 | Protein | uniprot:O94956 | |
| ESR1 | Protein | uniprot:P03372 | |
| HSD17B3 | Protein | uniprot:P37058 | |
| SLCO1A2 | Protein | uniprot:P46721 | |
| SLCO4C1 | Protein | uniprot:Q6ZQN7 |
References
- The sulfatase pathway for estrogen formation: targets for the treatment and diagnosis of hormone-associated tumors. Secky L, Svoboda M, Klameth L, Bajna E, Hamilton G, Zeillinger R, et al. J Drug Deliv. 2013;2013:957605. PubMed Europe PMC Scholia
- Clinical significance of the estrogen-modifying enzymes steroid sulfatase and estrogen sulfotransferase in epithelial ovarian cancer. Mungenast F, Aust S, Vergote I, Vanderstichele A, Sehouli J, Braicu E, et al. Oncol Lett. 2017 Jun;13(6):4047–54. PubMed Europe PMC Scholia