Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:Q16481 (Aromatase protein)
 6 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tissue-specific aromatase production is significant in breast cancer and osteoporosis. Prostatic aromatase expression has been equivocal, and any local actions of estrogens are considered secondary to centrally mediated androgen suppression. We examine local aromatase expression and estrogen biosynthesis in the human prostate. Pure samples of stroma and epithelia from biopsy tissues were isolated by laser capture microdissection. Aromatase protein was detected by Western blot analysis, mRNA by RT-PCR, and enzyme activity by tritiated water assay, whereas promoter use was examined by real-time PCR. In nonmalignant prostate tissues, aromatase mRNA expression was absent from epithelium, but did localize to stroma. Presence of protein was confirmed, and expression was driven by promoter PII. Aromatase was expressed and active in LNCaP, PC3, and DU145 cells in addition to microdissected epithelial tumor cells; benign prostate epithelial cells showed no expression or activity. Promoter use in LNCaP and microdissected tumor cells was via PII, whereas PC3 and DU145 cells used promoter I.4. This study demonstrates local estrogen biosynthesis in prostate-induced aromatase gene expression in malignancy and potential alteration of aromatase promoter use with disease progression. These data provide a basis for continued investigation of local estrogen production and its potential role in prostate disease.
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PMID:Local aromatase expression in human prostate is altered in malignancy. 1512 75

Breast cancer is a frequently reported cancer in women all over the world. Several methods available to cure the breast cancer based on stage. This study focused on chemoprevention drugs of Aromatase, a potential target in breast cancer. Natural variants of Aromatase are very common; they have been collected and modeled, optimized the energy of mutated Aromatase protein. Reversible (Anastrozole) and irreversible (Exemestane) Aromatase inhibitors are selected and performed molecular docking studies of each drug against each variant to see the binding affinity impact on protein variant and drugs. In this comparative study, Anastrozole, a cumene derivative showed more binding affinity and Diethylstilbestrol showed weak binding affinity against among all drugs. The comparative molecular docking revealed that the binding affinity between drug and Aromatase protein variant is imprecise but fairly close; therefore the protein variants of Aromatase can be conceived to be equal for chemoprevention of breast cancer therapy.
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PMID:Impact of Aromatase protein variants and drug interactions in breast cancer: a molecular docking approach. 2271 91