Potent aromatase inhibitors through fungal transformation of anti-cancer drug testolactone: an approach towards treatment of breast cancer

Inventors

• Muhammad Iqbal Choudhary · Karachi, PK
• Atia-tul Wahab · Karachi, PK
• Mahwish Siddiqui · Karachi, PK
• Nimra Naveed Shaikh · Karachi, PK
• Sammer Yousuf · Karachi, PK
• Atta-ur Rahman · Karachi, PK

Key dates

Classification

• Technology area (CPC C)Chemistry; Metallurgy
• CPC primaryC07J73/001
• WIPO fieldOrganic fine chemistry
• WIPO sectorChemistry

Abstract

Biotransformation of an aromatase inhibitor, testolactone (1), yielded four metabolites, 7β-hydroxy-3-oxo-13,17-seco-5β-androsta-1-eno-17,13α-lactone (2), 3α,11β-dihydroxy-13,17-seco-5β-androsta-17,13α-lactone (3), 4β,5β-epoxy-3β-hydroxy-13,17-secoandrosta-1-eno-17,13α-lactone (4), and 4β,5β-epoxy-3α-hydroxy-13,17-secoandrosta-1-eno-17,13α-lactone (5). Aromatase (estrogen synthase) involves in the synthesis of estrogen, and promotes the growth of breast cancerous cells. It is a key target for the discovery of chemotherapeutic agents against ER+(estrogen-positive) breast-cancers. Metabolites 2 (IC50=8.63±0.402 nM), and 3 (IC50=9.23±1.31 nM) were identified as potent inhibitors against human aromatase enzyme, in comparison to 1 (IC50=0.716±0.031 μM), and the standard aromatase inhibiting drug, exemestane (IC50=0.232±0.031 μM). Derivatives 4 (IC50=10.37±0.50 μM) and 5 (IC50=0.82±0.059 μM) also showed a good inhibition against aromatase enzyme. Therefore, metabolites 2-5 have the potential to serve as therapeutic agents against ER+ (estrogen-positive) breast-cancers.