LAUSR

e13027 Background: Fulvestrant, a potent, selective estrogen receptor degrader, is a primary drug of choice for treating advanced metastatic hormone receptor-positive breast cancer in postmenopausal women following anti-estrogen therapy. However, the existing therapy limits to inconvenient intramuscular injections due to low solubility, weak permeation, high metabolism, and poor pharmacokinetics profile. Additionally, it takes 30 days to reach maximal steady-state plasma concentration, limiting clinical efficacy. To overcome these issues, we modulated physicochemical properties of fulvestrant, enabling its oral delivery to improve bioavailability. Methods: Structurally diverse pro-moieties were appended on fulvestrant to improve solubility and ADME profile. Thermodynamic solubility, plasma/liver microsomal stability, and Caco-2 permeability studies were performed to identify lead molecules. Pharmacokinetic studies were performed for selected molecules in mice. Antitumor activity of once-daily oral dose of three molecules was evaluated in female nude mice using the MCF-7 xenograft model. The efficacy of lead molecules was compared with subcutaneously administered faslodex in terms of percentage tumor growth inhibition. Results: Several prodrugs of fulvestrant were synthesized and evaluated for their intrinsic properties suitable for increasing bioavailability of fulvestrant. Remarkable improvements (̃500 to 2000-fold increase) were achieved in solubility and permeability. The PoC established an increase in systemic plasma exposure of fulvestrant upon oral administration of prodrugs in mice with enhanced bioavailability (1.5-8.7-fold) as compared to fulvestrant given subcutaneously (Table). Herewith, we report the identification of KSHN001022, KSHN001075, and KSHN001126, the prodrugs of fulvestrant, which showed enhanced efficacy with better tumor volume reduction (̃48-88% regression in tumor volume) as compared to that of fulvestrant (78%) in the estrogen-dependent MCF-7 xenograft model. Conclusions: KSHN001 lead candidates demonstrated significantly higher bioavailability, hence, provides a novel strategy to deliver fulvestrant orally to pursue the potential benefits in patients with advanced metastatic disease.[Table: see text]