Browsing by Subject "eye drops"
Now showing 1 - 2 of 2
- Results Per Page
- Sort Options
Item Proteomics-Based Retinal Target Engagement Analysis and Retina-Targeted Delivery of 17beta-Estradiol by the DHED Prodrug for Ocular Neurotherapy in Males(MDPI, 2021-09-02) Prokai-Tatrai, Katalin; Zaman, Khadiza; Nguyen, Vien; De La Cruz, Daniel L.; Prokai, LaszloWe examined the impact of 17beta-estradiol (E2) eye drops on the modulation of the proteome profile in the male rat retina. With discovery-driven proteomics, we have identified proteins that were regulated by our treatment. These proteins were assembled to several bioinformatics-based networks implicating E2's beneficial effects on the male rat retina in a broad context of ocular neuroprotection including the maintenance of retinal homeostasis, facilitation of efficient disposal of damaged proteins, and mitochondrial respiratory chain biogenesis. We have also shown for the first time that the hormone's beneficial effects on the male retina can be constrained to this target site by treatment with the bioprecursor prodrug, DHED. A large concentration of E2 was produced after DHED eye drops not only in male rat retinae but also in those of rabbits. However, DHED treatment did not increase circulating E2 levels, thereby ensuring therapeutic safety in males. Targeted proteomics focusing on selected biomarkers of E2's target engagement further confirmed the prodrug's metabolism to E2 in the male retina and indicated that the retinal impact of DHED treatment was identical to that of the direct E2 treatment. Altogether, our study shows the potential of topical DHED therapy for an efficacious and safe protection of the male retina without the unwanted hormonal side-effects associated with current estrogen therapies.Item Retina-Targeted Delivery of 17beta-Estradiol by the Topically Applied DHED Prodrug(MDPI, 2020-05-16) Prokai-Tatrai, Katalin; Nguyen, Vien; De La Cruz, Daniel L.; Guerra, Rebecca; Zaman, Khadiza; Rahlouni, Fatima; Prokai, LaszloThe purpose of this study was to explore retina-targeted delivery of 17beta-estradiol (E2), a powerful neuroprotectant, by its bioprecursor prodrug 10beta,17beta-dihydroxyestra-1,4-dien-3-one (DHED) administered as eye drops in animal models. Compared to the parent hormone, DHED displayed increased transcorneal flux ex vivo both with and without the presence of 2-hydroxypropyl-beta-cyclodextrin used as a penetration-enhancing excipient in rat, rabbit, and pig. In vitro, the prodrug also showed facile bioactivation to E2 in the retina but not in the cornea. After topical administration to rats and rabbits, peak DHED-derived E2 concentrations reached 13 +/- 5 ng/g and 18 +/- 7 ng/g in the retina of female rats and rabbits, respectively. However, the prodrug remained inert in the rest of the body and, therefore, did not cause increase in circulating hormone concentration, as well as wet uterine and anterior pituitary weights as typical markers of E2's endocrine impact. Altogether, our studies presented here have demonstrated the premise of topical retina-selective estrogen therapy by the DHED prodrug approach for the first time and provide compelling support for further investigation into the full potential of DHED for an efficacious and safe ocular neurotherapy.