Importance of cellular factors in the retention of melanin‐binding drugs in pigmented ocular tissues

Abstract

PurposeMany clinical drugs bind to melanin pigment in ocular tissues, affecting their pharmacokinetics in the eye. Drug‐melanin binding is frequently studied in vitro with isolated or synthetic melanin. The effect of other factors, such as permeability of melanosomal and plasma membrane, dissociation rate from melanin, melanin content of the tissue and ion trapping in melanosomes, are poorly understood. This study aims to probe the impact of the above‐mentioned factors together with melanin binding on drug retention in the pigmented retinal pigment epithelium (RPE) and choroid by kinetic simulations.MethodsWe simulated drug retention in the RPE‐choroid after intravitreal and systemic administration of a high and a moderate melanin‐binding drug using a bottom‐up approach with Stella software. The model parameters were based on realistic values from experimental studies and the model integrated these parameters together allowing the exploration of their interplay.ResultsThe high melanin binder was retained in the pigmented but not in the non‐pigmented RPE‐choroid after both intravitreal and systemic administration. Lowering the cell membrane permeability increased retention, but changes in dissociation rate from melanin had minimal effect. Ion trapping in melanosomes increased retention. The moderate melanin binder was not retained considerably in the pigmented RPE‐choroid, although the concentrations increased compared to the non‐pigmented RPE‐choroid. Lowering the permeability values and dissociation rate lengthened the retention in the pigmented RPE‐choroid.ConclusionsMelanin binding can accumulate high‐binding drugs into pigmented tissues, but other factors, including melanosomal and plasma membrane permeability, ion trapping in melanosomes, and dissociation rate from melanin, play an important role in drug distribution to pigmented ocular tissues.