Microscale Thermophoresis as a Screening Tool to Predict Melanin Binding of Drugs.

Laura Hellinen,Marja Hagström,Anna-Kaisa Rimpelä,Arto Urtti,Mika Reinisalo,Sina Bahrpeyma

doi:10.3390/pharmaceutics12060554

Laura Hellinen, Marja Hagström + Show 4 more

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https://doi.org/10.3390/pharmaceutics12060554

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Abstract

Interactions between drugs and melanin pigment may have major impacts on pharmacokinetics. Therefore, melanin binding can modify the efficacy and toxicity of medications in ophthalmic and other disease of pigmented tissues, such as melanoma. As melanin is present in many pigmented tissues in the human body, investigation of pigment binding is relevant in drug discovery and development. Conventionally, melanin binding assays have been performed using an equilibrium binding study followed by chemical analytics, such as LC/MS. This approach is laborious, relatively slow, and limited to facilities with high performance quantitation instrumentation. We present here a screening of melanin binding with label-free microscale thermophoresis (MST) that utilizes the natural autofluorescence of melanin. We determined equilibrium dissociation constants (Kd) of 11 model compounds with melanin nanoparticles. MST categorized the compounds into extreme (chloroquine, penicillin G), high (papaverine, levofloxacin, terazosin), intermediate (timolol, nadolol, quinidine, propranolol), and low melanin binders (atropine, methotrexate, diclofenac) and displayed good correlation with binding parameter values obtained with the conventional binding study and LC/MS analytics. Further, correlation was seen between predicted melanin binding in human retinal pigment epithelium and choroid (RPE-choroid) and Kd values obtained with MST. This method represents a useful and fast approach for classification of compounds regarding melanin binding. Thus, the method can be utilized in various fields, including drug discovery, pharmacokinetics, and toxicology.

Highlights

Melanin is a pigment polymer that is present in various pigmented tissues in the human body
Our study suggests that Kd values obtained with microscale thermophoresis (MST) can be used to predict melanin binding in the human retinal pigment epithelium (RPE)-choroid
Binding parameters with either the traditional method or MST could not be determined for pazopanib due to its poor solubility, and Kd could not be determined for diclofenac, a drug with very weak melanin binding affinity [9,16]

Summary

Introduction

Melanin is a pigment polymer that is present in various pigmented tissues in the human body. The substantia nigra contains melanin, and it is present in many ocular tissues (including the iris, ciliary body, retinal pigment epithelium, choroid), inner ear, and skin [1]. Melanin is a macromolecule that is usually a mixture of two distinct polymers, namely black–brown eumelanin and red–yellow pheomelanin [3]. Both contain carboxylic groups and aromatic structures and they display autofluorescence [4] (for an overview of the eumelanin structure, see the abstract image). Multiphoton tomography combined with fluorescence lifetime imaging enabled the monitoring of melanin distribution in human skin [7]

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