Exploring the Interactions of Antihistamine with Retinoic Acid Receptor Beta (RARB) by Molecular Dynamics Simulations and Genome-wide Meta-analysis

Overview

Journal J Mol Graph Model

Date 2023 Jun 18

PMID 37331258

Authors

Minjae J Kim

Vishnutheertha Kulkarni

Micah A Goode

Torunn E Sivesind

Affiliations

Soon will be listed here.

Abstract

Kaposi sarcoma (KS) is one of the most common AIDS-related malignant neoplasms, which can leave lesions on the skin among HIV patients. These lesions can be treated with 9-cis-retinoic acid (9-cis-RA), an endogenous ligand of retinoic acid receptors that has been FDA-approved for treatment of KS. However, topical application of 9-cis-RA can induce several unpleasant side effects, like headache, hyperlipidemia, and nausea. Hence, alternative therapeutics with less side effects are desirable. There are case reports associating over-the-counter antihistamine usage with regression of KS. Antihistamines competitively bind to H1 receptor and block the action of histamine, best known for being released in response to allergens. Furthermore, there are already dozens of antihistamines that are FDA-approved with less side effects than 9-cis-RA. This led our team to conduct a series of in-silico assays to determine whether antihistamines can activate retinoic acid receptors. First, we utilized high-throughput virtual screening and molecular dynamics simulations to model high-affinity interactions between antihistamines and retinoic acid receptor beta (RARβ). We then performed systems genetics analysis to identify a genetic association between H1 receptor itself and molecular pathways involved in KS. Together, these findings advocate for exploration of antihistamines against KS, starting with our two promising hit compounds, bepotastine and hydroxyzine, for experimental validation study in the future.

Citing Articles

Utilizing systems genetics to enhance understanding into molecular targets of skin cancer.

Kim M, Kulkarni V, Goode M, Hernandez J, Graham S, Sivesind T Exp Dermatol. 2024; 33(3):e15043.

PMID: 38459629 PMC: 11018140. DOI: 10.1111/exd.15043.

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