# Computational screening and molecular dynamics reveal curcumin III and taxifolin as potential thyroid receptor modulators for hypothyroidism therapy

**Authors:** Babatunji Emmanuel Oyinloye, Adetola Ibukunoluwa Adewale, Shalom Oluwafunke Adeyemi, Omotola Martha Fajana, Olutosin Samuel Olusola, Oluwatoyin Mary Oyinloye, Aderonke Moyosola Ayeni, Ayodeji Benjamin Akawa, Olajumoke Tolulope Idowu, Austine Idowu Ibikunle, Folake Olayinka Olojo, Basiru Olaitan Ajiboye

PMC · DOI: 10.3389/fendo.2026.1727415 · Frontiers in Endocrinology · 2026-02-16

## TL;DR

This study uses computer modeling to find natural compounds that may help treat hypothyroidism better than current drugs.

## Contribution

Identifies curcumin III and taxifolin as potential thyroid receptor modulators with favorable drug properties.

## Key findings

- Curcumin III and taxifolin showed better ADMET properties and stability than levothyroxine.
- Lophenol and stigmastanol had high binding affinity but unfavorable ADMET properties.
- Molecular dynamics simulations confirmed the stability of curcumin III, lophenol, and taxifolin.

## Abstract

Hypothyroidism is a condition marked by inadequate thyroid hormone production. It is typically treated with Levothyroxine, which, despite its effectiveness, can cause adverse effects on metabolism and the cardiovascular system. In this study, an in silico approach was used to screen phytochemicals from Curcuma longa, Moringa oleifera, and Nigella sativa for their potential to activate the thyroid receptor. A total of 439 compounds were docked against Thyroid Receptor Beta 1 (TRβ1) and Thyrotropin-Releasing Hormone Receptor (TRHR) using AutoDock Vina. Among them, valoneic acid dilactone, curcumin III, taxifolin, luteolin, lophenol, and stigmastanol were identified from the three plants as performing better than others. These compounds were further evaluated with ADMET predictions and molecular dynamics simulations to assess their drug-like properties and stability. Lophenol from Nigella sativa showed the highest binding affinity to TRβ1 (-13.62 kcal/mol) with an inhibition constant of 0.1037 nM, surpassing levothyroxine (-11.60 kcal/mol and 6.63 nM). Also, stigmastanol from Nigella sativa showed the highest binding affinity to TRHR (-8.71 kcal/mol) with an inhibition constant of 415 nM, surpassing levothyroxine (-7.64 kcal/mol and 2530 nM). However, the two compounds exhibited some unfavourable ADMET properties that could be improved through formulation science. Curcumin III and taxifolin demonstrated favourable ADMET properties, including optimal solubility, lipophilicity, and polar surface area, suggesting good oral bioavailability. Molecular dynamics simulations were carried out using Desmond. The results revealed that curcumin III, lophenol, and taxifolin maintained strong stability, with RMSD values of 1.70 ± 0.005 Å, 2.17 ± 0.012 Å, and 2.50 ± 0.014 Å, respectively, for TRβ1, and RMSD values of 3.82 ± 0.014 Å, 4.29 ± 0.019 Å, and 3.31 ± 0.017 Å, respectively, for TRHR. This study identified Curcumin III from Curcuma longa and taxifolin from Moringa oleifera as promising natural compounds for the treatment of hypothyroidism. Further validation through in vitro, in vivo, and ex vivo studies is recommended.

## Linked entities

- **Chemicals:** curcumin III (PubChem CID 5315472), taxifolin (PubChem CID 471), valoneic acid dilactone (PubChem CID 10151874), luteolin (PubChem CID 5280445), lophenol (PubChem CID 160482), stigmastanol (PubChem CID 241572), levothyroxine (PubChem CID 5819)
- **Diseases:** hypothyroidism (MONDO:0005420)
- **Species:** Curcuma longa (taxon 136217), Moringa oleifera (taxon 3735), Nigella sativa (taxon 555479)

## Full-text entities

- **Genes:** TRH (thyrotropin releasing hormone) [NCBI Gene 7200] {aka Pro-TRH, TRF}
- **Diseases:** cold intolerance (MESH:D000067390), deficiency of iodine (MESH:D003409), insomnia (MESH:D007319), muscle weakness (MESH:D018908), impaired cardiac output (MESH:D002303), diabetes (MESH:D003920), infertility (MESH:D007246), cancer (MESH:D009369), cough (MESH:D003371), lethargy (MESH:D053609), thyroxine (MESH:C564049), OI (OMIM:613848), asthma (MESH:D001249), osteoporosis (MESH:D010024), anxiety (MESH:D001007), inflammatory (MESH:D007249), arthritis (MESH:D001168), headache (MESH:D006261), hypertension (MESH:D006973), Hypothyroidism (MESH:D007037), deficiency of (MESH:D007153), dyslipidemia (MESH:D050171), underactive thyroid (MESH:D000077295), under-active thyroid (MESH:D013966), neuromuscular dysfunction (MESH:D009468), panic attack (MESH:D016584), Hashimoto's disease (MESH:D050031), cognitive impairment (MESH:D003072), weight gain (MESH:D015430), thyroid dysfunctions (MESH:D013959), hair loss (MESH:D000505), autoimmune disorder (MESH:D001327), hoarse voice (MESH:D006685), depression (MESH:D003866), fatigue (MESH:D005221), low libido (MESH:D009800), constipation (MESH:D003248)
- **Chemicals:** Curcumin III (MESH:C475935), stigmastanol (MESH:C021255), Amino acid (MESH:D000596), T1 (MESH:C103828), oils (MESH:D009821), Levothyroxine (MESH:D013974), 1H5 (-), curcumin (MESH:D003474), salt (MESH:D012492), sodium (MESH:D012964), oxygen (MESH:D010100), Taxifolin (MESH:C003377), Lophenol (MESH:C008421), luteolin (MESH:D047311), T3 (MESH:D014284), Hydrogen (MESH:D006859), glucose (MESH:D005947), chloride (MESH:D002712), curcuminoids (MESH:D036381), water (MESH:D014867), lipid (MESH:D008055), iodine (MESH:D007455)
- **Species:** Homo sapiens (human, species) [taxon 9606], Moringa oleifera (horseradish tree, species) [taxon 3735], Curcuma longa (turmeric, species) [taxon 136217], Nigella sativa (black-caraway, species) [taxon 555479]
- **Mutations:** X 60 X, X 10 X
- **Cell lines:** 7X1T — Mus musculus (Mouse), Spontaneously immortalized cell line (CVCL_4E63)

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12950546/full.md

## References

70 references — full list in the complete paper: https://tomesphere.com/paper/PMC12950546/full.md

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Source: https://tomesphere.com/paper/PMC12950546