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Thyroid Hormone Receptor Beta as Tumor Suppressor: Untapped Potential in Treatment and Diagnostics in Solid Tumors

Cole D. Davidson, Noelle E. Gillis, Frances E. Carr

2021Cancers27 citationsDOIOpen Access PDF

Abstract

There is compelling evidence that the nuclear receptor TRβ, a member of the thyroid hormone receptor (TR) family, is a tumor suppressor in thyroid, breast, and other solid tumors. Cell-based and animal studies reveal that the liganded TRβ induces apoptosis, reduces an aggressive phenotype, decreases stem cell populations, and slows tumor growth through modulation of a complex interplay of transcriptional networks. TRβ-driven tumor suppressive transcriptomic signatures include repression of known drivers of proliferation such as PI3K/Akt pathway, activation of novel signaling such as JAK1/STAT1, and metabolic reprogramming in both thyroid and breast cancers. The presence of TRβ is also correlated with a positive prognosis and response to therapeutics in BRCA+ and triple-negative breast cancers, respectively. Ligand activation of TRβ enhances sensitivity to chemotherapeutics. TRβ co-regulators and bromodomain-containing chromatin remodeling proteins are emergent therapeutic targets. This review considers TRβ as a potential biomolecular diagnostic and therapeutic target.

Topics & Concepts

Cancer researchThyroid hormone receptorThyroidThyroid hormone receptor betaNuclear receptorBreast cancerChromatin remodelingPI3K/AKT/mTOR pathwayTriple-negative breast cancerBiologyThyroid cancerTranscriptomeSignal transductionCancerEndocrinologyChromatinMedicineInternal medicineHormone receptorCell biologyTranscription factorGene expressionGeneticsDNAGeneEstrogen and related hormone effectsPI3K/AKT/mTOR signaling in cancerCancer-related Molecular Pathways
Thyroid Hormone Receptor Beta as Tumor Suppressor: Untapped Potential in Treatment and Diagnostics in Solid Tumors | Litcius