The Thyroid Hormone Receptor-RUNX2 Axis: A Novel Tumor Suppressive Pathway in Breast Cancer

Bolf, Eric L.; Gillis, Noelle E.; Barnum, Michael S; Beaudet, Caitlin M; Yu, Grace; Tomczak, Jennifer A.; Stein, Janet L.; Lian, Jane B.; Carr, Frances E.

doi:10.1007/s12672-019-00373-2

Cited by 17 publications

(11 citation statements)

References 53 publications

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“…8,9 Although the mechanisms by which TRβ represses tumorigenesis are not well-defined, TRβ is known to regulate several pathways that are drivers of cancer, including repression of PI3K signaling and repression of RUNX2 expression. 2,3,5,10,11 Our recent transcriptomic analysis in anaplastic thyroid cancer (ATC) cell line revealed TRβ functions to regulate the cancer stem cell population and induction of the JAK1/STAT1 pathway. 12 Prior studies have demonstrated that TRβ exerts a strong antitumor effect in breast cancer cells.…”

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confidence: 99%

Common tumor‐suppressive signaling of thyroid hormone receptor beta in breast and thyroid cancer cells

Bolf

Gillis

Davidson

et al. 2021

Molecular Carcinogenesis

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The thyroid hormone receptor beta (TRβ) is a tumor suppressor in multiple types of solid tumors, most prominently in breast and thyroid cancer. An increased understanding of the molecular mechanisms by which TRβ abrogates tumorigenesis will aid in understanding the core tumor-suppressive functions of TRβ. Here, we restored TRβ expression in the MDA-MB-468 basal-like breast cancer cell line and perform RNA-sequencing to determine the TRβ-mediated changes in gene expression and associated signaling pathways. The TRβ expressing MDA-MB-468 cells exhibit a more epithelial character as determined by principle component analysis-based iterative PAM50 subtyping score and through reduced expression of mesenchymal cytokeratins. The epithelial to mesenchymal transition pathway is also significantly reduced. The MDA-MB-468 data set was further compared with RNA sequencing results from TRβ expressing thyroid cancer cell line SW1736 to determine which genes are TRβ correspondingly regulated across both cell types. Several pathways including lipid metabolism and chromatin remodeling processes were observed to be altered in the shared gene set. These data provide novel insights into the molecular mechanisms by which TRβ suppresses breast tumorigenesis.

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confidence: 99%

Common tumor‐suppressive signaling of thyroid hormone receptor beta in breast and thyroid cancer cells

Bolf

Gillis

Davidson

et al. 2021

Molecular Carcinogenesis

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“…In brief, the work on the HECT E3s expands our understanding of the pathogenesis of hematological diseases, providing novel effectors, whose biological significance and therapeutic interest might be explored in the future, especially considering the development of precision oncology [100][101][102]. This field has opened several novel opportunities, thanks to new algorithms [103][104][105] and artificial intelligence [106], modernizing the field of precision oncology in general [107][108][109] as well as in specific cancers [110][111][112][113]. From this overview, it appears clear that further studies are needed to corroborate the implications of HECT-type E3s in leukemogenesis, to understand the molecular basis of their oncogenic function in hematological disorders, as well as to identify their relevant substrates and regulators.…”

Section: Discussionmentioning

confidence: 99%

Emerging roles of the HECT-type E3 ubiquitin ligases in hematological malignancies

et al. 2021

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Ubiquitination-mediated proteolysis or regulation of proteins, ultimately executed by E3 ubiquitin ligases, control a wide array of cellular processes, including transcription, cell cycle, autophagy and apoptotic cell death. HECT-type E3 ubiquitin ligases can be distinguished from other subfamilies of E3 ubiquitin ligases because they have a C-terminal HECT domain that directly catalyzes the covalent attachment of ubiquitin to their substrate proteins. Deregulation of HECT-type E3-mediated ubiquitination plays a prominent role in cancer development and chemoresistance. Several members of this subfamily are indeed frequently deregulated in human cancers as a result of genetic mutations and altered expression or activity. HECT-type E3s contribute to tumorigenesis by regulating the ubiquitination rate of substrates that function as either tumour suppressors or oncogenes. While the pathological roles of the HECT family members in solid tumors are quite well established, their contribution to the pathogenesis of hematological malignancies has only recently emerged. This review aims to provide a comprehensive overview of the involvement of the HECT-type E3s in leukemogenesis.

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“…T3 reduced RUNX2 expression in normal and ATC cells, and TRβ knockdown increased RUNX2, increasing the expression of MMP2, MMP13, cyclin D1, osteopontin (OPN), and cadherin 6. Transfected TRβ also repressed RUNX2 and EMT markers in MDA-MB-231 cells; conversely, TRβ-knockdown in breast epithelial-like MCF10A cells caused an increase in RUNX2 and EMT markers [74]. López-Mateo et al confirmed a decrease in EMT genes such as vimentin and snail family transcriptional repressor 2 (SLUG) in estrogen receptor alpha positive (ER⍺ + ) breast cancer cells [18].…”

Section: Trβ Inhibits Epithelial-mesenchymal Transitionmentioning

confidence: 97%

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

Davidson¹,

Gillis²,

Carr³

2021

Preprint

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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 and activation of novel signaling (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.

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The Thyroid Hormone Receptor-RUNX2 Axis: A Novel Tumor Suppressive Pathway in Breast Cancer

Cited by 17 publications

References 53 publications

Common tumor‐suppressive signaling of thyroid hormone receptor beta in breast and thyroid cancer cells

Common tumor‐suppressive signaling of thyroid hormone receptor beta in breast and thyroid cancer cells

Emerging roles of the HECT-type E3 ubiquitin ligases in hematological malignancies

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

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