Alexa Magner scite author profile

Estrogen receptor alpha (ERα) and estrogen receptor beta (ERβ) belong to a superfamily of nuclear receptors called steroid hormone receptors, which, upon binding ligand, dimerize and translocate to the nucleus where they activate or repress the transcription of a large number of genes, thus modulating critical physiologic processes. ERβ has multiple isoforms that show differing association with prognosis. Expression levels of the full length ERβ1 isoform are often lower in aggressive cancers as compared to normal tissue. High ERβ1 expression is associated with improved overall survival in women with breast cancer. The promise of ERβ activation, as a potential targeted therapy, is based on concurrent activation of multiple tumor suppressor pathways with few side effects compared to chemotherapy. Thus, ERβ is a nuclear receptor with broad-spectrum tumor suppressor activity, which could serve as a potential treatment target in a variety of human cancers including breast cancer. Further development of highly selective agonists that lack ERα agonist activity, will be necessary to fully harness the potential of ERβ.

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Comparing intraoperative parathyroid identification based on surgeon experience versus near infrared autofluorescence detection – A surgeon-blinded multi-centric study

Thomas

Solórzano

Baregamian

et al. 2021

The American Journal of Surgery

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Deletion of Rap1b, but not Rap1a or Epac1, Reduces Protein Kinase A–Mediated Thyroid Cancer

Huk

Ashtekar

Magner

et al. 2018

Thyroid

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Alterations in Sod2-Induced Oxidative Stress Affect Endocrine Cancer Progression

Ashtekar

Huk

Magner

et al. 2018

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Sdhd ablation promotes thyroid tumorigenesis by inducing a stem-like phenotype

Ashtekar

Huk

Magner

et al. 2017

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Mutations in genes encoding enzymes in the tricarboxylic acid cycle (TCA, also known as the Krebs cycle) have been implicated as causative genetic lesions in a number of human cancers, including renal cell cancers, glioblastomas, and pheochromocytomas. In recent studies, missense mutations in the Succinate dehydrogenase (SDH) complex have also been proposed to cause differentiated thyroid cancer. In order to gain mechanistic insight into this process, we generated mice lacking the SDH subunit D (SDHD) in the thyroid. We report that these mice develop enlarged thyroid glands with follicle hypercellularity and increased proliferation. In vitro, human thyroid cell lines with knockdown of SDHD exhibit an enhanced migratory capability, despite no change in proliferative capacity. Interestingly, these cells acquire stem-like features which are also observed in the mouse tumors. The stem-like characteristics are reversed by α-ketoglutarate, suggesting that SDH-associated tumorigenesis results from dedifferentiation driven by an imbalance in cellular metabolites of the TCA cycle. The results of this study reveal a metabolic vulnerability for potential future treatment of SDH-associated neoplasia.

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Alexa Magner

Estrogen Receptor Beta (ERβ): A Ligand Activated Tumor Suppressor

Comparing intraoperative parathyroid identification based on surgeon experience versus near infrared autofluorescence detection – A surgeon-blinded multi-centric study

Deletion of Rap1b, but not Rap1a or Epac1, Reduces Protein Kinase A–Mediated Thyroid Cancer

Alterations in Sod2-Induced Oxidative Stress Affect Endocrine Cancer Progression

Sdhd ablation promotes thyroid tumorigenesis by inducing a stem-like phenotype

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