The biology of thyroid oncogenesis

Value of Molecular Tests in Cytologically Indeterminate Lesions of Thyroid

CONTEXT

Fine-needle aspiration has been the initial step in the workup of thyroid nodular lesions and has successfully reduced the number of unnecessary surgeries and improved preoperative malignancy detection. However, up to one-third of cases fall in the diagnostically "indeterminate group," which poses a patient-management challenge. objective: To review the characteristics of molecular tests useful for stratifying the malignancy risk of indeterminate thyroid lesions, including their advantages and limitations.

DATA SOURCES

PubMed.

CONCLUSIONS

Molecular tests are useful for triage of indeterminate thyroid nodules initially diagnosed by using fine-needle aspiration. Immunocytochemistry is readily available with the shortest turnaround time among the molecular tests but suffers from poor reproducibility and low interpretation concordance. Gene mutation analysis is superior in detecting malignancies as a rule-in test, despite low specificity. Next-generation sequencing seems promising but needs more validations before widespread use. Gene expression profiling is more suitable for detecting benign lesions as a rule-out test to avoid unnecessary surgeries but is not reliable in excluding malignancies. MicroRNA profiling has great potential for both risk stratification and predicting prognosis but is limited by significant variations in sensitivity and specificity. Although many questions still need to be answered, taken together, molecular tests are a promising option for classifying cytologically indeterminate thyroid nodular lesions.

Radioiodine-remnant ablation in low-risk differentiated thyroid cancer: pros

Differentiated thyroid carcinomas are typically treated with total thyroidectomy as initial therapy. Subsequent radioactive iodine (RAI) ablation destroys post-surgical thyroid remnants, can additionally provide adjuvant therapy of residual and metastatic thyroid cancers, and enhances the sensitivity and specificity of further diagnostic studies. There is current controversy regarding whether a large number of patients, broadly considered to have "low-risk" disease, should be provided RAI ablation. This is consequent to over-reliance on short-term studies, under-appreciation of the value of RAI remnant ablation, and inflation of the side effects of RAI therapy. A balanced assessment of all of these issues provides justification to utilize post-surgical radioiodine ablation, even in cases that are considered low risk on the basis of surgical findings.

Molecular diagnosis for indeterminate thyroid nodules on fine needle aspiration: advances and limitations

Indeterminate thyroid lesions are diagnosed in up to 30% of fine needle aspirations. These nodules harbor malignancy in more than 25% of cases, and hemithyroidectomy or total thyroidectomy has therefore been advocated in order to achieve definitive diagnosis. Recently, many molecular markers have been investigated in an attempt to increase diagnostic accuracy of indeterminate fine needle aspiration cytology and thereby avoid unnecessary complications and costs associated with thyroid surgery. Somatic mutation testing, mRNA gene expression platforms, protein immunocytochemistry and miRNA panels have improved the diagnostic accuracy of indeterminate thyroid nodules, and although no test is perfectly accurate, in the authors' opinion, these methods will most certainly become an important part of the diagnostic tools for clinicians and cytopathologists in the future.

Quantitative high-throughput drug screening identifies novel classes of drugs with anticancer activity in thyroid cancer cells: opportunities for repurposing

CONTEXT

Despite increased understanding of the pathogenesis and targets for thyroid cancer and other cancers, developing a new anticancer chemical agent remains an expensive and long process. An alternative approach is the exploitation of clinically used and/or bioactive compounds.

OBJECTIVE

Our objective was to identify agents with an anticancer effect in thyroid cancer cell lines using quantitative high-throughput screening (qHTS).

DESIGN

We used the newly assembled National Institutes of Health Chemical Genomic Center's pharmaceutical collection, which contains 2816 clinically approved drugs and bioactive compounds to perform qHTS.

RESULTS

Multiple agents, across a variety of therapeutic categories and with different modes of action, were found to have an antiproliferative effect. We found the following therapeutic categories were the most enriched categories with antiproliferative activity: cardiotonic and antiobesity agents. Sixteen agents had an efficacy of greater than 60% and a 50% inhibitory concentration (IC50) in the nanomolar range. We validated the results of the qHTS using two agents (bortezomib and ouabain) in additional cell lines representing different histological subtypes of thyroid cancer and with different mutations (BRAF V600E, RET/PTC1, p53, PTEN). Both agents induced apoptosis, and ouabain also caused cell cycle arrest.

CONCLUSIONS

To our knowledge, this is the first study to use qHTS of a large drug library to identify candidate drugs for anticancer therapy. Our results indicate such a screening approach can lead to the discovery of novel agents in different therapeutic categories and drugs with nonclassic chemotherapy mode of action. Our approach could lead to drug repurposing and accelerate clinical trials of compounds with well-established pharmacokinetics and toxicity profiles.

The rearranged during transfection/papillary thyroid carcinoma tyrosine kinase is an estrogen-dependent gene required for the growth of estrogen receptor positive breast cancer cells

The rearranged during transfection/papillary thyroid carcinoma (RET/PTC) tyrosine kinase is an oncogene implicated in the tumorigenesis of thyroid cancer. Recent studies by us and others have shown that RET/PTC kinase expression is induced by estrogen in breast cancer cells. Due to the critical involvement of estrogen-regulated genes in the pathogenesis of breast cancer, we investigated the expression, regulation, and function of RET/PTC kinase in breast cancer cells. We found that RET/PTC kinase expression correlates with estrogen receptor (ER) expression in breast cancer cells and tumor specimens, and that RET/PTC kinase expression is associated with a poor prognosis in ER-positive breast cancer patients. We found that estrogen rapidly induces RET/PTC kinase expression in an ER-dependent manner in breast cancer cells and that this induction is through a transcriptional regulatory mechanism. Using reporter assays, small interfering RNA (siRNA) assays, and chromatin immunoprecipitation (ChIP) assays, we demonstrated the necessity of crosstalk between ER and the forkhead box A1 (FOXA1) transcription factor in regulating RET/PTC kinase expression. In functional studies, increased expression of RET/PTC kinase induced by estrogen stimulation resulted in elevated phosphorylation of multiple downstream kinase signaling pathways. Conversely, knockdown of RET/PTC expression was associated with the inhibition of these same kinase signaling pathways, and, in fact, decreased the stimulatory effect of estrogen on the proliferation of ER-positive breast cancer cells. These results demonstrate a novel pathway of ER and FOXA1 transcription factor crosstalk in regulating RET/PTC kinase expression, and demonstrate that RET/PTC kinase is a critical regulator for the proliferation of ER-positive breast cancer cells. Taken together, our study suggests that RET/PTC kinase may serve as a novel prognostic biomarker and therapeutic target for prevention and treatment of ER-positive breast cancer.