Browsing by Subject "Papillary thyroid cancer"
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Item Open Access Are Higher Exposures to Flame Retardant Chemicals Associated with Papillary Thyroid Cancer?(2019-04-26) Xia, QianyiPapillary thyroid cancer (PTC) occurrence has been significantly increasing throughout the world, and particularly in the US, for several decades. At the same time the use of flame retardants (FR) chemicals has increased, as reflected by increasing concentrations in human tissues. In this study we sought to determine whether flame retardants exposures are higher in individuals recently diagnosed with papillary thyroid cancer relative to a healthy population. The study group included people diagnosed with PTC at the Duke Cancer Center, and controls were matched by age and sex who are recruited from the Duke Health System. Flame retardants (FRs) exposure were estimated from silicone wristband worn for 7 days by participants, which have been validated against traditional biomarkers of exposure. Results indicated that both obesity, and higher levels of the FR Tris (1,3-dichloro-isopropyl) phosphate (TDCPP), were related to increased odds of being a papillary thyroid cancer patient relative to a control. In adjusted statistical models, each log unit increase in TDCPPs on the wristband was found to be associated with a 57% increase in being a case vs a control, while each log unit increase in BMI will result in a 7.1% increase. Therefore, these results indicated that some FRs exposure may be associated with increased PTC incidence.Item Open Access Exposure to flame retardant chemicals and occurrence and severity of papillary thyroid cancer: A case-control study.(Environ Int, 2017-10) Hoffman, Kate; Lorenzo, Amelia; Butt, Craig M; Hammel, Stephanie C; Henderson, Brittany Bohinc; Roman, Sanziana A; Scheri, Randall P; Stapleton, Heather M; Sosa, Julie AnnBACKGROUND: Thyroid cancer is the fastest increasing cancer in the U.S., and papillary thyroid cancer (PTC) accounts for >80% of incident cases. Increasing exposure to flame retardant chemicals (FRs) has raised concerns about their possible role in this 'epidemic'. The current study was designed to test the hypothesis that higher exposure to FRs is associated with increased odds of PTC. METHODS: PTC patients at the Duke Cancer Institute were approached and invited to participate. Age- and gender-matched controls were recruited from the Duke Health System and surrounding communities. Because suitable biomarkers of long-term exposure do not exist for many common FRs, and levels of FRs in dust are significantly correlated with exposure, relationships between FRs in household dust and PTC were evaluated in addition to available biomarkers. PTC status, measures of aggressiveness (e.g. tumor size) and BRAF V600E mutation were included as outcomes. RESULTS: Higher levels of some FRs, particularly decabromodiphenyl ether (BDE-209) and tris(2-chloroethyl) phosphate in dust, were associated with increased odds of PTC. Participants with dust BDE-209 concentrations above the median level were 2.29 times as likely to have PTC [95% confidence interval: 1.03, 5.08] compared to those with low BDE-209 concentrations. Associations varied based on tumor aggressiveness and mutation status; TCEP was more strongly associated with larger, more aggressive tumors and BDE-209 was associated with smaller, less aggressive tumors. CONCLUSIONS: Taken together, these results suggest exposure to FRs in the home, particularly BDE-209 and TCEP, may be associated with PTC occurrence and severity, and warrant further study.Item Open Access Leveraging copper chelators as targeted therapy for BRAFV600E mutant thyroid cancer(2018) Xu, MengMengThe incidence of thyroid cancer, and in particular papillary thyroid cancer (PTC), is rising faster than that of any other malignancy in the United States. Thyroid cancer is now the most common endocrine cancer and the fifth most common cancer in women. While most thyroid cancers are treated effectively with surgical resection and radioiodine therapy, survival drops precipitously in metastatic or radioiodine-resistant disease. 60% of papillary thyroid cancers (PTC) have an oncogenic V600E mutation in the kinase BRAF, which leads to a constitutively active and oncogenic kinase. This mutation has been associated with as well as a 2.14-fold increase in recurrent/persistent disease. Excitingly, inhibitors against this mutant kinase or its substrates, the MEK1/2 kinases, can prolong progression free survival or stabilize disease in radioiodine-refractory thyroid cancer patients. However, the indolent nature of PTC may be a challenge to the clinical adaption of these inhibitors, as the financial and physical toxicities of these treatments may be amplified over the prolonged time-course typical of PTC. MEK1/2 require copper (Cu) for kinase activity and can be inhibited with the well-tolerated and economical Cu chelator tetrathiomolybdate (TM). Cu chelators have been in use for decades in patients with Wilson’s Disease, a disease of Cu accumulation. Unlike current BRAF and MEK inhibitors, Cu chelators can be well tolerated for decades with few side effects, and thus may find use in long-term inhibition of BRAFV600E signaling in PTC.
Here I test the ability of Cu chelator TM to inhibit tumor growth in BRAFV600E-mutant PTC. TM inhibited MEK1/2 kinase activity and transformed growth of human BRAFV600E-mutant PTC cells as well as or more potently than standard-of-care drugs. Consistent with TM deriving its antineoplastic activity by inhibiting MEK1/2, expression of activated ERK2, a substrate of MEK1/2, overcame the ability of TM to suppress growth of BRAFV600E-mutant PTC cells. TM was also effective in a genetically engineered mouse model of BrafV600E-mutant PTC; oral TM reduced tumor burden as well as a clinical BRAF inhibitor. This in vivo effect was attributed to a reduction of phospho-Erk1/2 signaling in the tumors. Additionally, long-term maintenance therapy using TM after cessation of a clinical BRAF inhibitor reduced tumor volume in the same mouse model. Genetic reduction of the Cu transporter CTR1 in developing tumors also trended towards a survival advantage in mice with BrafV600E-mutant PTC. Finally, TM also enhanced the antineoplastic activity of standard of care clinical BBRAF inhibitor drugs. These results support the clinical evaluation of Cu chelation as targeted therapy for BrafV600E-mutant PTC and suggests three possible avenues for clinical exploration: i) as a less toxic monotherapy for BrafV600E-mutant PTC, ii) as long-term maintenance therapy after initial treatment, and iii) as a combination-therapy amplifying the antineoplastic effects of other treatment modalities.