Abstract
Anaplastic thyroid cancer (ATC) is a rare, aggressive form of undifferentiated thyroid cancer, which exhibits rapid progression and is almost universally fatal. At least a subset of ATC is thought to arise from pre-existing well-differentiated thyroid cancer, most frequently papillary thyroid cancer (PTC). While PIK3CA mutations are rare in PTC, they are common in ATC and tend to co-occur with BRAF mutations. This provided the rationale for our study to identify the potential role of PIK3CA mutations in the progression from well-differentiated to undifferentiated thyroid cancer. We introduced PIK3CAE545K into the LAM1 PTC cell line, which carries a BRAFV600E mutation. In culture, the engineered cell line (LAM1:PIK3CAE545K) proliferated faster and demonstrated increased clonogenic potential relative to the parental line carrying an empty vector (LAM1EV). Both the LAM1EV and LAM1:PIK3CAE545K edited lines were implanted into hind flanks of athymic nude mice for in vivo determination of disease progression. While tumour weights and volumes were not significantly higher in LAM1:PIK3CAE545K mice, there was a decrease in expression of thyroid differentiation markers TTF-1, thyroglobulin, PAX8 and B-catenin, suggesting that introduction of PIK3CAE545K led to dedifferentiation in vivo. Collectively, this study provides evidence of a role for PIK3CAE545K in driving disease progression from a well-differentiated to an undifferentiated thyroid cancer; however, over-expression was not a determinant of an accelerated growth phenotype in ATC.Graphical
Highlights
Introduction and expression ofPIK3CAE545K in a papillary thyroid cancer BRAFV600E cell line leads to a dedifferentiated aggressive phenotypeNicole Pinto1,2, Kara M
As BRAF and PIK3CA mutations tended to co-occur in the anaplastic thyroid cancer (ATC) tumours, we hypothesized that the introduction of a PIK3CA mutation into a BRAF mutant papillary thyroid cancer (PTC) model would lead to increased aggressiveness and cellular dedifferentiation, mimicking a possible route of progression from PTC to ATC
Transfection of PIK3CAE545K into LAM1 cells promoted increased cellular proliferation, colony formation and cell migration To study the progression of a thyroid cancer from a welldifferentiated to an undifferentiated cell state, we started with the human PTC cell line LAM1, which contains the BRAFV600E mutation found in a significant fraction of ATCs [16]
Summary
Introduction and expression ofPIK3CAE545K in a papillary thyroid cancer BRAFV600E cell line leads to a dedifferentiated aggressive phenotypeNicole Pinto, Kara M. PIK3CAE545K in a papillary thyroid cancer BRAFV600E cell line leads to a dedifferentiated aggressive phenotype. One current model of thyroid carcinoma suggests that ATC arises from pre-existing well-differentiated thyroid cancer (WDTC) following accumulation of additional genetic events, producing a much more aggressive cancer [2]. As BRAF and PIK3CA mutations tended to co-occur in the ATC tumours, we hypothesized that the introduction of a PIK3CA mutation into a BRAF mutant PTC model would lead to increased aggressiveness and cellular dedifferentiation, mimicking a possible route of progression from PTC to ATC. PIK3CAE545K led to loss of well‐differentiated thyroid cancer markers in vivo Hind flank mouse models were generated using the LAM1EV and LAM1:PIK3CAE545K cell lines in order to determine whether there would be any differences in tumour growth, volume and metastatic capacity. While the parental LAMEV cell line expressed all four markers, the edited LAM1:PIK3CAE545K cells expressed significantly lower levels of all four markers, suggesting that the tumours expressing activated PIK3CA were more poorly differentiated (Fig. 4C, D)
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