Akt deficiency delays tumor progression, vascular invasion, and distant metastases in a murine model of thyroid cancer

Akt activation is common in progressive thyroid cancer. In breast cancer, Akt1 induced primary cancer growth, but is reported to inhibit metastasis in vivo in several model systems. In contrast, clinical and in vitro studies suggest a metastasis-promoting role for Akt1 in thyroid cancer. The goal of this study was to determine the functional role of Akt1 in thyroid cancer growth and metastatic progression in vivo using thyroid hormone receptor β(PV/PV) knock-in (PV) mice which develop metastatic thyroid cancer. We crossed Akt1(-/-) and PV mice and compared tumor development, local progression, metastasis, and histology in TRβ(PV/PV)/Akt1(+/+) (PVPV-Akt1WT) and TRβ(PV/PV)/Akt1(-/-) (PVPV-Akt1KO) mice. Mice were sacrificed at 3, 6, 9, 12, and 15 months; necropsy was performed and serum TSH was measured. Thyroid hyperplasia occurred in both groups beginning at three months; the thyroid size was greater in the PVPV-Akt1WT mice (p<0.001). In comparison with PVPV-Akt1WT mice, thyroid cancer development was delayed in the PVPV-Akt1KO mice (P=0.003) and the degree of tumor invasion was reduced. The PVPV-Akt1WT mice displayed pulmonary metastases at 12 and 15 months of age, by contrast PVPV-Akt1KO mice did not develop distant metastases at 15 months of age. Despite continued expression of Akt2 or Akt3, pAkt levels were decreased, and there was evidence of reduced Akt effect on p27 in the PVPV-Akt1KO thyroids. TSH levels were similarly elevated in PV mice regardless of Akt1 expression. In conclusion, thyroid cancer development and progression in TRβ(PV/PV) mice are Akt1-dependent, consistent with a tumor progression-promoting role in this murine thyroid cancer model.