Thyroid hormone-induced expression of specific somatostatin receptor subtypes correlates with involution of the TtT-97 murine thyrotrope tumor.

Following the protracted hypothyroid state, treatment with thyroid hormone will induce a decline in TSH and reduce thyrotrope hyperplasia. Somatostatin is a hypothalamic peptide that has been implicated in the negative regulation of TSH secretion in the thyrotrope. Moreover, analogs of native somatostatin have potent TSH-reducing and growth-retarding effects on human thyrotropinomas. The TtT-97 tumor is an in vivo murine thyrotropic model that has retained its physiological response to thyroid hormone. This study investigates the regulation of somatostatin receptor subtypes in this tumor. TtT-97 tumors, actively growing in hypothyroid mice, did not express any significant somatostatin receptor messenger RNA (mRNA) or protein. T4 administration resulted in a reduction in TSH beta mRNA expression and a marked degree of tumor involution. Analysis of residual tumors from thyroid hormone-treated mice showed the specific up-regulation of SSTR1 and SSTR5 mRNA subtypes and the appearance of abundant, high affinity SSTR receptor-binding sites within the tumor. Thus, the TtT-97 tumor provides a thyrotrope-specific model in which to study the regulation of somatostatin receptor subtypes by thyroid hormone and correlate this expression with both antisecretory and antiproliferative effects.