Ossendorp F A, Bruning P F, Schuuring E M, Van Den Brink J A, van der Heide D, De Vijlder J J, De Bruin T W
Department of Tumor Biology, The Netherlands Cancer Institute, Amsterdam.
Endocrinology. 1990 Jul;127(1):419-30. doi: 10.1210/endo-127-1-419.
FRTL-5 cells were used to set up a thyroid tumor model system in C3H nu/nu mice. FRTL-5 tumors could be grown in nude mice provided serum TSH levels were elevated. Persistent TSH elevation was obtained by administration of Na131I, rendering the mice hypothyroid. After 4 weeks FRTL-5 cells were injected sc resulting in tumor growth within 2 weeks in eight out of eight mice. Although the tumors showed an apparently undifferentiated histology, lacking normal follicular structures, they were functional since the tumors were capable of concentrating [131]iodine, as demonstrated by nuclear imaging. From one of the tumors a new cell line was isolated (FRTL-5/T) that, like the parental FRTL-5 cell line, was TSH dependent for growth. In a control group of six euthyroid nude mice FRTL-5 tumor growth could not be obtained with one exception. After 3 months one animal developed a small tumor that grew rapidly thereafter. This tumor was easily transplantable in other euthyroid nude mice, showed an undifferentiated histology, and was nonfunctional, as it could not concentrate [131]iodine. From this tumor two cell lines were derived: one cultured in the presence of TSH (FRTL-5/TP) and one in the absence of TSH (FRTL-5/TA). Both cell lines were found to be TSH independent for growth. The cell lines were analyzed for TSH responsive functions and TSH receptor expression. Responsiveness to TSH in FRTL-5/T and the parental FRTL-5 cell line were similar for most thyroid specific functions tested. However, FRTL-5/T was less sensitive than FRTL-5 for TSH induced [3H]thymidine incorporation. Both cell lines had two classes of TSH binding sites with high and low affinity respectively, as determined by Scatchard analysis. FRTL-5/TP and FRTL-5/TA were both able to grow in TSH free medium and were nonresponsive to TSH in vitro, as tested for [3H]thymidine and [3H]uridine incorporation, iodine uptake, thyroglobulin iodination, and thyroglobulin secretion. This correlated with an approximately 100-fold decreased number of TSH binding sites compared to FRTL-5. The latter was caused by a complete absence of low affinity binding sites, whereas high affinity receptors were still detectable. The FRTL-5/TA cell line was the least differentiated one as thyroglobulin mRNA was detectable in only minute amounts and thyroid peroxidase expression could not be measured. These in vivo selected FRTL-5 cell lines offer a suitable model to investigate several aspects of TSH responsiveness, including signal transduction and postreceptor events, thyroid differentiation, and thyroid tumorigenesis.
FRTL-5细胞被用于在C3H裸鼠中建立甲状腺肿瘤模型系统。只要血清促甲状腺激素(TSH)水平升高,FRTL-5肿瘤就能在裸鼠体内生长。通过给予Na131I使小鼠甲状腺功能减退,从而实现TSH的持续升高。4周后,皮下注射FRTL-5细胞,8只小鼠中有8只在2周内肿瘤生长。尽管肿瘤表现出明显的未分化组织学特征,缺乏正常滤泡结构,但它们具有功能,因为通过核成像证明肿瘤能够摄取[131]碘。从其中一个肿瘤中分离出一个新的细胞系(FRTL-5/T),它与亲代FRTL-5细胞系一样,生长依赖TSH。在一个由6只甲状腺功能正常的裸鼠组成的对照组中,除一例例外,未观察到FRTL-5肿瘤生长。3个月后,一只动物长出一个小肿瘤,此后迅速生长。这个肿瘤很容易移植到其他甲状腺功能正常的裸鼠体内,表现出未分化的组织学特征,并且无功能,因为它不能摄取[131]碘。从这个肿瘤中衍生出两个细胞系:一个在TSH存在的情况下培养(FRTL-5/TP),另一个在TSH不存在的情况下培养(FRTL-5/TA)。发现这两个细胞系生长均不依赖TSH。对这些细胞系进行了TSH反应性功能和TSH受体表达分析。在大多数测试的甲状腺特异性功能方面,FRTL-5/T和亲代FRTL-5细胞系对TSH的反应相似。然而,FRTL-5/T对TSH诱导的[3H]胸腺嘧啶核苷掺入比FRTL-5更不敏感。通过Scatchard分析确定,两个细胞系都有两类TSH结合位点,分别具有高亲和力和低亲和力。FRTL-5/TP和FRTL-5/TA都能够在无TSH的培养基中生长,并且在体外对TSH无反应,这通过[3H]胸腺嘧啶核苷和[3H]尿苷掺入、碘摄取、甲状腺球蛋白碘化和甲状腺球蛋白分泌测试得到证实。这与TSH结合位点数量相比FRTL-5减少了约100倍相关。后者是由于完全缺乏低亲和力结合位点,而高亲和力受体仍然可以检测到。FRTL-5/TA细胞系分化程度最低,因为仅能检测到微量的甲状腺球蛋白mRNA,且无法测量甲状腺过氧化物酶的表达。这些体内选择的FRTL-5细胞系为研究TSH反应性的几个方面提供了一个合适的模型,包括信号转导和受体后事件、甲状腺分化以及甲状腺肿瘤发生。
