The survival rate of patients with medullary thyroid carcinoma (MTC) is significantly better in patients diagnosed and treated when the tumor is limited to the thyroid. In a pioneer study carried out in 1991, we demonstrated that routine measurement of serum calcitonin (CT) in nodular thyroid disease allowed the preoperative diagnosis of unsuspected sporadic MTC with better accuracy than routine fine needle aspiration cytology (FNAC). This finding has been confirmed in subsequent studies. In the present study we report the results of CT screening in 10,864 patients with thyroid nodular disease seen in the years 1991-1998 (group 1). We analyzed the prevalence of MTC and compared their outcomes with those of a historical group of patients (group 2) diagnosed before the introduction of CT screening (1970-1990). The prevalence of MTC found by CT screening in group 1 was 0.40% (44 patients). A positive CT test had a higher diagnostic sensitivity and specificity compared with FNAC. CT screening allowed the diagnosis of MTC at an earlier stage compared with group 2 (P = 0.004). Normalization of serum CT levels (undetectable) after surgery was more frequently observed in group 1. At the end of follow-up, complete remission was observed in 59% of group 1 and in 2.7% of group 2 (P = 0.0001). Our study confirms that MTC is not an infrequent finding among patients with thyroid nodules (nearly 1 in 250 patients). In addition, screening thyroid nodules with serum CT measurement allows the diagnosis and treatment of MTC at an earlier stage, resulting in a better outcome compared with MTC not detected by serum CT measurement. One of the reasons for this finding is that increasing the preoperative diagnostic accuracy of MTC prompts the surgeon to perform a more radical and possibly curative treatment. On this basis, routine measurement of basal serum CT levels should be considered an integral part of the diagnostic evaluation of thyroid nodules.
We studied the half-life of serum calcitonin (CT) in patients subjected to total thyroidectomy for medullary thyroid carcinoma (MTC). One patient showed a rapid serum CT component with a half-life of 3 hours and a slow component with a half-life of 30 hours; in another case only the 30-hour component was found. By chromatography of tumor extracts, we found that all the immunoreactive CT had a molecular weight of 3,600. After surgery, normalization of serum CT was achieved within 15 days in 4 patients, at 3 months and at 6 months in 2 other patients, while 1 patient never normalized. Normalization of serum CT after surgery is not an index of definitive cure in MTC, as demonstrated by one patient who relapsed 3 months after normalization of serum CT. However, as a general rule, patients who reach undetectable serum CT levels soon after surgery, are those having the best prognosis.
Hormone secretion by thyrocytes occurs by fluid phase uptake and lysosomal degradation of the prohormone thyroglobulin (Tg). However, some Tg internalized by megalin bypasses lysosomes and is transcytosed across cells and released into the bloodstream. Because the hormone content of Tg is variable, we investigated whether this affects transcytosis. We found that rat Tg with a low hormone content [low-hormonogenic rat Tg (low-horm-rTg)] is transcytosed by megalin across thyroid FRTL-5 cells to a greater extent than rat Tg with a high hormone content [hormonogenic rat Tg (horm-rTg)]. In immunoprecipitation experiments, the Tg sequence Arg-2489-Lys-2503 (required for binding to megalin and heparan sulfate proteoglycans) was found to be more exposed in low-horm-rTg, which accounted for its preferential transcytosis. Thus, removal of surface heparan sulfate proteoglycans from FRTL-5 cells or blocking of 2489 -2503 reduced transcytosis of low-horm-rTg to a greater extent than that of horm-rTg. Preferential transcytosis of low-horm-rTg affected hormone release. Thus, the increase in hormone release from horm-rTg in FRTL-5 cells determined by megalin blocking (due to reduced transcytosis and enhanced Tg degradation) was rescued by low-horm-rTg, suggesting that megalin is required for effective hormone release. This finding was confirmed in a small number of megalin-deficient mice, which had serological features resembling mild hypothyroidism. Reduced hormone formation within Tg in vivo, due to treatment of rats with aminotriazole or of patients with Graves' disease with methimazole, resulted in increased Tg transcytosis via megalin, in confirmation of results with FRTL-5 cells. Our study points to a major role of megalin in thyroid homeostasis with possible implications in thyroid diseases.
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