Favorable predictive value of thyroid autoimmunity in high aggressive breast cancer.

A high incidence of anti-thyroid antibodies (TAb) has been found in patients with breast cancer (BC). The aim of this study was to evaluate the prognostic value of TAb in a group of 47 women submitted to mastectomy for high malignancy degree BC. All patients were evaluated for thyroid disorders after breast surgery and before any anti-tumoral adjuvant therapy. Five yr after BC diagnosis 31/47 (65.9%) patients were alive (survivors group: SG) and 16/47 (34.1%) were dead (deaths group: DG). The overall prevalence of TAb was 15/47 (31.9%): 14/31 (45.1%) in SG and 1/16 (6.2%) in DG (p=0.008). Five-yr mortality was 15/32 (46.9%) in TAb- and 1/15 (6.7%) in TAb+ patients (p=0.01). Eight out of 47 (17.0%) patients had Hashimoto's thyroiditis and 7 of them (87.5%) were in SG. Estrogen receptor (ER) was measured in 43/47 (91.5%) BC specimens. ER was detected in 19/30 (63.0%) patients in SG and 3/13 (23.1%) in DG (p=0.01). Five-yr mortality was 10/21 (47.6%) in ER- and 3/22 (13.6%) in ER+ patients (p=0.008). Absence of ER expression [odds ratio (OR) 6.54; p=0.006] and absence of TAb (OR 9.37; p=0.03) were related to a higher mortality rate. TAb were detected in 8/21 (38.1%) ER- and in 7/22 (31.8%) ER+ patients; no relation was found between ER expression and TAb positivity (p=ns). Patients with ER+ and TAb+ have a better prognosis and the absence of a significant relationship between these two parameters suggests an independent prognostic role in high malignancy degree BC women.

Thyroid autoimmunity in patients with malignant and benign breast diseases before surgery.

BACKGROUND: Previous studies have demonstrated a high prevalence of thyroperoxidase antibodies (TPOAb) and autoimmune hypothyroidism in breast cancer (BC). These studies have been performed in BC patients generally 20-30 days after mastectomy. It is known that stress may have an influence on the immune system and a relation between stressful events and the onset or worsening of autoimmune thyroid disorders has been reported by several authors. The aim of the study was to evaluate the prevalence of autoimmune thyroid disease in patients with nodular breast disease selected for surgery before any treatment. Our hypothesis was that the high prevalence of thyroid autoimmune disorders in BC is independent of stressful events represented by surgery and/or anaesthetic procedures. METHODS: Our series included 61 consecutive women aged 52.8 +/- 10.2 yrs (mean age +/- s.d.) with nodular breast disease selected for breast surgery: 36 out of 61 of them (59%) had BC and 25 out of 61 had benign breast disease (BBD). Controls included 100 healthy age-matched women. All patients and control subjects were submitted to clinical, ultrasound thyroid evaluation and serum-free thyroxine (FT4), serum-free tri-iodothyronine (FT3), TSH, TPOAb and thyroglobulin antibodies (TgAb) determination. RESULTS: Mean FT3, FT4 and TSH concentration showed no differences between BC patients, BBD patients and controls. The prevalence of TPOAb in BC patients (12/36: 33.33%) was significantly higher than in BBD patients (5/25: 20%) (P < 0.01) and in controls (8/100: 8%) (P < 0.01). Similarly, the prevalence of TgAb in BC patients was 12 out of 36 (33.33%) significantly higher than that detected in BBD patients (4/25: 16%) (P < 0.01) and in controls (12/100: 12%) (P < 0.01). Of the 36 BC patients, 20 showed a diffuse hypoechogenicity of the thyroid gland to ultrasound evaluation, significantly higher than in BBD (7/25: 28%) (P = 0.03). Of the 20 BC patients who showed a hypoechogenic pattern of thyroid gland, 10 (50%) were associated with antithyroid antibodies positivity (TAb). This finding was present in two of seven BBD (28.57%) (P < 0.0001). Only two controls showed focal hypoechogenicity of the thyroid gland. Generally, 24 out of 36 (66.7%) of BC and 9 out of 25 (36%) of BBD (P = 0.02) had signs of thyroid autoimmunity consistent with the hypoechogenic pattern of thyroid gland associated or not with TAb; 2 out of 36 (5.55%) of BC and 1 out of 25 (4%) of BBD patients had autoimmune hypothyroidism and no hypothyroidism was found in controls. CONCLUSIONS: The results of this study confirm the strong relation between thyroid autoimmunity and BC. This finding is independent of stressful events represented by surgery or anaesthetic procedures. The present data call attention to the usefulness of screening for autoimmune thyroid disorders in patients with nodular breast disease selected for surgery.

Studies on the in vitro cytotoxic effect of amiodarone.

Amiodarone, a potent antiarrhythmic drug, contains 37.2% iodine by weight and may induce either hypo- or hyperthyroidism. The high iodine content of amiodarone may be responsible for both complications, but a cytotoxic effect of the drug on the thyroid resulting in thyroiditis has been reported. In the present study the cytotoxic effect of amiodarone was evaluated in three culture systems with different biological properties: 1) a strain of rat thyroid cells (FRTL-5 cells) that maintains most differentiated functions of normal thyroid cells, including an active iodide pump, but an inability to organify iodide; 2) a line of Chinese hamster ovary (CHO) fibroblasts; and 3) freshly prepared primary cultures of human thyroid follicles (hTF) that trap and organify iodide. Cells were radiolabeled with 51Cr and incubated for 24 h with medium alone, medium plus amiodarone (3.75-200 microM), medium plus an iodinated radiographic contrast agent (sodium diatrizoate; 7.5-200 microM), or medium plus potassium iodide (7.5-300 microM). At concentrations ranging from 75-200 microM, amiodarone induced a significant and dose-dependent release of 51Cr in FRTL-5 cells. In contrast, diatrizoate or KI had no cytotoxic effect on FRTL-5 cells. In the same molar concentrations, amiodarone was also cytotoxic in CHO cells. In hTF, the release of 51Cr produced by amiodarone occurred at a lower concentration (37.5 vs. 75 microM) and was significantly greater than that in FRTL-5 cells. The cytotoxic effect of amiodarone in hTF was partially, but significantly, reduced by methimazole, an inhibitor of iodide organification. In the FRTL-5 cell culture system, amiodarone also produced a dramatic inhibition of TSH-stimulated cell growth. This growth-inhibiting effect of amiodarone was evident at low concentrations (3.75-7.5 mumol/liter) of the drug, which did not produce significant cytotoxicity. In conclusion, 1) amiodarone had a cytotoxic effect in CHO fibroblasts, a nonthyroid cell line; 2) this cytotoxic effect occurred in thyroid cells independent of their ability to organify iodide; 3) however, the toxic effect of amiodarone was greater and occurred at a lower molar concentration in freshly prepared human thyroid follicles that trap and organify iodide; and 4) in the latter culture system, methimazole, an inhibitor of iodide organification, partially, but significantly, reduced the cytotoxic effect of amiodarone. These data suggest that thyroid cytotoxicity produced by amiodarone is mainly due to a direct effect of the drug on thyroid cells, but excess iodide released from the drug may contribute to its toxic action.

The nocturnal serum thyrotropin surge is abolished in patients with adrenocorticotropin (ACTH)-dependent or ACTH-independent Cushing's syndrome.

TSH secretion was evaluated in 10 patients with ACTH-dependent (pituitary microadenoma, n = 5) or ACTH-independent [adrenal adenoma (n = 4) or carcinoma (n = 1)] Cushing's syndrome, and in 12 normal controls matched for age and sex. Serum TSH concentration was assayed at night, from 2200-0200 h, and in the morning, both basally and 30 min after iv injection of 200 micrograms synthetic TRH. Patients with hypercortisolism showed significantly reduced serum total T4 and T3 and free T3 concentrations and increased serum reverse T3 levels. Their mean baseline serum TSH concentration in the morning, albeit slightly lower, did not significantly differ from those of controls. The mean peak TSH value after TRH was significantly reduced, and a blunted TSH response to TRH was found in 4 out of 10 patients. At variance with normal controls, who showed nighttime TSH values 63-228% higher than morning values, 9 out of 10 patients had nighttime levels not different from or even lower than those in the morning; the remaining patient had nighttime TSH values marginally (33%) higher than in the morning. An inverse relationship (r = 0.80, P less than 0.001) was found between serum cortisol and TSH values both at night and in the morning. No differences were found either in the pattern of TSH secretion or in the TSH response to TRH between patients with ACTH-dependent and those with ACTH-independent Cushing's syndrome. These results show a substantial impairment of TSH secretion, and in particular the loss of the nocturnal surge of the hormone, in patients with Cushing's syndrome. Although the origin of the nocturnal TSH rise is probably multifactorial, cortisol, at least when secreted in excess, appears to play an important role in its regulation.

Antibodies producing complement-mediated thyroid cytotoxicity in patients with atrophic or goitrous autoimmune thyroiditis.

Thyroid-cytotoxic antibodies (thyroid-cytotoxic Abs) have been described in patients with autoimmune thyroiditis, but their role in the development of hypothyroidism remains to be clarified. In this study, we evaluated the pathogenetic role of thyroid-cytotoxic Abs in 20 patients with atrophic thyroiditis (idiopathic myxedema; AT) and 94 patients with goitrous Hashimoto's thyroiditis (HT). Among patients with HT, 27 were euthyroid (HT-E), 27 had subclinical hypothyroidism (HT-SH), and 40 had overt hypothyroidism (HT-H). Seventeen normal subjects and 8 patients with nonthyroidal illnesses were used as controls (C). To detect thyroid-cytotoxic Abs, human thyroid cells expressing thyroid peroxidase (TPO) were labeled with 51Cr and challenged with the immunoglobulin G (IgG) fraction of serum plus rabbit complement. The cytotoxic effect of IgGs was calculated as the percent specific lysis (% SL), taking into account the lytic effect of complement alone and the maximal lysis produced by a detergent. Most C-IgGs decreased the cytotoxic effect of complement (median % SL, -3.3). IgGs from hypothyroid patients with thyroiditis had a greater cytotoxic effect than C-IgGs, either as a whole group (P < 0.001), or when subdivided according to clinical diagnosis: HT-SH (median % SL, 4.8; P < 0.005), HT-H (%SL, 2.2; P < 0.0001), or AT (%SL, 0.9; P < 0.01). Among patients with HT, the lytic activity of IgGs from patients with subclinical and overt hypothyroidism was higher than that of IgGs from euthyroid patients (P < 0.05). The results of IgGs from euthyroid patients with HT (median % SL, -0.9) did not significantly differ from those of C-IgGs. By taking a cut-off over the upper range of % SL produced by C-IgGs (> 2), the prevalence of thyroid-cytotoxic Abs was 30% in AT, 59% in HT-SH, and 55% in HT-H. However, 37% of euthyroid patients with HT also had thyroid-cytotoxic Abs. No IgG containing TPO antibodies (TPOAb) at low titer (< 40(2)) was cytotoxic. However, the levels of thyroid-cytotoxic Abs did not correlate with TPOAb titers, and preabsorption with TPO only partially abolished the lytic effect of some HT-IgG. These findings suggest that TPO is a target of thyroid-cytotoxic Abs, but other thyroid antigens are also involved in the cytotoxic reaction.(ABSTRACT TRUNCATED AT 400 WORDS)

Detection of thyroid-stimulating antibody using Chinese hamster ovary cells transfected with cloned human thyrotropin receptor.

A clone of Chinese hamster ovary (CHO) cells transfected with the cloned human TSH receptor (CHO-R) was used to optimize an assay for thyroid-stimulating antibody (TSAb), measuring adenylate cyclase stimulation by purified immunoglobulin G from patients with Graves' disease. Optimal sensitivity to bovine TSH (1 mU/L) and TSAb was obtained using hypotonic buffer and measuring extracellular cAMP. In time-response experiments, TSAb stimulation was maximal after 2 h of incubation in hypotonic buffer. Under these conditions, a significant stimulation by Graves' immunoglobulin G was obtained with 33 of 35 (94%) samples from patients with untreated Graves' disease and with 21 of 23 (91%) from patients who relapsed after a course of antithyroid drugs. On the other hand, TSAb was detected in only 12 of 20 (60%) patients who were euthyroid during methimazole treatment and in 4 of 11 (36%) who were euthyroid after a course of antithyroid drugs. All samples from Graves' patients were also tested for TSAb activity on FRTL-5 cells. The results of cAMP stimulation in FRTL-5 and CHO-R showed a fairly good correlation (r = 0.60; P < 0.0001). In particular, of the 58 patients with active Graves' disease (35 with untreated hyperthyroidism and 23 relapsed after methimazole), 43 (74%) were positive in both assays, 3 (5%) were negative in both, 11 (19%) were negative in FRTL-5 and positive in CHO-R, and 1 (1.7%) was negative in CHO-R and positive in FRTL-5. In conclusion, CHO cells transfected with the cloned human TSH receptor are suitable for the clinical assay of TSAb. The sensitivity of this assay is higher than that obtained using FRTL-5 cells, having the additional advantages of expressing the human TSH receptor and requiring less cumbersome procedures for cell culture.

Evaluation of the nocturnal serum thyrotropin (TSH) surge, as assessed by TSH ultrasensitive assay, in patients receiving long term L-thyroxine suppression therapy and in patients with various thyroid disorders.

Circadian variations of serum TSH concentrations have been reported, with higher values occurring in the late evening or early morning. In patients receiving long term L-T4 suppression therapy, it may be important to achieve suppression of TSH secretion throughout the day. To investigate whether undetectable serum TSH values in the morning are associated with undetectable serum TSH levels at night, serum TSH concentrations were measured by an ultrasensitive immunoradiometric assay in 16 normal subjects, 20 hyperthyroid patients, 10 patients with primary hypothyroidism (either untreated or inadequately treated with L-T4), 1 patient with central hypothyroidism, 10 patients with nontoxic nodular goiter, 5 patients with functioning thyroid adenoma, 20 patients receiving L-T4 replacement therapy, and 30 patients receiving L-T4 suppression. In 6 subjects blood was drawn at hourly intervals for 24 h; in 2 normal subjects a major TSH surge occurred between 2300-0100 h, with other minor peaks, and the same pattern was found in two patients receiving L-T4 replacement, whereas in 2 patients receiving L-T4 suppression, serum TSH was constantly below the limit of detection of the assay (i.e. less than 0.07 mU/L). In the remaining patients blood was drawn at hourly intervals between 2300-0200 h and on the next morning before (0830-0900 h) and 30 min after iv TRH administration. In normal subjects, in patients receiving L-T4 replacement therapy, and in hypothyroid patients, serum TSH values at night were higher than in the morning, with normal responses to TRH in the first 2 groups and exaggerated responses in the latter. The patient with central hypothyroidism had no nocturnal TSH surge and no TSH response to TRH. In all hyperthyroid patients, serum TSH was undetectable both at night and during the day, and none had a serum TSH response to TRH. Among patients with nontoxic goiter, 7 had detectable serum TSH in the morning, with higher values at night, and a normal response to TRH; the remainder had undetectable serum TSH both at night and in the morning, and subnormal or absent TSH responses to TRH. All 5 patients with a functioning thyroid adenoma had undetectable serum TSH levels in the morning and during the night, and subnormal or absent TSH responses to TRH. Of the 30 patients receiving long term (greater than 6 months) L-T4 suppression therapy, 28 had undetectable serum TSH both during the night and in the morning and unresponsiveness to TRH.(ABSTRACT TRUNCATED AT 400 WORDS)

Humoral thyroid autoimmunity is not involved in the pathogenesis of myxedematous endemic cretinism.

A role of thyroid autoimmunity in the pathogenesis of myxedematous endemic cretinism was suggested by reports indicating the presence of thyroid growth-blocking antibodies in the sera of these patients. To check this hypothesis, we searched for TSH receptor antibodies with thyroid growth-blocking or adenylate cyclase (AC)-inhibiting (TSH-blocking) activity in immunoglobulin G (IgG) from 18 euthyroid and 21 hypothyroid endemic cretins living in Italy and Peru. Among hypothyroid cretins, 12 had no palpable goiter. Stages I-III goiters were present in 12 of 18 euthyroid cretins. Controls included 25 euthyroid nongoitrous subjects living in the same endemic regions as cretins, and 10 normal subjects from an iodine-sufficient area. IgG from 4 selected patients with autoimmune atrophic thyroiditis and from 2 neonates with sporadic transient congenital hypothyroidism due to maternal TSH-blocking antibodies were included in the study. The blocking effect of the IgG was assessed in FRTL-5 cells by measuring TSH-stimulated [3H]thymidine incorporation, DNA accumulation, and AC activation. A radioreceptor assay was used to detect TSH-binding inhibiting antibodies (TBIAb). No IgG from hypothyroid endemic cretins without goiter contained TBIAb or inhibited TSH-stimulated cell growth or AC activation. The effect of IgG from hypothyroid nongoitrous cretins did not differ from that produced by IgG from hypothyroid cretins with goiter, euthyroid cretins with or without goiter, or normal controls. In contrast to these results, IgG from patients with autoimmune atrophic thyroiditis and from neonates with sporadic transient congenital hypothyroidism contained TBIAb that inhibited both TSH-stimulated cell growth and AC activation. In conclusion, our results indicate that, similar to other types of endemic cretinism, hypothyroid endemic cretins without goiter do not have TSH receptor antibodies able to inhibit TSH-stimulated thyroid cell growth or function. These observations argue against a role of humoral thyroid autoimmunity in the development of myxedematous endemic cretinism.

Failure to detect thyroid growth-promoting activity in immunoglobulin G of patients with endemic goiter.

The [3H]thymidine incorporation assay in FRTL-5 cells was used to measure thyroid growth-stimulating antibody in the purified immunoglobulin G (IgG) fraction of patients with endemic nontoxic goiter (grade I-III) living in Italy (n = 34) or Peru (n = 37). IgG of euthyroid nongoitrous subjects living in the same endemic area (n = 25) and from an area of sufficient iodine intake were used as controls. Bovine TSH (10 mU/L) and thyroid-stimulating antibody of Graves' disease produced a significant increase in [3H]thymidine incorporation and DNA content in FRTL-5 cells. IgG from Italian or Peruvian patients with endemic goiter produced a small increase in [3H]thymidine incorporation in FRTL-5 cells (131 +/- 54% and 165 +/- 57%, respectively), which was indistinguishable from that obtained with IgG from normal nongoitrous subjects residing in endemic or nonendemic areas (167 +/- 80% and 161 +/- 36%, respectively). For comparison 18 of 25 (72%) IgG of hyperthyroid patients with Graves' disease produced clear-cut increases in [3H]thymidine incorporation (1142 +/- 1065%) and DNA content (219%) in FRTL-5 cells. IgG from patients with endemic goiter, at variance with Graves' IgG, did not cause an increase in DNA in FRTL-5 cells. All Graves' IgG that stimulated [3H]thymidine incorporation in FRTL-5 cells also stimulated cAMP production in this culture system, whereas no adenylate cyclase stimulation was produced by IgG from patients with endemic goiter. The prevalence of thyroglobulin antibody and thyroperoxidase antibody in endemic goiter patients did not differ from that in control subjects residing in the same iodine-deficient area. Our data show that sera of endemic goiter patients are devoid of thyroid growth-stimulating antibody and thyroid-stimulating antibody activities. These observations argue against a direct role of thyroid autoimmunity in the development of goiter in iodine-deficient areas.

Serum iodothyronines in the human fetus and the newborn: evidence for an important role of placenta in fetal thyroid hormone homeostasis.

UNLABELLED: The pattern of circulating iodothyronines in the fetus differs from that in the adult, being characterized by low levels of serum T3. In this study, concentrations of various iodothyronines were measured in sera from neonates of various postconceptional age (PA). Results obtained in cord sera at birth (PA, 24-40 weeks), reflecting the fetal pattern, were compared with those found during extrauterine life in newborns of 5 days or more of postnatal life (PA, 27-46 weeks). The main findings are: Starting at 30 weeks of PA, serum levels increase linearly during extrauterine life; and at 40 weeks, they are more than 200% of those measured in cord sera from newborns of equivalent PA. Serum reverse T3 (rT3) levels during fetal life are higher than those measured during extrauterine life; but they significantly decrease, starting at 30 weeks of PA. Serum T3 sulfate (T3S) does not significantly differ between the two groups, showing the highest values at 28-30 weeks of PA, and significantly decreasing at 30-40 weeks. T3S levels are directly correlated with rT3, both in fetal and extrauterine life, whereas a significant negative correlation between T3S and T3 is found only during extrauterine life. IN CONCLUSION: 1) changes in serum concentrations of iodothyronines in umbilical cord and during postnatal life indicate that maturation of extrathyroidal type I-iodothyronine monodeiodinase (MD) accelerates, starting at 30 weeks of PA; 2) high levels of type III-MD activity in fetal tissues prevent the rise of serum T3, whereas they maintain high levels of rT3 during intrauterine life; 3) an important mechanism leading to the transition from the fetal to the postnatal thyroid hormone balance is a sudden decrease in type III-MD activity; iv) because placenta contains a high amount of type III-MD, it is conceivable that placenta contributes to maintain low T3 and high rT3 serum concentrations during fetal life and that its removal at birth is responsible for most changes in iodothyronine metabolism occurring afterwards.

Lack of nocturnal serum thyrotropin surge after surgery.

The effects of surgery on TSH secretion, with particular regard to the nocturnal TSH surge, were evaluated in 10 consecutive patients followed for 6 days after surgery. Surgical trauma was associated in all patients with significant decreases in serum total and free T3 and a significant increase in serum rT3 levels, with no variations in serum total and free T4 concentrations. A marked increase in serum cortisol levels was observed, with higher values at night than in the morning. Serum cortisol levels and circadian rhythm normalized on the fifth day. Serum TSH values in the morning significantly decreased on the first day after surgery and returned to normal on the second day. Serum TSH values at night (2400-0200 h) were higher than in the morning preoperatively, but the nocturnal surge was abolished from days 1-5 after surgery and was restored only on the sixth day. Thus, surgery was associated with a prolonged loss of the nocturnal serum TSH surge. This effect on TSH secretion was more marked than predictable on the basis of serum TSH measurements in the morning alone. An inverse relationship was found between serum cortisol and serum TSH values at night, suggesting that the excessive endogenous cortisol secretion might play a role in the derangement of TSH secretion.

Incidence of antibodies blocking thyrotropin effect in vitro in patients with euthyroid or hypothyroid autoimmune thyroiditis.

Autoantibodies blocking the TSH-dependent production of cAMP in thyroid cells (TSH-BAb) have been described in atrophic thyroiditis (AT; idiopathic myxedema) and in neonates with transient hypothyroidism, but their incidence in autoimmune thyroiditis in relation to thyroid status remains to be completely established. To this purpose TSH-BAb were evaluated in a group of 140 consecutive patients with autoimmune thyroiditis, which included 26 cases of AT and 114 subjects with goitrous Hashimoto's thyroiditis (HT); among the goitrous group 27 were euthyroid (HT-E), 32 had subclinical hypothyroidism (HT-SH), and 55 had clinical hypothyroidism (HT-H). TSH-BAb were measured in immunoglobulin G prepared by DEAE-Sephadex A-50 by determining their ability to inhibit TSH-dependent cAMP production in a differentiated strain of cultured rat thyroid cells (FRTL-5). Using this sensitive and reproducible method, TSH-BAb were detected in 12 of 26 (46%) patients with AT, in 1 of 27 (3.7%) subjects with HT-E, in 3 of 32 (9.4%) with HT-SH, and in 20 of 55 (36%) with HT-H. The prevalence of TSH-BAb was higher in AT vs. HT-H (P less than 0.001), HT-SH (P less than 0.001), or HT-E (P less than 0.001), and in HT-H vs. HT-SH (P less than 0.001) or HT-E (P less than 0.001). Mean TSH-BAb levels in AT were higher than those in HT-H (P less than 0.005) and HT-SH (P less than 0.025); the difference was not significant between HT-H and HT-SH. An inverse correlation was found between TSH-BAb levels and estimated goiter weight (P less than 0.005). The results of the present study indicate that 1) in autoimmune thyroiditis TSH-BAb are detectable almost exclusively in hypothyroid patients, their prevalence being higher in overt hypothyroidism than in subclinical thyroid failure; 2) the prevalence of TSH-BAb and their mean levels are higher in hypothyroid patients with AT than in those with HT; and 3) therefore, the presence of circulating TSH-BAb appears to be related to the development of hypothyroidism and thyroid atrophy.

Outcome of thyroid function in Graves' patients treated with radioiodine: role of thyroid-stimulating and thyrotropin-blocking antibodies and of radioiodine-induced thyroid damage.

UNLABELLED: We investigated the interrelationship and the influence of thyroid-stimulating antibodies (TSAb), TSH-blocking antibodies (TSHBAb), and of radioiodine (131I)-induced thyroid damage in the early (within 1 yr) outcome of thyroid function in hyperthyroid patients with Graves' disease (GD) treated with 131I. TSAb, TSHBAb, and ultrasound thyroid volume (as an index of thyroid damage) were simultaneously measured before and at 1, 3, 6, and 12 months after 131I in 31 GD patients. One year after radioiodine, 9.7% of patients were hyperthyroid (Hyper-group), requiring methimazole; 12.9% were euthyroid (Eu-group); and 77.4% were hypothyroid (Hypo-group). Pretreatment thyroid volume in the Eu-group and Hyper-group was significantly greater (P = 0.009) than in the Hypo-group. Pre-131I TSAb levels were higher in the Hyper-group vs. the Hypo-group (P = 0.01) or the Eu-group (P = 0.03). A significant post-131I increase in TSAb levels occurred in 66% of patients developing hypothyroidism but not in those remaining hyperthyroid. After 131I, TSHBAb appeared in 7 patients, in all but one associated with high levels of TSAb. One year after radioiodine: 1) the mean percent reduction in thyroid volume was greater in the Hypo-group (80.7%) or the Eu-group (83.5%) than in the Hyper-group (35.7%) (P = 0.007 and 0.0033 respectively); 2) hypothyroid patients had smaller (P = 0.0058) post-131I thyroids than hyperthyroid patients; and 3) TSAb were still elevated in 75% hypothyroid patients, but all of them had a thyroid volume < or = 8 mL, indicating major postradioiodine gland damage. IN CONCLUSION: 1) the early outcome of thyroid function after 131I for GD is mainly related to pretreatment thyroid volume and to the degree of its reduction after therapy; 2) high TSAb levels before 131I are associated with a relative resistance to therapy; 3) a postradioiodine increase in TSAb levels is related to the development of hypothyroidism; and 4) the concomitant appearance of TSHBAb and disappearance of TSAb are not frequent after 131I and play a role in the development of early postradioiodine hypothyroidism only in a minority of patients.

The location and the regulation of the type I-iodothyronine 5'-monodeiodinase (type I-MD) in the rat thyroid: studies using a specific anti-type I-MD antibody.

Type I-iodothyronine monodeiodinase (type I-MD) is abundant in thyroid tissue and contributes to the generation of T3 secreted by the gland. The availability of a specific antibody against rat type I-MD (type I-MD Ab) allowed us to directly identify this enzyme in rat thyroid glands, and in a differentiated strain of rat thyroid cells maintained in continuous culture (FRTL-5 cells). FRTL-5 cells maintain many differentiated functions of thyroid cells, including the expression of TSH receptor and thyroid peroxidase. Using an immunohistochemical technique on rat thyroid sections, a clear staining for type I-MD was demonstrated in follicular cells. The degree of immunoreactivity was greater in small follicles containing little amounts of colloid compared to large follicles lined by functionally inactive cells. Using immunofluorescence (IFL), a strong staining for type I-MD was observed in FRTL-5 cells grown in medium containing TSH. Both in vivo and in culture the staining for type I-MD was localised in the cytoplasm of thyroid cells, while nuclei were negative. Interestingly, no surface staining was shown when viable FRTL-5 cells were submitted to the same IFL procedure. TSH deprivation for 7 days was followed by the disappearance of type I-MD. Immunoreactivity for type I-MD was recovered by addition of TSH, forskolin or thyroid stimulating antibody (TSAb) to TSH-deprived FRTL-5 cells. The effect of TSH was prevented by cycloheximide. There was no induction of type I-MD when IGF-I was added to FRTL-5 cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Autoimmune hypothyroidism and hyperthyroidism in patients with Turner's syndrome.

A high prevalence of autoimmune thyroid disease (AITD) has been described in Turner's syndrome (TS) but the extent of this association is controversial for the prevalence of thyroid autoantibody and the clinical impact of thyroid dysfunction. In this study we searched for thyroid disease and thyroid autoantibodies in patients with TS. Seventy-five unselected TS patients (age range 3-30 years) were studied. Sera were tested for thyroid hormones, thyrotropin (TSH), thyroglobulin (TG-ab) and thyroperoxidase (TPO-ab) antibodies. The TSH-receptor antibodies with thyroid-stimulating (TS-ab) or TSH-blocking activity (TSHB-ab) were measured in the IgG fraction using a bioassay. Ten out of 75 (13.3%) TS patients had AITD: eight had autoimmune thyroiditis (AT) (six with subclinical and two with overt hypothyroidism and one with euthyroidism) and one had Graves' disease. The prevalence of AITD increased significantly (p < 0.05) from the first (15%) to the third (30%) decade of life. The prevalence of TPO-ab and/or TG-ab (20%) was higher (p < 0.05) in TS than in age-matched female controls and increased from the first (15%) to the third (30%) decade of life. Clinical AITD was diagnosed in 46% of TS patients with TPO-ab and/or TG-ab. Thyroid-stimulating antibody was detected in the hyperthyroid patient, and TSHB-ab was found in one of eight patients with hypothyroid AT. It was concluded that: TS patients are at higher than average risk of developing AITD not only in adolescence and adult age but also in childhood; hypothyroidism, mainly subclinical, is the most frequent thyroid dysfunction; elevated TPO-ab and/or TG-ab alone do not imply thyroid dysfunction; TS-ab or TSHB-ab are always associated with thyroid dysfunction although most cases of autoimmune hypothyroidism are not due to the latter antibody.

Evidence for a role of the type III-iodothyronine deiodinase in the regulation of 3,5,3'-triiodothyronine content in the human central nervous system.

OBJECTIVE: Thyroid hormone is essential for maintaining normal neurological functions both during development and in adult life. Type III-iodothyronine deiodinase (D3) degrades thyroid hormones by converting thyroxine and 3,5,3'-triiodothyroinine (T3) to inactive metabolites. A regional expression of D3 activity has been observed in the human central nervous system (CNS), and a critical role for D3 has been suggested in the regulation of local T3 content in concert with other enzymes. DESIGN: This study was undertaken to further characterize D3 activity in human CNS and to understand its role in the local regulation of T3 content. METHODS: Autoptic specimens from various areas of human CNS were obtained 6--27 h postmortem from 14 donors who died from cardiovascular accident, neoplastic disease or infectious disease. D3 was determined by measuring the conversion of T3 to 3,3'-diiodothyronine. The T3 content was measured by radioimmunoassay in ethanol extracts, using a specific antiserum. RESULTS: High levels of D3 activity were observed in hippocampus and temporal cortex, lower levels being found in the thalamus, hypothalamus, midbrain cerebellum, parietal and frontal cortex, and brain stem. An inverse relationship between D3 activity and T3 content in these areas was demonstrated. CONCLUSIONS: We have concluded that D3 contributes to the local regulation of T3 content in the human CNS.

Serum TSH measurements by a sensitive enzyme immunoassay discriminate euthyroid from hyperthyroid subjects and avoid the need for TRH test during suppressive therapy with L-thyroxine.

Serum TSH was determined photometrically by a recently developed enzyme immunoassay (EIA) based on the use of a monoclonal antihuman TSH-beta antibody and a polyclonal antiTSH antibody coupled to horseradish peroxidase. The results obtained in patients with various thyroid disorders and in normal controls were compared with those achieved by conventional double antibody radioimmunoassay (RIA). In normal subjects, serum TSH was detectable in all cases by EIA (values ranging from 0.27 to 5.1 mU/L), but only in 76% by RIA. Ninety-two percent of hyperthyroids had undetectable serum TSH by EIA and the remaining 8% had values between 0.2 and 0.4 mU/L. In clinically euthyroid patients with nontoxic goiter, 9% had undetectable serum TSH by EIA, suggesting the presence of autonomously functioning areas within the thyroid. Serum TSH under basal conditions and after TRH stimulation was measured in 45 patients on L-thyroxine suppressive therapy. Undetectable basal serum TSH by EIA was associated with a lack of TSH response to TRH in 95% of cases. Conversely, 37.5% of patients with undetectable basal serum TSH by RIA had a normal or blunted response to TRH. Detectable basal values were predictive of a normal response to TRH by both methods. These data indicate that basal serum TSH measurement by EIA allows an almost complete differentiation of normal from thyrotoxic patients and can avoid the need of the TRH stimulation test.

Lack of nocturnal serum thyrotropin (TSH) surge in patients with chronic renal failure undergoing regular maintenance hemofiltration: a case of central hypothyroidism.

Thyrotropin (TSH) secretion was evaluated in a group of patients with chronic renal failure (CRF) undergoing regular maintenance hemofiltration and in normal controls. The study group included 68 patients (39 males and 29 females, age range 39-73 years, mean: 53 years). In all patients blood was drawn at 08:30-09:00 h; in 20 patients the nocturnal (24:00-02:00 h) serum TSH peak was also evaluated; 12 patients underwent stimulation test with synthetic TSH-releasing hormone (TRH). TSH was measured by an ultrasensitive immunoradiometric assay. CRF patients showed a significant decrease in serum total and free thyroxine and triiodothyronine concentrations, which in a substantial proportion of subjects were below the lower normal limit. Serum reverse triiodothyronine and thyroxine-binding globulin values did not differ in the two groups. Despite this trend of thyroid hormones to decrease, no patient had supranormal TSH values as in primary hypothyroidism. While the mean morning TSH concentrations of CRF patients did not differ from those of controls, the mean nocturnal values were significantly reduced in CRF (1.0 +/- 0.2 vs 3.2 +/- 0.4 mU/l, p less than 0.0005) and the nocturnal serum TSH surge was not observed in 18 of the 20 patients (90%) in whom it was evaluated. The mean serum TSH peak value after TSH-releasing hormone (TRH) administration was also reduced in CRF patients, and the TSH response to TRH was blunted in 3 out of 12 patients (25%). The results of this study demonstrate a major impairment of TSH secretion in CRF, which baseline TSH measurements in the morning and the evaluation of the TSH response to TRH may not reveal.(ABSTRACT TRUNCATED AT 250 WORDS)

[Thyroxine and triiodothyronine]. / Tiroxina e triiodothyronina

The value of measurements of serum thyroxine (T4) and triiodothyronine (T3) concentrations in the clinical evaluation of thyroid function is well established. In the present report the properties of the methods currently available for the assessment of circulating thyroid hormones are examined. Recent data indicate that results of measurements of serum T4 by radioimmunoassay (RIA) or by displacement analysis are qualitatively and quantitatively similar. Evidence has been provided from this and other laboratories that elevated or subnormal serum levels of total tt4 may be observed in several euthyroid physiologicmal serum levels of total T4 may be observed in several euthyroid physiological or pathological conditions associated with altered capacity of the thyroxine-binding protein; in these cases a normal free thyroxine index is usually found indicating its importance in the evaluation of thyroid function. Several physiological observations and the recent recognition of clinical conditions associated with changes in the T4/T3 ratio, justify the present interest in the measurement of serum T3. The advantages of RIA methods with respect to displacement techniques in the determination of this hormone are well documented. The AA. report here their experience with a simple RIA method for total T3, using a single Sephadex G25 column for extraction of T3 from serum and for separation of bound from free hormone. The mean (+/-SD) values of serum T3 found in 78 normal, 23 hyperthyroid and 25 hypothyroid subjects were as follows:160+/37ng/dl, 604+/195ng/dl and 35+/23ng/dl respectively. High values were found in 19 pregnant women at delivery (236+/29ng/dl), but not in 5 subjects on contraceptives (156+/42ng/dl). A relatively large variability is noted when normal values reported from different laboratories are compared. This may be related at least in part to geographical and/or ethnical factors, but methodolgical differences may also be involved. The normal range of circulating T3 should be established in each individual laboratory.