Effect of yogic exercises on thyroid function in subjects resident at sea level upon exposure to high altitude

Using radioactive iodine, the effect of 1 month's yogic exercises has been investigated on the thyroid function of subjects resident at sea level (SL) specially after their exposure to high altitude (HA). The results have been compared with a group of SL subjects who underwent physical training (PT) exercises for the same duration. Ten healthy male volunteers in the age range of 20–30 years were used as test subjects in this study with each serving as his own control. The subjects were randomly divided into two groups of 5 each. One group practised hatha yogic exercises, while the other group performed the regular PT exercises. The thyroidal accumulation and release of radioactive iodine have been measured in each of the subjects of both groups before and after 1 month of their respective exercises at SL. One month of yogic exercises at SL has been observed to cause a significant reduction in the trans-thy-roidal availability of radioiodine. The thyroid radioactivity in this group of subjects was always below normal levels with the exception of two peaks of radioactive iodine uptake, when the levels of radioactivity in the thyroid were similar to the control values of pre-yogic exercises. The release of radiolabel at 24–48 h was significantly increased after yogic exercises. In contrast, the subjects performing PT exercises for the same duration at SL showed significant thyroid uptake of radioactive iodine at 24 h. Subsequently their¹³¹I uptake continued to rise slowly until 72 h without any demonstrable thyroidal release of radiolabel. This indicated that increased thyroid activity was induced by conventional PT exercise. Exposure of SL residents to HA irrespective of their exercise regime altered the thyroidal handling of radioiodine. Thyroidal concentrations of freshly administered radioiodine at early and late sampling intervals were very high in both of the groups, especially the yogics, after their return to SL from HA. Possible mechanisms of the observed changes have been discussed.     

Effect of fasting on thyroid hormone levels, and TR(alpha) and TR(beta) mRNA accumulation in late-stage embryo and juvenile rainbow trout, Oncorhynchus mykiss

The accumulation of mRNA encoding for hepatic and intestinal T3-receptor (TR) and body and liver masses were measured in fed and 3-week fasted juvenile and swim up stage rainbow trout embryos. Plasma and total body thyroid hormone (TH) levels were measured for juvenile and swim up stages, respectively. Fasted juveniles exhibited a lower hepatosomatic index (HSI), liver mass and plasma T4 and T3 concentrations than fed animals, but there were no changes in body mass or the accumulation of mRNA encoding for either of the TR(alpha) or TR(beta) isoforms in liver or intestine. TR(beta) mRNA accumulation was greater than TR(alpha) mRNA accumulation in both tissues. Fasted embryos had lower whole body TH levels and body, liver and intestinal tract masses, in addition to a lower intestinosomatic index. However, there was no change in HSI. Fasting did not affect whole body or hepatic TR(alpha) and TR(beta) mRNA accumulation, although intestinal tract TR(alpha) and TR(beta) mRNA accumulation was lower in the fasted embryos. The HSI and body mass changes in fasted juvenile and embryo stages, respectively, indicated that both developmental stages were impacted by fasting. Both stages also showed evidence of decreased TH production. The lower TR gene expression in the intestinal tract of fasted embryos may suggest a role for THs in the transitional stage of intestinal development during this period of development.     

Relationships between locomotor behavior, morphometric characters and thyroid hormone levels give evidence of stage-dependent mechanisms in European eel upstream migration

In order to decipher movements during freshwater eel colonization, we experimentally characterized individual locomotor behavior of two eel life history stages: elvers and yellow eels. A ramp located at the flume tank upstream side required a specific locomotor behavior to be ascended. Placing individually tagged eels in the middle of the tank three times successively tested behavioral consistency. Eels climbing the ramp on each trial were classified as "upstream climbers" whereas eels settling in the tank middle were classified as "inactive". Both stages exhibited these two opposite consistent behaviors. However, elvers were predominantly "upstream climbers" (58.1%) whereas yellow eels were predominantly "inactive" (79.6%). We measured morphometric characters and thyroid hormones to determine if upstream activity was related to body condition and thyroid status. Elver upstream climbers had higher body condition as well as higher thyroxine (T(4)) and triiodothyronine (T(3)) levels compared with inactive elvers. Yellow eel upstream climbers had lower body length as well as higher T(3) and (T(3):T(4)) ratio compared with inactive yellow eels. This indicated that the physiological release factors for eel upstream migration may be stage dependent. For elvers, high thyroid gland activity, together with high body condition, may be the physiological release factors for migration. In contrast, for yellow eels, physiological stress may be the release factor with an increase in T(4) deiodination activity in the smallest eels. Our study revealed inter-stage and intra-stage locomotor behavior plasticity and suggested stage-dependent opposite impacts of physiological condition on eel upstream migration.     

Thyroid function during intermittent exposure to hypobaric hypoxia

Circulatory levels of triiodothyronine (T₃) and thyroxine (T₄) and their kinetics were studied in rabbits exposed to intermittent hypobaric hypoxia (5200 m, 395 mm Hg,PO₂ 83 mm Hg) 6 h daily for 5 weeks in a decompression chamber maintained at room temperature of 22°–24° C. Kinetics of T₃ and T₄ were studied on days 21 and 28 of hypoxic exposure. The T₃ and T₄ values were found to be significantly lower on day 8 of exposure to hypoxia compared to the pre-exposure values. The decreased levels were maintained throughout the entire period of hypoxic stress. The metabolic clearance rate, production rate, distribution space and extrathyroidal T₃ and T₄ pools were significantly decreased in animals under hypoxic stress compared to the control animals. The decline in thyroid hormone levels and their production in rabbits under hypoxic stress indicate an adaptive phenomenon under conditions of low oxygen availability.     

Thyroid hormone regulation of cell migration and oxidative metabolism in polymorphonuclear leukocytes: clinical evidence in thyroidectomized subjects on thyroxine replacement therapy

Migration and superoxide anion (O2-) generation were studied in polymorphonuclear leukocytes (PMNs) from 14 athyreotic patients, previously treated by total thyroidectomy and radioiodine therapy for differentiated thyroid carcinoma, and from age- and sex-matched euthyroid healthy controls. Patients were studied twice: in hypothyroidism (visit 1) and after TSH-suppressive L-T4 replacement therapy (visit 2). Random migration and N-formyl-Met-Leu-Phe (fMLP) 0.1-microM induced chemotaxis were similar in cells from patients at both visit 1 and visit 2 and from healthy controls. On the contrary, resting O2- generation in cells from patients was significantly lower than control values, both at visit 1 and 2. At visit 1, fMLP 0.1 muM-induced O2- generation was significantly lower than control values, while phorbol-myristate acetate (PMA) 100-ng/ml induced O2- generation was similar in cells from patients and from controls. At visit 2 both responses increased, resulting in fMLP-induced O2- generation superimposable to control values and PMA-induced O2- generation significantly higher with respect to both visit 1 and cells from controls. In vitro exposure of PMNs from healthy subjects to L-T4 did not affect O2- generation in resting cells, and significantly increased that induced by fMLP or PMA only at high, supra-physiological concentrations. Neither TSH nor T3 had significant effects at any of the concentrations tested. The present results document the existence of a correlation between thyroid status and oxidative metabolism of human PMNs, which is however unlikely to depend upon a direct action of thyroid hormones on these cells.     

Similarity of PO2 and PCO2 values in the air cell of eggs of birds and in the alveolar gas of humans at sea level and at high altitude

At the end of incubation, the partial pressures of oxygen and carbon dioxide in the air cell of sea-level avian eggs are similar to those in the expiratory air of adult birds. At high altitude, changes in the permeability of the shell and probably in the embryo metabolism partially compensates the increase in the gas diffusion constant resulting from the low barometric pressure. The aim of this study was to test whether-despite of the adaptive responses of the high altitude avian embryo-the air cell values would be similar to those of the alveolar air of high altitude human natives. Air cell O₂ (48.3±1.6 torr) and CO₂ (20.9±0.85 torr) pressure values were obtained by studying naturally incubated eggs of the Andean gull (Larus serranus)_at 4650m. Sea-level chicken (Gallus gallus) air cell pressure values of O₂ (102.3±2.7 torr) and of CO₂ (43.3±1.3 torr) were obtained from the literature for comparison. Both these values were similar to those found in the alveolar air of humans at sea level (O₂: 104.4±0.4 torr, CO₂:40.1±0.25 torr) and at high altitude (4540 m) (O₂:50.5±0.53 torr, CO₂: 29.1±0.37 torr). Despite very large evolutionary changes in morphology and physiology of the respiratory organs, the head pressure of O₂ that oxygenates the blood keeps a constant value in the pre-pipping avian embryo and in the alveolar air of adult mammals. This constancy holds valid at high altitude.     

Changes in the hypothalamo-pituitary-adrenocortical and hypothalamo-pituitary-thyroid axes in diabetic rats acclimated to moderate hyperthermic environment

We examined the effect of acclimation to moderate hyperthermic environment on the ACTH, TSH, T₃, T₄ and corticosterone level, as well as the relative weight of hypophysis, thyroid and adrenal glands in streptozotocin-diabetic rats. Increased activity of the hypothalamo-pituitary-adrenocortical (HPA) axis has been demonstrated in diabetic animals, whereas insulin treatment restores the changes. Heat acclimation reduces the level of ACTH and corticosterone in control animals and moderates the hormonal disturbances caused by diabetes. Simultaneously, our study revealed impairment in the activity of the hypothalamo-pituitary-thyroid (HPT) axis. Acclimation to 35±1 °C resulted in significantly lower T₃ and T₄ levels in control, diabetic and insulin-treated animals. Relative weight of the hypophysis, thyroid and adrenal glands is decreased in heat-acclimated rats. Our assumption is that there might be a cross tolerance between diabetes and heat acclimation on a hormonal level.     

A thyroid hormone-vasopressin interaction promotes survival and maturation of hippocampal neurons dissociated postnatally

Hippocampal cells dissociated from 5-day-old rat pups were grown in a suitable chemically defined basal medium, supplemented or not with 3,3,5-triiodo-l-thyronine (T₃), [Arg⁸]-vasopressin (AVP), or both, at different concentrations. Four days after plating, neuron-like cells began to degenerate drastically in the basal medium. Although AVP alone had no effect, T₃, and to a greater extent T₃ and AVP together, prevented their death. Moreover, T₃, and AVP also acted synergically in promoting the maturation of surviving cells, especially AchE-positive neurons, either directly or through glial cells.Special issue dedicated to Dr. Paola S. Timiras     

Paracoccidioidomycosis in the region of Botucatu (state of São Paulo,Brazil). Evaluation of serum thyroxine (T4) and triiodothyronine (T3) levels and of the response to thyrotropin releasing hormone (TRH)

T₄, T₃ and TSH serum levels were measured in 25 patients with paracoccidioidomycosis. Thyroid T₃ reserves were measured on the basis of the increase in T₃ (T₃) 2 h after intravenous injection of 200 g TRH, and pituitary TSH reserves were measured on the basis of TSH increase (TSH) 20 min after the same injection. Twenty healthy volunteers with no history of thyroid disease were used as controls. When the two groups were compared, the following results were obtained: (a) there was no significant difference in mean T₄, T₃, TSH between groups; (b) reduced T₃ levels were detected more frequently in patients with paracoccidioidomycosis, especially among those with the acute form of the disease or with the severely disseminated chronic form. The results suggest the occurrence of a reduction in peripheral conversion of T₄ to T₃, but do not indicate the occurrence of hypothyroidism in any of its forms (thyroid, pituitary or hypothalamic).     

A novel interaction between thyroid hormones and 1,25(OH)(2)D(3) in osteoclast formation

Thyroid hormones enhance osteoclast formation and their excess is an important cause of secondary osteoporosis. 3,5,3' -Triiodo-L-thyronine (T3) induced the mRNA expression of receptor activator of nuclear factor-kappa B ligand (RANKL), which is a key molecule in osteoclast formation, in primary osteoblastic cells (POB). This effect was amplified in the copresence of 1 alpha,25-dihydroxyvitamin D(3) (1,25(OH)(2)D(3)). Although T3 alone did not induce octeoclasts in coculture of bone marrow cells with POB, T3 enhanced 1,25(OH)(2)D(3)-induced osteoclast formation. Thyroxine (T4) also enhanced 1,25(OH)(2)D(3)-induced osteoclast formation. These data suggested that T4 was locally metabolized to T3 for its action, since T4 is a prohormone with little hormonal activity. The mRNA expression of type-2 iodothyronine deiodinase (D2), which is responsible for maintaining local T3 concentration, was induced by 1,25(OH)(2)D(3) dose- and time-dependently. Our data would facilitate our understanding of the mechanism of osteoclast formation by thyroid hormones and suggest a novel interaction between thyroid hormones and 1,25(OH)(2)D(3).     

Mast cells in the human lung at high altitude

Mast cell densities in the lung were measured in five native highlanders of La Paz (3600 m) and in one lowlander dying from high-altitude pulmonary oedema (HAPO) at 3440 m. Two of the highlanders were mestizos with normal pulmonary arteries and the others were Aymara Indians with muscular remodelling of their pulmonary vasculature. The aim of the investigation was to determine if accumulation of mast cells in the lung at high altitude (HA) is related to alveolar hypoxia alone, to a combination of hypoxia and muscularization of the pulmonary arterial tree, or to oedema of the lung. The lungs of four lowlanders were used as normoxic controls. The results showed that the mast cell density of the two Mestizos was in the normal range of lowlanders (0.6–8.8 cells/mm²). In the Aymara Indians the mast cell counts were raised (25.6–26.0 cells/mm²). In the lowlander dying from HAPO the mast cell count was greatly raised to 70.1 cells/mm² lung tissue. The results show that in native highlanders an accumulation of mast cells in the lung is not related to hypoxia alone but to a combination of hypoxia and muscular remodelling of the pulmonary arteries. However, the most potent cause of increased mast cell density in the lung at high altitude appears to be high-altitude pulmonary oedema.     

Purification and Characterization of Camel Thyroglobulin

Thyroglobulin (669 kDa), the major protein of the camel thyroid, has been isolated and purified from saline extract of the gland by ammonium sulfate fractionation and DEAE-cellulose chromatography. Ultracentrifugal analysis of the purified material, with an iodine content of 0.39%, showed a major and minor component with S_20,w values of 17 and 24, respectively. Separation of the protein from thyroid of individual animals by linear salt gradient on DEAE-cellulose showed a major and minor peak, indicating heterogeneity. Native gel electrophoresis of camel thyroglobulin showed a doublet, revealing microheterogeneity. A similar pattern was observed for the slower migrating components (24 S iodoprotein). N-terminal analysis of the purified protein revealed asparagine as the major N-terminal amino acid. Glycine and alanine were observed as the minor N-terminals. No differences in N-terminals between the major and minor peak were observed. Camel thyroglobulin, as thyroglobulin of other animal species, is a glycoprotein with a total carbohydrate content of 10.7%, comprising 6.0% neutral sugar, 3.67% glucosamine and 1.04% sialic acid. The iodoamino acid and amino acid composition of camel thyroglobulin is similar to that of other mammalian species.     

The influence of inorganic silicon (Si) on pituitary-thyroid axis

The influence of silicon-treatment on the levels of TSH and thyroid hormones was studied in rats. Concentrations of thyrotropin (TSH), triiodothyronine (T₃), and thyroxine (T₄) were estimated in sera of rats receiving per os a soluble silicon compound—sodium metasilicate nonahydrate (Na₂SiO₃·9H₂O), dissolved in the animals' drinking water. An increase in the TSH level in the tested group was observed, without statistically significant differences in T₃ and T₄ concentrations between the two groups of animals. The results provide evidence for the influence of silicon on the endocrine balance. They could also prove that this chemical element is capable of modifying the rate of some hormones' synthesis.     

Effects of repeated whole-body cold exposures on serum concentrations of growth hormone, thyrotropin, prolactin and thyroid hormones in healthy women

Cold therapy is used to relieve pain and inflammatory symptoms. Humoral changes may account for the pain alleviation related to the cold exposures. The aim of the present study was to examine the effects of two types of cold therapy, winter swimming in ice-cold water (WS) and whole body cryotherapy (WBC), on the serum levels of the growth hormone, prolactin, thyrotropin and free fractions of thyroid hormones (fT3, fT4). One group of healthy females (n = 6) was exposed to WS (water 0–2 °C) for 20 s and another group (n = 6) to WBC (air −110 °C) for 2 min, three times a week for 12 weeks. Blood samples used for the hormone measurements were taken on weeks 1, 4 and 12 before and 35 min after the cold exposures and on the days of the respective weeks, when the cold exposures were not performed. During the WS treatments, serum thyrotropin increased significantly at 35 min on weeks 1 (p < 0.01) and 4 (p < 0.05), but the responses were within the health-related reference interval. During the WS, the serum prolactin measured at 35 min on week 12 was lower than during the control treatment, and no changes in fT3 or fT4 were observed. During the WBC, no changes in the serum levels of the studied hormones were observed during the 12 weeks. In conclusion, repeated WS and WBC treatments for healthy females do not lead to disorders related to altered secretions of the growth hormone, prolactin, thyrotropin, or thyroid hormones.     

The Effects of Triiodothyronine on Rat Testis: A Morphometric and Immunohistochemical Study

The aim of present study was to investigate the effects of 3,3′,5-triiodothyronine (T₃) on rat testis both morphometrically and immunohistochemically with determining of insulin-like growth factor I (IGF-I) expression. Adult male Wistar-albino rats used in the study were divided into two groups; control and T₃-treated groups. After T₃ treatment there was observed to be a decrease in testicular weights, diameters of seminiferous tubules and the number of sertoli cells, and an increase in the number of leydig cells (P<0.05). Some of the seminiferous tubule lumens of T₃ administrated rats had cellular debris. IGF-I was localized in sertoli cells, late spermatids and leydig cells of all groups. IGF-I immunoreactivity in T₃ treated rats was higher than in controls in all stages of the cycle of rat seminiferous epithelium, but the staining intensity of leydig cells were similar in both groups. In conclusion, the present results suggest that T₃ may modulate the testicular function by affecting IGF-I activity at the gonadal level.     

Roles of H2S in adaptation of alpine plants Lamiophlomis rotata to altitude gradients

Hydrogen sulfide (H₂S) is an important gaseous transmitter in organisims. It widespreads in the organs and tissues of animals and participates in the biological process of cardiovascular relaxation, cell apoptosis and protection, inflammation and neuromodulation. H₂S also can be synthesized in plants system and is involved in stress responses and the biological process of growth and development. This review describes the synthesis and biological function of H₂S in plants. Based on our research for the adaptation of Lamiophlomis rotata to different altitude gradients, we firstly proposed H₂S plays an important role in the adaptation of Lamiophlomis rotata to alpine environment.     

Involvement of K+ channels and calcium-dependent pathways in the action of T3 on amino acid accumulation and membrane potential in Sertoli cells of immature rat testis

The purpose of this study was to investigate the involvement of calcium in K+ currents and its effects on amino acid accumulation and on the membrane potential regulated by tri-iodo-L-thyronine (T3) in Sertoli cells. Immature rat testes were pre-incubated for 30 min in Krebs-Ringer bicarbonate buffer and incubated for 60 min in the presence of [14C]methylaminoisobutyric acid with and without T3 or T4 (dose-response curve). Specific channel blockers or chelating agents were added at different concentrations during pre-incubation and incubation periods to study the basal amino acid accumulation and a selected concentration of each drug was chosen to analyze the influence on the stimulatory hormone action. All amino acid accumulation experiments were carried out in a Dubnoff metabolic incubator at 32 degrees C, pH 7.4 and gassed with O2:CO2 (95:5; v/v). Seminiferous tubules from immature Sertoli cell-enriched testes were used for the electrophysiology experiments. Intracellular recording of the Sertoli cells was carried out in a chamber perfused with KRb with/without T3, T4 or blockers and the membrane potential was monitored. We found that T3 and T4 stimulated alpha-[1-14C] methylaminoisobutyric acid accumulation in immature rat testes and induced a membrane hyperpolarization in Sertoli cells. The action of T3 on amino acid accumulation and on the hyperpolarizing effect was inhibited by the K(+)-ATP channel blocker tolbutamide as well as the voltage-dependent Ca2+ channel blocker verapamil. These results clearly demonstrate for the first time the existence of an ionic mechanism related to Ca2+ and K+ fluxes in the rapid, nongenomic action of T3.     

Hyperlipidemia and type I 5′-monodeiodinase activity

Male New Zealand White rabbits were divided into three groups: (I) control, (II) high-fat-diet (HFD) fed, and (III) HFD fed+selenium supplemented. After 3 mo of treatment, there was a significant increase in serum cholesterol and triglycerides in the HFD-fed group as compared to the control. However in the selenium (Se)-supplemented group, the levels of serum cholesterol and triglycerides were significantly less as compared to group II. HFD feeding resulted in decreased serum Se levels, but supplementation of dietary Se along with HFD, as in group III, showed an apparent increase in its levels. The Se-dependent glutathione peroxidase (GSH-Px) activity in the liver and the aorta increased significantly in HFD-fed animals and also showed an additional significant increase on Se supplementation. Both serum T₃ and T₄ levels showed a significant decrease on HFD feeding. However, supplementation of Se led to a significant increase in the levels of these parameters viz-à-viz HFD-fed animals. HFD feeding significantly decreased the activity of type I iodothyronine 5′-deiodinase (5′-DI) in the liver from group II rats. On supplementation of Se along with HFD, the activity increased in the liver. However, there was no significant change in its activity in the aorta. The 5′-DI activity in the thyroid showed an opposite trend in comparison with peripheral tissues (i.e., liver). The important finding of this study is that in the hyperlipidemic state, deiodinase in the thyroid behaves in a different manner as compared to its activity in extrathyroidal tissues.