Effect of selenium supplementation on thyroid hormone levels and selenoenzyme activities in growing lambs

The aim of the present study was to evaluate the effects of selenium supplementation on thyroid hormone metabolism and selenoenzyme activities in lambs. Twelve 20-d-old male lambs were assigned to one of two diets: A (0.11 ppm Se) and B (supplemented with 0.2 ppm selenium as sodium selenite). Blood samples were collected weekly for the determination of T₃, T₄, and selenium levels. The response to thyrotropin-releasing hormone (TRH) challenge was estimated at the 11th and 20th wk. Animals were slaughtered at wk 20 and tissues were collected for enzyme determination. Plasma selenium concentration was significantly higher in supplemented lambs (p<0.001). Plasma T₃ and T₄ levels remained similar in both groups. Type I deiodinase activity (ID-I) was decreased in the liver (p<0.05) and increased in the pituitary (p<0.01) of supplemented animals. No ID-I activity was detected in the thyroid. Pituitary type II deiodinase activity (ID-II) remained unchanged. The response to TRH challenge did not differ between the two groups for both challenges, but in group B, the second TRH challenge (20th wk) resulted in a significantly higher T₃ response compared to the first one (11th wk) (p<0.05). In conclusion, the lack of effects of Se supplementation on thyroid hormone metabolism demonstrates that enzyme activity is homeostatically controlled and selenium is incorporated in that order to ensure the maintenance of thyroid hormone homeostasis.     

Effects of long-term selenium yeast supplementation on selenium status studied in the rat

To investigate the selenium status during long-term dietary supply of selenium yeast, 30-day-old male rats were fed for 379 days a methionine-adequate low-selenium diet supplemented with 0.2 mg Se/kg (selenium-adequate diet) or 1.5 mg Se/kg (high-selenium diet) in the form of selenium yeast that contained 60% of the element as l-selenomethionine. Their selenium load was determined at several intervals by neutron activation analysis of the selenium concentrations in the main selenium body pools, skeletal muscle and liver. After 64 days the tissue selenium concentrations plateaued in both groups and then stayed at that level. Compared with the selenium-adequate group, elevated tissue selenium concentrations were found in the high-selenium group, but the increase by a factor of 3.5 in the muscle and by a factor of 2.3 in the liver was smaller than the 7.5-fold increase in the selenium intake. In the selenium-adequate group about 50% of the muscle selenium and 30% of the liver selenium and in the high-selenium group about 85% of the muscle selenium and 70% of the liver selenium were estimated to be present in non-selenoprotein forms. During selenium depletion the liver glutathione peroxidase activity in the high-selenium group remained unaffected for 4 weeks and then decreased more slowly than that in the selenium-adequate group. From these results it can be concluded that selenium incorporated from the selenium yeast diet into non-selenoprotein forms can serve as an endogenous selenium source to maintain selenoprotein levels in periods of insufficient selenium supply.     

Bioaccumulation and toxicity of selenium compounds in the green alga Scenedesmus quadricauda

Background  

Selenium is a trace element performing important biological functions in many organisms including humans. It usually affects organisms in a strictly dosage-dependent manner being essential at low and toxic at higher concentrations. The impact of selenium on mammalian and land plant cells has been quite extensively studied. Information about algal cells is rare despite of the fact that they could produce selenium enriched biomass for biotechnology purposes.     

Diets high in selenium and isoflavones decrease androgen-regulated gene expression in healthy rat dorsolateral prostate

Background  

High dietary intake of selenium or soybean isoflavones reduces prostate cancer risk. These components each affect androgen-regulated gene expression. The objective of this work was to determine the combined effects of selenium and isoflavones on androgen-regulated gene expression in rat prostate.     

Selenolanthionine is the major water-soluble selenium compound in the selenium tolerant plant Cardamine violifolia

Background

Selenium hyperaccumulation in plants often involves the synthesis of non-proteinaceous methylated selenoamino acids serving for the elimination of excess selenium from plant metabolism to protect plant homeostasis.

Vitamin E and selenium plasma concentrations in weanling pigs under field conditions in Norwegian pig herds

Background  

The status of α-tocopherol (vit E) and selenium (Se) has been shown to influence disease resistance in pigs, and may be important for the health of weanling pigs.     

Long-term selenium supplementation of humans: Selenium status and relationships between selenium concentrations in skeletal muscle and indicator materials

Supplementation with elevated doses of l-selenomethionine (SeM) or selenium-enriched yeast that contains SeM as the main selenium species is frequently used as a protective or therapeutic measure. Information on the effects of long-term selenium supplementation on the body selenium status is, however, rather scarce. We therefore investigated fifteen male test persons who had taken selenium yeast and/or SeM supplements in medium doses of 62.5–125 μg Se/day or high doses of 200–262.5 μg Se/day for periods ranging from 1 year to 24 years. Seven non-supplemented men served as controls. As skeletal muscle is the main selenium pool, thigh muscle biopsy samples were taken. The selenium concentrations in these biopsies and in samples of the indicator materials blood, blood plasma, blood cells, head hair and toenails were determined by neutron activation analysis. Compared with the controls, the muscle selenium level was raised with additional selenium supplementation, but the relative increase in the mean muscle selenium concentration (by factors of about 1.6 and 2 for the medium and high doses, respectively) was lower than that in the selenium intake. Highly significant correlations found between the selenium concentrations in muscle and whole blood (R=0.90), red blood cells (R=0.91), blood plasma (R=0.87), head hair (R=0.89) and toenails (R=0.85) show that in humans supplemented in this way the selenium status can be assessed in a relatively easy way by analysis of the selenium retention in these indicator materials.     

Delivery of selenium to selenophosphate synthetase for selenoprotein biosynthesis

Background

Selenophosphate, the key selenium donor for the synthesis of selenoprotein and selenium-modified tRNA, is produced by selenophosphate synthetase (SPS) from ATP, selenide, and H₂O. Although free selenide can be used as the in vitro selenium substrate for selenophosphate synthesis, the precise physiological system that donates in vivo selenium substrate to SPS has not yet been characterized completely.

Up-regulation of CatSper genes family by selenium

Background  

CatSper1-4 are a unique family of sperm cation channels, which are exclusively expressed in the testis and play an important role in sperm motility and male fertility. Despite their vital role in male fertility, almost nothing is known about the factors regulating their expression. Here, we investigated the effects of selenium (Se) on the expression of CatSper genes and sperm parameters in aging versus young male mice.     

Immunomodulatory effect of selenosemicarbazides and selenium inorganic compounds, distribution in organs after selenium supplementation

Antioxidant properties of selenium producing a protective barrier against free radicals play an important role in numerous metabolic and immunologic processes associated with oxidation- reduction reactions which take place during intracellular digestion of phagocyted bacteria. The aim of our study was to examine the properties of an organic compound of selenium, 4-(o-tolilo)- selenosemicarbazide of p-chlorobenzoic acid in terms of its retention in organs, effect on erythropoesis and phagocytic abilities of neutrophiles as well as antioxidant properties in neutrophiles tested with NBT test. This compound as well as inorganic sodium selenate was given to Swiss mice at the dose of 10^–3 g Se/kg for the period of 10 days. The concentrations of selenium in livers of mice treated with sodium selenate and selenosemicarbazide were found to be higher than in controls (18,7 g lg^–1 and 23.2 g lg^–1 vs. 12 g lg^–1, respectively). Analysis of blood cells count has shown a significant decrease in neutrophile levels in both groups treated with selenium. The influence of selenium compounds on phagocytosis and especially NBT test has been determined (3.8% of positive cells in the controls vs. 2.2% and 0.9% in the groups treated with sodium selenate and selenosemicarbazide, respectively). Our preliminary investigations suggest that selenosemicarbazides are biologically active compounds and can modify neutrophile functions.     

Evolution of selenium utilization traits

Background  

The essential trace element selenium is used in a wide variety of biological processes. Selenocysteine (Sec), the 21st amino acid, is co-translationally incorporated into a restricted set of proteins. It is encoded by an UGA codon with the help of tRNA^Sec (SelC), Sec-specific elongation factor (SelB) and a cis-acting mRNA structure (SECIS element). In addition, Sec synthase (SelA) and selenophosphate synthetase (SelD) are involved in the biosynthesis of Sec on the tRNA^Sec. Selenium is also found in the form of 2-selenouridine, a modified base present in the wobble position of certain tRNAs, whose synthesis is catalyzed by YbbB using selenophosphate as a precursor.     

Effect of selenium fertilization on the accumulation of cadmium and lead in rice plants

Background and Aims

The accumulation of cadmium and lead in rice (Oryza sativa L.) grains is a potential threat to human health. In this study, the effect of selenium fertilization on the uptake and translocation of cadmium and lead in rice plants was investigated.

Methods

Rice plants were cultivated using cadmium and lead contaminated soils with selenium addition at three concentrations (0, 0.5 and 1 mg kg^?1). At maturity, plants were harvested, and element concentrations in rice tissues were analyzed by using ICP-MS.

Results

Selenium application significantly increased selenium accumulation in rice grain, and markedly decreased cadmium and lead concentrations in rice tissues. In brown rice grains, selenium application reduced cadmium concentrations by 44.4 %, but had no significant effect on lead accumulation. Selenium application significantly decreased metal mobility in soils, at 0.5 mg kg^?1 treatment, the translocation factor of cadmium and lead from soil to iron plaque decreased by 71 and 33 % respectively.

Conclusions

The mechanism of selenium mitigating of heavy metal accumulation in rice could be decreasing metal bioavailability in soil. Selenium fertilization could be an effective and feasible method to enrich selenium and reduce cadmium levels in brown rice.     

A tale of two toxicities: malformed selenoproteins and oxidative stress both contribute to selenium stress in plants

Background

Despite selenium''s toxicity in plants at higher levels, crops supply most of the essential dietary selenium in humans. In plants, inorganic selenium can be assimilated into selenocysteine, which can replace cysteine in proteins. Selenium toxicity in plants has been attributed to the formation of non-specific selenoproteins. However, this paradigm can be challenged now that there is increasingly abundant evidence suggesting that selenium-induced oxidative stress also contributes to toxicity in plants.

Scope

This Botanical Briefing summarizes the evidence indicating that selenium toxicity in plants is attributable to both the accumulation of non-specific selenoproteins and selenium-induced oxidative stress. Evidence is also presented to substantiate the claim that inadvertent selenocysteine replacement probably impairs or misfolds proteins, which supports the malformed selenoprotein hypothesis. The possible physiological ramifications of selenoproteins and selenium-induced oxidative stress are discussed.

Conclusions

Malformed selenoproteins and oxidative stress are two distinct types of stress that drive selenium toxicity in plants and could impact cellular processes in plants that have yet to be thoroughly explored. Although challenging, deciphering whether the extent of selenium toxicity in plants is imparted by selenoproteins or oxidative stress could be helpful in the development of crops with fortified levels of selenium.     

X-ray spectroscopy and imaging of selenium in living systems

Background

Selenium is an essential element with a rich and varied chemistry in living organisms. It plays a variety of important roles ranging from being essential in enzymes that are critical for redox homeostasis to acting as a deterrent for herbivory in hyperaccumulating plants. Despite its importance there are many open questions, especially related to its chemistry in situ within living organisms.

Factors associated with lamb mortalities in Muzaffarnagari sheep

The Muzaffarnagari sheep, a mutton-producing breed of India, is generally known for its fast growth rate and high feed conversion efficiency. The study identified the causes of perinatal and postnatal deaths and factors contributing to the cause of mortalities in lambs. Data were recorded for 4628 lambs born to Muzaffarnagari ewes in single-sire matings from 165 rams, between 1978 and 2002. The least-squares means for overall lamb mortality from birth to 1 year of age in the flock was 12.6% (582/4628), while the overall pre- and post-weaning mortality rate averaged 6.6% and 6.0%, respectively. The mortality rate of the lambs declined as the lambs grew older. The major causes associated with lamb losses were pneumonia (31.4%), digestive disorders (14.6%), starvation (9.6%), endoparasitism (5.0%), septicaemia and toxaemia (10.1%), accidental (2.1%) and undetermined causes (27.2%), respectively. The main causes of early lamb mortality (within 15 days of birth) were pneumonia followed by starvation. The highest lamb mortalities occurred within the first 15 days of life. The year of birth of the lamb significantly affected (P < 0.01) the cumulative lamb mortality rate at all ages. The sire of the lamb also had a significant (P < 0.01) effect on lamb mortality rate at all ages. Lambs reared under an intensive feeding management system had a remarkably (P < 0.01) lower mortality rate than lambs maintained under a semi-intensive management system, at 3 months of age and later. The lamb losses were significantly (P < 0.01) higher in ram lambs than in females during the post-weaning stages. The linear regressions of lamb birth weight and dam weight at lambing were highly significant (P < 0.01) with lamb mortality rate during pre- and post-weaning stages. Logistic regression analyses revealed lambs maintained under a semi-intensive system, to be at a greater risk of dying from all ailments than lambs maintained under intensive feeding systems. Male lambs had greater risk of death from respiratory, digestive and other causes, compared to their female counterparts. The findings of this study revealed causes of pre-weaning lamb mortalities to be mainly due to a low birth weight and non-parasitic diseases (predominantly pneumonia). These factors must be considered in any lamb production system.     

A randomized controlled trial of vitamin E and selenium on rate of decline in lung function

Background

The intake of nutrients with antioxidant properties is hypothesized to augment antioxidant defenses, decrease oxidant damage to tissues, and attenuate age-related rate of decline in lung function. The objective was to determine whether long-term intervention with selenium and/or vitamin E supplements attenuates the annual rate of decline in lung function, particularly in cigarette smokers.

Methods

The Respiratory Ancillary Study (RAS) tested the single and joint effects of selenium (200 μg/d L-selenomethionine) and vitamin E (400 IU/day all rac-α-tocopheryl acetate) in a randomized double-blind placebo-controlled trial. At the end of the intervention, 1,641 men had repeated pulmonary function tests separated by an average of 3 years. Linear mixed-effects regression models estimated the effect of intervention on annual rate of decline in lung function.

Results

Compared to placebo, intervention had no main effect on either forced expiratory volume in the first second (FEV₁) or forced expiratory flow (FEF_25–75). There was no evidence for a smoking by treatment interaction for FEV₁, but selenium attenuated rate of decline in FEF_25–75 in current smokers (P = 0.0219). For current smokers randomized to selenium, annual rate of decline in FEF_25–75 was similar to the annual decline experienced by never smokers randomized to placebo, with consistent effects for selenium alone and combined with vitamin E.

Conclusions

Among all men, there was no effect of selenium and/or vitamin E supplementation on rate of lung function decline. However, current smokers randomized to selenium had an attenuated rate of decline in FEF_25–75, a marker of airflow.

Trial registration

Clinicaltrials.gov identifier: NCT00241865.

Electronic supplementary material

The online version of this article (doi:10.1186/s12931-015-0195-5) contains supplementary material, which is available to authorized users.     

Arrhythmias in advance stiff lamb disease

Selenium and vitamin E deficiency has major and synergistic role on pathogenesis of stiff lamb disease. In severe cases, muscle degeneration may extend to myocardium and causes death. Due to this situation and for determining the type of arrhythmias that may result from myocardial degeneration in lambs, this study was carried out on 20 affected stiff lambs and 20 non-affected ones in Shahrekord district (Iran). The hearts of lambs were carefully heard and electrocardiogram (ECG) was performed to determine the type of arrhythmia. Blood samples were taken from jugular vein for measuring the serum concentration of selenium and vitamin E by atomic absorption spectroscopy and high-performance liquid chromatographic method (HPLC), respectively. Results showed that selenium and vitamin E concentrations of affected lambs were significantly lower than those of non-affected ones. In affected lambs seven numerous arrhythmias such as tachycardia, wandering pace maker, sinus arrhythmia, advanced second degree atrio-ventricular block, atrial fibrillation, atrial premature contraction and ventricular premature contraction were diagnosed. These types of arrhythmias showed that the myocardial degeneration in vitamin E and selenium deficiency was not limited to a specific region of heart and may influence the atrium, atrio-ventricular junction and ventricles as well.     

Iodine supplementation of the pregnant dam alters intestinal gene expression and immunoglobulin uptake in the newborn lamb

Excess iodine intake by the pregnant dam reduces lamb serum antibody concentration, specifically immunoglobulin G (IgG). An experiment was conducted to investigate the mechanisms under pinning the reduced serum IgG concentration at 24 h postpartum in the progeny of iodine supplemented dams. Forty-five mature twin bearing ewes (n=15/treatment) were allocated to one of three dietary treatments as follows: basal diet (Control); basal diet plus 26.6 mg of iodine per ewe per day as calcium iodate (CaIO₃); or potassium iodide (KI). Ewes were individually housed and fed from d 119 of gestation until parturition. All lambs received colostrum at 1, 10 and 18 h postpartum via stomach tube. At 1 h postpartum lambs from the control and an iodine supplemented treatment (n=10 per treatment from control and CaIO₃) were euthanised before colostrum consumption and ileal segments isolated to determine the gene expression profile of a panel of genes identified as having a role in antibody transfer. Preceding euthanasia, lambs were blood sampled for determination of serum IgG, total thyroxine and free tri-iodothyronine concentrations. Progeny of CaIO₃ supplemented dams had lower tri-iodothyronine concentrations (P<0.01) at 1 h postpartum and lower serum IgG concentrations (P<0.001) at 24 h postpartum when compared with the progeny of control dams. Iodine (CaIO₃) supplementation of the dam increased the relative expression (P<0.05) of the B2M, PIGR and MYC genes in the ileum of the lamb, before colostrum consumption; while the expression of THRB declined when compared with the progeny of C dams (P<0.01). In conclusion, the results of this study show that it is the actual inclusion of excess iodine in the diet of the ewe, regardless of the carrier element, that negatively affects passive transfer in the newborn lamb. This study presents novel data describing the relationship between maternal iodine nutrition and its effect on the thyroid hormone status and subsequent gene expression in the newborn lamb; which results in a failure of passive transfer and a decline in serum IgG concentration.     

Muscle GSH-Px activity after prolonged exercise,training, and selenium supplementation

A double-blind study of the effects of supplementing with selenium vs. placebo on the physiological responses to acute and chronic exercise was conducted in 24 healthy, nonsmoking males, mean age 22.9±2.1 yr, randomly divided into two groups of 12 (Pla/Sel). After a controlled period in the absence of training, all subjects were put on an individualized endurance training program with the same rules of progression and overload (3 sessions/wk×10 wk). Supplementation, either real (240 μg of organic selenium/d in Sel group) or imaginary (Pla group) was administered during the same period. In each of the conditions Pre- and Post- (training ± sel supplementation), muscle, plasma, and systemic parameters were determined before (BF) and after (AF) acute exercise, involving the repetition of muscle work cycles separated by 5-min recovery periods, combining 20 min at 65% and a maximal duration of 100% VO₂ max of running on a treadmill, leading the subjects to exhaustion between 2 h 40 min and 3 h 30 min. Changes in parameters as a function of three independent variables:

1. Acute exercise (E);
2. Chronic exercise (T); and
3. Selenium supplementing (S)

were tested with ANOVA and the Student\rsst-test on paired series. Among the variables examined, muscle glutathione peroxidase (GPx) presented a remarkable behavior. Enzymatic activity:

1. Decreased significantly (p<0.05,n=24) between the beginning and the end of acute exercise: 29.6±12 vs. 20.8±8.1 IU·g protein^?1 in Pre conditions;
2. Remained at the same level in resting conditions between the beginning and end of training (from Pre to Post) regardless of the group: 33.5±10.8 vs. 32.3±19.8 and 25.7±12.4 vs. 23.5±10.2 IU·g protein^?1 in Pla and Sel subjects, respectively; and
3. Increased from 23.5±10.2 to 37.3±28.5 (P=0.057) during acute exercise in Post-conditions (after training) in supplemented subjects (Sel group).

The situation was as if acute exercise played the role of allosteric stimulator of the GPx reaction in muscle.     

Nutritional value of fermented olive wastes in growing lamb rations

In an experiment with 40 growing Florina (Pelagonia) lambs, effects of replacing barley grain, sugar beet pulp, and alfalfa meal with fermented olive wastes (FOW) and soybean meal on productivity and meat composition was determined. In the 45-day experiment, lambs were allocated to one of the four treatments of 10 lambs (5 male and 5 female) each. Male and female lambs had an initial body weight (BW) of 19.7 ± 0.8 and 19.5 ± 0.8 kg, respectively, and were individually fed a concentrate mixture ad libitum and alfalfa hay (0.18 kg/lamb/day, dry matter (DM) basis). The FOW was added to the concentrate mixtures at inclusion levels (as fed basis) of 0, 50, 100, and 150 kg/t for treatments FOW0, FOW50, FOW100, and FOW150, respectively. Male lambs grew faster (P<0.01) than female lambs, but no differences (P>0.05) occurred among FOW treatments in final BW, BW gain, DM intake, or feed conversion ratio. Males had heavier (P<0.01) fasted BW and cold carcass weight, and lower (P=0.04) carcass yield than females, but no differences in carcass components among treatments were detected. FOW can be incorporated into concentrates for growing lambs, at levels up to 150 kg/t, with no adverse effects on performance or carcass characteristics.