sodium-perchlorate and Body-Weight

A lack of thyroid hormone, i.e. hypothyroidism, during early development results in multiple morphological and functional alterations in the developing brain. In the present study, behavioural effects of perinatal and chronic hypothyroidism were assessed during development in both male and female offspring of hypothyroid rats. To induce hypothyroidism, dams and offspring were fed an iodide-poor diet and drinking water with 0.75% sodium perchlorate; dams starting 2 weeks prior to mating and pups either until the day of killing (chronic hypothyroidism) or only until weaning (perinatal hypothyroidism) to test for reversibility of the effects observed. Neuromotor competence, locomotor activity and cognitive function were monitored in the offspring until postnatal day 71 and were compared with age-matched control rats. Early neuromotor competence, as assessed in the grip test and balance beam test, was impaired by both chronic and perinatal hypothyroidism. The open field test, assessing locomotor activity, revealed hyperactive locomotor behavioural patterns in chronic hypothyroid animals only. The Morris water maze test, used to assess cognitive performance, showed that chronic hypothyroidism affected spatial memory in a negative manner. In contrast, perinatal hypothyroidism was found to impair spatial memory in female rats only. In general, the effects of chronic hypothyroidism on development were more pronounced than the effects of perinatal hypothyroidism, suggesting the early effects of hypothyroidism on functional alterations of the developing brain to be partly reversible and to depend on developmental timing of the deficiency.

Topics: Age Factors; Animals; Behavior, Animal; Body Weight; Brain; Chronic Disease; Cognition; Disease Models, Animal; Female; Hypothyroidism; Iodine; Male; Memory; Motor Activity; Perchlorates; Pregnancy; Prenatal Exposure Delayed Effects; Rats; Rats, Wistar; Sodium Compounds; Thyroid Hormones; Thyrotropin

The objectives of this study were to determine the effects of prolonged exposure to perchlorate on (1) thyroid status and reproductive performance of adult zebrafish (Danio rerio) and (2) F1 embryo survival and early larval development. Using a static-renewal procedure, mixed sex populations of adult zebrafish were exposed to 0, 10, and 100 mg/l nominal concentrations of waterborne perchlorate for 10 weeks. Thyroid histology was qualitatively assessed, and females and males were separated and further exposed to their respective treatments for six additional weeks. Eight females in each tank replicate (n = 3) were paired weekly with four males from the same respective treatment, and packed-egg (spawn) volume (PEV) was measured each of the last five weeks. At least once during weeks 14-16 of exposure, other end points measured included fertilization rate, fertilized egg diameter, hatching rate, standard length, and craniofacial development of 4-day-postfertilization larvae and thyroid hormone content of 3.5-h embryos and of exposed mothers. At 10 weeks of exposure, perchlorate at both concentrations caused thyroidal hypertrophy and colloid depletion. A marked reduction in PEV was observed toward the end of the 6-week spawning period, but fertilization and embryo hatching rates were unaffected. Fertilized egg diameter and larval length were increased by parental exposure to perchlorate. Larval head depth was unaffected but the forward protrusion of the lower jaw-associated cartilage complexes, Meckel's and ceratohyal, was decreased. Exposure to both concentrations of perchlorate inhibited whole-body thyroxine content in mothers and embryos, but triiodothyronine content was unchanged. In conclusion, prolonged exposure of adult zebrafish to perchlorate not only disrupts their thyroid endocrine system but also impairs reproduction and influences early F1 development.

Topics: Analysis of Variance; Animals; Body Weight; Dose-Response Relationship, Drug; Embryo, Nonmammalian; Female; Larva; Male; Ovum; Perchlorates; Reproduction; Sodium Compounds; Thyroid Gland; Thyroxine; Time Factors; Triiodothyronine; Water Pollutants, Chemical; Zebrafish

In soleus muscle fibres of hypothyroid rats, the membrane potential (Vm) and the intracellular K+ activity (aKi) were significantly lower than in control muscles. These results are consistent with the well-documented decrease in the number of Na(+)-K+ pumps which occurs in hypothyroid muscles. aNai was unchanged in the hypothyroid muscles but this may reflect a change in passive Na+ fluxes which has been reported to occur in association with changes in the number of pump units.

Topics: Animals; Body Weight; Hypothyroidism; Intracellular Membranes; Male; Muscles; Myocardium; Organ Size; Osmolar Concentration; Perchlorates; Potassium; Rats; Rats, Inbred Strains; Sodium; Sodium Compounds