Developmental Changes in Rat Brain 5′-Deiodinase and Thyroid Hormones during the Fetal Period: The Effects of Fetal Hypothyroidism and Maternal Thyroid Hormones

Oña, Carmen Ruiz de; Obregón, Marı́a Jesús; Rey, Francisco Escobar del; Escobar, Gabriella Morreale de

doi:10.1203/00006450-198811000-00010

Cited by 108 publications

(26 citation statements)

References 35 publications

(32 reference statements)

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“…This response was, however, not present in all brain regions, and it was less pronounced than the strong response in the brain of adult hens. Together with the fact that there was no compensatory increase in D2 activity in the brain at E6, this confirms earlier observations that the typical compensatory response of deiodinases to altered TH availability is not yet mature in young embryos/foetuses (Ruiz de Ona et al 1988, Gereben et al 2008, Sharlin et al 2010. The single changes found in D2 and MCT8 mRNA in different brain regions of E14 embryos are also not in line with a compensatory response at the level of gene expression and rather point to a delay in the normal ontogenetic expression pattern of these genes in hypothyroid MMI embryos .…”

Section: Discussionsupporting

confidence: 76%

“…Maternally derived MMI can block the developing thyroid gland as shown repeatedly in rats (Comer & Norton 1985, Ruiz de Ona et al 1988, Calvo et al 1990). However, the early vertebrate brain is highly dependent on adequate 3,5,3 0 -triiodothyronine (T 3 ) availability, and it may not yet be able to compensate for a reduced TH supply by an increase in type 2 iodothyronine deiodinase (D2) activity as observed in the adult brain (Ruiz de Ona et al 1988. Apart from inhibiting TH production, it has been found more recently that MMI may also have local anti-thyroid effects in tissues by directly suppressing transcriptional activities mediated by T 3 and its receptors (Moriyama et al 2007).…”

Section: Introductionmentioning

confidence: 99%

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Maternal transfer of methimazole and effects on thyroid hormone availability in embryonic tissues

Herck

Geysens²,

Bald³

et al. 2013

Journal of Endocrinology

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Methimazole (MMI) is an anti-thyroid drug used in the treatment of chronic hyperthyroidism. There is, however, some debate about its use during pregnancy as MMI is known to cross the mammalian placenta and reach the developing foetus. A similar problem occurs in birds, where MMI is deposited in the egg and taken up by the developing embryo. To investigate whether maternally derived MMI can have detrimental effects on embryonic development, we treated laying hens with MMI (0.03% in drinking water) and measured total and reduced MMI contents in the tissues of hens and embryos at different stages of development. In hens, MMI was selectively increased in the thyroid gland, while its levels in the liver and especially brain remained relatively low. Long-term MMI treatment induced a pronounced goitre with a decrease in thyroxine (T 4 ) content but an increase in thyroidal 3,5,3 0 -triiodothyronine (T 3 ) content. This resulted in normal T 3 levels in tissues except in the brain. In chicken embryos, MMI levels were similar in the liver and brain. They gradually decreased during development but always remained above those in the corresponding maternal tissues. Contrary to the situation in hens, T 4 availability was only moderately affected in embryos. Peripheral T 3 levels were reduced in 14-day-old embryos but normal in 18-day-old embryos, while brain T 3 content was decreased at all embryonic stages tested. We conclude that all embryonic tissues are exposed to relatively high doses of MMI and its oxidised metabolites. The effect of maternal MMI treatment on embryonic thyroid hormone availability is most pronounced for brain T 3 content, which is reduced throughout the embryonic development period.

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Section: Discussionsupporting

confidence: 76%

Section: Introductionmentioning

confidence: 99%

Maternal transfer of methimazole and effects on thyroid hormone availability in embryonic tissues

Herck

Geysens²,

Bald³

et al. 2013

Journal of Endocrinology

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“…In this respect, it is interesting that the progeny from LID dams show increased audiogenic seizure susceptibility (37,48). The observed reduction in the thickness of the stratum radiatum in LID-1 and LID-2 pups suggests a reduction in the length of apical dendrites of pyramidal neurons, such as has been reported in granule and pyramidal cells of the hippocampus of goitrogen-treated hypothyroid rat pups (49).…”

Section: Figurementioning

confidence: 92%

“…observed in the maternal plasma (31,37,38). Thus, the thyroidectomized dams have very low circulating levels of T4 and T3 up to E21, as do all samples obtained from the conceptus between E9 and E18 -namely, E9-E12 embryotrophoblasts, E9-E12 placentas, and E13-E17 whole embryos.…”

Section: Discussionmentioning

confidence: 99%

Early maternal hypothyroxinemia alters histogenesis and cerebral cortex cytoarchitecture of the progeny

Ausó²,

et al. 2003

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“…Their fetuses are also unable to synthesize enough T4 because of the lack of iodine. Thus, throughout pregnancy, the fetal brain does not receive enough T4, which is the only source of cerebral T3 during fetal development (23). This would explain the greater severity of the CNS damage caused by iodine deficiency.…”

Section: Introductionmentioning

confidence: 99%

Early effects of iodine deficiency on radial glial cells of the hippocampus of the rat fetus. A model of neurological cretinism.

Martinez-Galán¹,

Pedraza²,

Santacana³

et al. 1997

J. Clin. Invest.

103

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The most severe brain damage associated with thyroid dysfunction during development is observed in neurological cretins from areas with marked iodine deficiency. The damage is irreversible by birth and related to maternal hypothyroxinemia before mid gestation. However, direct evidence of this etiopathogenic mechanism is lacking. Rats were fed diets with a very low iodine content (LID), or LID supplemented with KI. Other rats were fed the breeding diet with a normal iodine content plus a goitrogen, methimazole (

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Developmental Changes in Rat Brain 5′-Deiodinase and Thyroid Hormones during the Fetal Period: The Effects of Fetal Hypothyroidism and Maternal Thyroid Hormones

Cited by 108 publications

References 35 publications

Maternal transfer of methimazole and effects on thyroid hormone availability in embryonic tissues

Maternal transfer of methimazole and effects on thyroid hormone availability in embryonic tissues

Early maternal hypothyroxinemia alters histogenesis and cerebral cortex cytoarchitecture of the progeny

Early effects of iodine deficiency on radial glial cells of the hippocampus of the rat fetus. A model of neurological cretinism.

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