Temporal and spatial expression of an intestinal Na+/PO43− cotransporter correlates with epithelial transformation during thyroid hormone-dependent frog metamorphosis

The amphibian intestine has two morphologically distinct structures during development. Early embryogenesis generates a simple tube-like intestine in the tadpole whereas after thyroid hormone (T₃)-dependent metamorphosis a newly remodeled adult intestine is formed similar to that of higher vertebrates. This change requires a drastic transformation of the epithelial layer. We have isolated a Na⁺/PO₄³⁻ cotransporter gene that may contribute to this transformation. The deduced amino acid sequence of this gene shows a high degree of homology to the mammalian renal NA⁺/PO₄³⁻ cotransporters, which have little or no expression in organs other than the kidney. The frog gene is highly expressed and regulated by T₃ in the intestine with little expression and/or regulation by T₃ in most other organs. Its mRNA is restricted to the differentiated epithelial cells both in tadpoles and postmetamorphic frogs. Interestingly, its expression is low in premetamorphic tadpoles, but up-regulated when metamorphosis is initiated by endogenous T₃. As the larval epithelium undergoes programmed cell death (apoptosis), the mRNA level drops to a minimum. Subsequently, the gene is reactivated at the tip region of the newly formed adult intestinal folds and a crest-trough polarity of expression is established by the end of metamorphosis. This temporal regulation profile is also reproduced when premetamorphic tadpoles are treated with T₃ to induce precocious intestinal remodeling. These results suggest a possible role of the Na⁺/PO₄³⁻ cotransporter during metamorphosis and demonstrate that the adult epithelial cell differentiation pattern is established in the direction of crest-to-trough of the intestinal fold, concurrent with the epithelial morphogenic process. Dev Genet 20:53–66, 1997. © 1997 Wiley-Liss, Inc.     

Influence of ration level and rearing temperature on hepatic GHR1 and 2, and hepatic and intestinal TRα and TRβ gene expression in late stages of rainbow trout embryos

The study examined whether the early life-history temperature experience of rainbow trout Oncorhynchus mykiss embryos affects subsequent growth and expression of growth-related genes in the growing-up juveniles in response to variations in ration levels. Embryos were reared in a Heath incubator at either 8·5° C (E_8·5) or 6·0° C (E_6·0) until hatching, at which time they were transferred to grow-up tanks supplied with water at 8·5° C. At swim-up, the late stage embryos were subsequently fed a salmonid starter diet at levels of 5, 2 or 0·5% of live body mass per day. The body mass and proximate composition of the juveniles was examined when yolk absorbance was complete (21 days after the fish commenced feeding). Quantitative RT-PCR was used to examine the expression of mRNA encoding for growth hormone receptors 1 and 2 (GHR1 and GHR2) in the liver, and the two isoforms of thyroid hormone receptor (TRα and TRβ) in the liver and intestinal tract. Final body mass and total length, liver and intestinal masses, and total lipid content of the E_8·5 treatment group were directly related to increased ration size. These variables in the E_6·0 treatment group fed the 5% ration were significantly lower than for the comparable E_8·5 treatment group, suggesting an effect of embryo rearing temperature on the subsequent growth of these late stage embryos as they undergo the transition from embryo to early juvenile. Intestinal TRα and TRβ mRNA abundance was directly related to ration size in the E_8·5 treatment group, but not in the E_6·0 treatment group. Conversely, hepatic TRα and TRβ mRNA abundance was significantly affected by ration size only in the E_6·0 group, with TRβ and TRα abundance showing direct and inverse relationships with ration size, respectively. Hepatic GHR1 mRNA abundance was significantly and directly related to ration size in both the E_8·5 and E_6·0 treatment groups, but there were no differences in the abundance of hepatic GHR2 mRNA among any treatments.     

Identification of thyroid hormone response elements in?vivo using mice expressing a tagged thyroid hormone receptor α1

TRα1 (thyroid hormone receptor α1) is well recognized for its importance in brain development. However, due to the difficulties in predicting TREs (thyroid hormone response elements) in silico and the lack of suitable antibodies against TRα1 for ChIP (chromatin immunoprecipitation), only a few direct TRα1 target genes have been identified in the brain. Here we demonstrate that mice expressing a TRα1–GFP (green fluorescent protein) fusion protein from the endogenous TRα locus provide a valuable animal model to identify TRα1 target genes. To this end, we analysed DNA–TRα1 interactions in vivo using ChIP with an anti-GFP antibody. We validated our system using established TREs from neurogranin and hairless, and by verifying additional TREs from known TRα1 target genes in brain and heart. Moreover, our model system enabled the identification of novel TRα1 target genes such as RNF166 (ring finger protein 166). Our results demonstrate that transgenic mice expressing a tagged nuclear receptor constitute a feasible approach to study receptor–DNA interactions in vivo, circumventing the need for specific antibodies. Models like the TRα1–GFP mice may thus pave the way for genome-wide mapping of nuclear receptor-binding sites, and advance the identification of novel target genes in vivo.     

Characterization of γ-glutamyltranspeptidase in the liver of the frog: 3. Response to freezing and thawing in the freeze-tolerant wood frog Rana sylvatica

The freeze tolerant wood frog Rana sylvatica was studied to determine the impact of the freezing and thawing of this frog on the activity of γ-glutamyltranspeptidase in the liver. On exposure to ?2·5°C, for 1, 12 and 24 h, frogs were found to be cool, covered with ice crystals and frozen, respectively. Thawing for 24 h at 4°C recovered the frogs completely. A 45 per cent decrease in the liver weight: body weight ratio was notable after 1 h at ?2·5°C, suggestive of an early hepatic capacitance response. A glycemic response to freezing was observed: blood glucose levels exhibited a 55 per cent decrease after 1 h at ?2·5°C on cooling; a 10·5-fold increase after 12 h at ?2·5°C on the initiation of freezing; and a 22-fold increase after 24 h at ?2·5°C in the fully frozen state. Blood glucose levels remained elevated four-fold in the thawed state. Plasma insulin levels were increased twofold in the frozen state and 1·8-fold in the thawed state, while plasma ketone levels were increased 1·8-fold in the frozen state and 1·5-fold in the thawed state. Plasma total T₃ levels were decreased by 22 per cent in the frozen state and normalized on thawing. In homogenates and plasma membranes isolated from the livers of Rana sylvatica, the activity of γ-glutamyltranspeptidase was found to be elevated at all stages of the freeze–thaw process. After 1, 12 and 24 h at ?2·5°C, activities were increased 2·5-, 2·3-, 2·4-fold respectively in the homogenates and 2·5-, 2·2-, 2·4-fold respectively in the plasma membranes. After thawing, activities were still increased 1·9-fold in both homogenates and plasma membranes. In homogenates prepared from the kidneys of Rana sylvatica, the activity of γ-glutamyltranspeptidase was increased 1·4-fold after 1 h at ?2·5°C after which it returned to normal. The role of thyroid hormone in producing the increase in γ-glutamyltranspeptidase in the liver of Rana sylvatica in response to freezing is discussed as is the significance of the enzyme increase in terms of hepatic cytoprotection and freeze tolerance.     

Neuroprotective activity of cannabinoid receptor‐2 against oxidative stress and apoptosis in rat pups having experimentally‐induced congenital hypothyroidism

In this study, it was aimed to show the cannabinoid receptor‐2 (CB2) role, which is a part of neuroprotective endocannabinoidal system, against increasing nitric oxide synthetase (iNOS, eNOS) levels and the apoptotic activity (caspase‐3, caspase‐9, and DNA in situ fragmentation) within the postnatal critical period in pups of pregnant rats with artificially induced maternal thyroid hormone (TH) deficiency. Each of the three groups established comprised one male and two female rats, and they were coupled. Their pups were used. In the first two groups, the mothers were treated with 0.025% MMI during the critical period of the pregnancy. In the third group, as the control group, the mothers and pups were not treated. Euthanasia was applied to the pups in Group I on Day 10, and to the pups in Groups II and III on Day 21. In the biochemical analyses, total T4 levels of both mothers and pups in Group I and II were found to be lower than those of the control group. Histopathologically, karyopyknosis in migrating neurons and demyelinization were observed in both groups. Caspase‐3 and −9 expressions and TUNEL reactions showed parallelism to these findings. eNOS and iNOS activities were also increased in Groups I and II. CB2 receptor activity was observed in the fore and mid brain in Group I, and in the whole brain in Group II. In conclusion, apoptosis was triggered via oxidative stress in hypothyroid pups. Accordingly, neuroprotective activity of CB2 receptors were motivated spontaneously to resist to CNS lesions during the first 3 weeks of postnatal period. © 2017 Wiley Periodicals, Inc. Develop Neurobiol 77: 1334–1347, 2017     

Thyroid hormones are important for embryonic to larval transitory phase in zebrafish

In zebrafish, like many other teleost species, the development and differentiation of many major organs continue unabated into the yolk-sac larval stage before culminating in a free-swimming larva capable of exogenous feeding. We investigated the role of thyroid hormone (TH) in this important embryonic to larval transitory phase. Thyroid hormone receptor (TR) alpha and beta mRNAs are expressed during the early stages of zebrafish embryonic development. Beginning from the midblastula stage, the level of TR beta mRNAs increases dramatically and is maintained until the end of the transitory phase. Excessive exogenous thyroxine (T4; 30 nM) is toxic and causes severe developmental defects. Cotreatment of embryos with amiodarone, an antagonist of TR, and goitrogen methimazole (MMI) lead to severe retardation in the maturation of the gastrointestinal system, swim bladder, and the lower jaw cartilages and the resorption of the yolk sac. The developmental arrest is lethal, and treated larvae do not survive beyond 7 day postfertilization (dpf), but can be completely rescued by the presence of 10 nM T4. We propose that the embryonic to larval transitory phase in many teleost species is characterized by its dependency on the timely synthesis of TH and the concomitant autoinductive increase in TR beta mRNA levels.     

有机磷阻燃剂TDCIPP对雌性大鼠甲状腺的潜在毒性作用

目的: 研究磷酸三(1, 3-二氯-2-丙基)酯(TDCIPP)对雌性大鼠甲状腺系统的潜在毒性作用及机制。方法: 将32只离乳3周的雌性SD大鼠随机分为对照组(玉米油灌胃)及TDCIPP低、中、高剂量组(50、100、250 mg/kg·d,溶于玉米油)(n=8),灌胃给药21 d,每天1次。于末次给药后处死动物,取血和甲状腺、肝脏,检测血清中促甲状腺激素(TSH)、三碘甲腺原氨酸(T3), 甲状腺素(T4)和游离甲状腺素(FT4)水平变化;组织切片(HE染色)用于检测甲状腺形态学病变;RT-PCR技术与Western blot技术检测与甲状腺功能相关的基因和蛋白表达的变化。结果: 与对照组比较,TDCIPP染毒后大鼠甲状腺出现滤泡排列不规则、胶质变少、滤泡增生、肥大等现象,TDCIPP低剂量组的血清TSH水平和高剂量组的T3水平均显著升高(P＜0.05),低剂量组促甲状腺激素受体(TSHR)mRNA表达和中、高剂量组甲状腺激素受体β(TRβ)蛋白表达均显著降低(P＜0.05,P＜0.01),中、高剂量组甲状腺过氧化物酶(TPO)mRNA表达显著增高(P＜0.05,P＜0.01),三个剂量组尿苷二磷酸葡萄糖醛酸转移酶(UGTs)、细胞色素氧化酶-3A1(CYP3A1)蛋白表达水平显著上调(P＜0.05)。结论: 大鼠暴露在50 mg/(kg·d)以上剂量的TDCIPP,即可以刺激甲状腺组织的增生,改变血清中甲状腺素的水平,干扰甲状腺的功能,表现出对甲状腺的毒性作用。     

Propranolol has direct antithyroid activity: Inhibition of iodide transport in cultured thyroid follicles

The effect of propranolol on the process of thyroid hormone formation was studied in a physiological culture system. Porcine thyroid follicles were preincubated with propranolol for 24 h. Iodide transport, iodine organification, and de novo thyroid hormone formation were measured by incubating these follicles with the mixture of carrier-free 0·1 μCi Na ¹²⁵I and 50 nM NaI for 2 to 6 h at 37°C. A concentration of propranolol greater than 100 μM inhibited iodide transport in a dose-dependent manner; this inhibition was non-competitive with iodide and independent of thyrotropin (TSH). Reduced iodine organification and thyroid hormone formation was seen with 150 μM propranolol or greater. The inhibitory action of propranolol was not caused by beta-blocking activity, since D -propranolol (devoid of beta-blocking activity) inhibited iodide transport, and other beta-blockers (metoprolol, atenolol, and labetalol) did not inhibit iodide transport. The inhibition of iodide transport was most likely caused by membrane stabilizing activity since quinidine, which possess the same membrane stabilizing activity as propranolol, also inhibited iodide transport. TSH-mediated cAMP generation and Na ⁺K⁺ ATPase activity, membrane functions for iodide transport, were unaffected by propranolol. Our study has shown, for the first time, that propranolol has a direct antithyroid action, namely inhibition of iodide transport in the intact thyroid follicle.     

碘与甲状腺疾病

碘是人体必需的微量元素,是合成甲状腺激素（thyroid hormone,TH）的主要原料。人体内的碘主要从饮水及食物中获取。碘的摄入缺乏或过量,不仅对TH的合成及分泌有至关重要的影响,而且与甲状腺形态及多种甲状腺疾病的发生、发展及转归密切相关。加碘盐的推广有效预防了碘缺乏可能引起的相关疾病;而碘过量导致的甲状腺疾病谱和发病率的急剧变化,也引起各界高度重视。流行病学调查表明,碘的摄入量与甲状腺功能亢进、自身免疫性甲状腺炎、甲状腺功能减退、甲状腺肿大和甲状腺癌等疾病的发病率密切相关。针对碘的相关生物学问题,对近年来的基础研究和人群研究进行综述,希望借此抛砖引玉,引起相关部门的重视,提高人民群众对碘营养的科学认识水平。     

一个改进的下丘脑-垂体-甲状腺轴的数学模型

提出一个改进的下丘脑-垂体-甲状腺轴的数学模型.该模型既考虑了此分泌调节系统各激素之间的激活和反馈作用,也考虑了甲状腺激素与蛋白质结合的动力学过程.由该模型推导的结果与实验结果符合得很好.     

甲状腺激素对小鼠免疫功能的调节作用

正常昆明种成年小鼠每天给予一定量的甲状腺激素可使其抗体生成能力、淋巴细胞转化能力、迟发型超敏反应和巨噬细胞的吞噬功能明显增强,外周血成熟 T 细胞数量亦明显增加。而每天给予抗甲状腺药物则使其抗体生成能力、淋巴细胞转化能力和迟发型超敏反应明显降低。切除甲状腺亦使抗体生成能力下降。这些结果提示甲状腺激素参与免疫功能的生理性调节。     

Histo-morphology of the thyroid gland during the larval development of Pleurodema borellii (Anura,Leptodactylidae)

The thyroid gland is essential in anurans, since thyroid hormones (TH) are the main regulators of larval development. Its absence or inactivity interrupts development and precludes metamorphosis. Histological changes are important diagnostic criteria for evaluating thyroid gland activity. However, there is a large larval diversity where the development of the thyroid gland development has not been studied. Pleurodema borellii is an anuran from northwest of Argentina with typical omnivorous pond tadpoles that can be easily raised in captivity. This study explores the histo-morphological changes of the thyroid gland architecture during larval development. Histological parameters indicate peak glandular activity in parallel with the intensity of the metamorphic transformations. These parameters regress towards the end of metamorphosis, indicating low TH release. P. borellii's thyroid gland does not appear to have relevant activity in post-metamorphic juvenile stages. This study is a first step towards understanding endocrine regulation during the development of Pleurodema borellii, and a reference to future studies in this species involving thyroid-dependent processes.