Tissue localization of [125I]triiodothyronine in the periorbital area of mice: a microautoradiographic study

C. Sawas-Dimopoulou , E. Papanastasiou , A. Angelis , N. Toubanakis , L. Margaritis
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引用次数: 2

Abstract

A significant retention of [125I]triiodothyronine ([125I]T3) in the retrobulbar orbital area of mice has been previously shown. The present study was initiated to determine tissue and intracellular localization of the thyroid hormone in the above area which is concerned in human Graves' disease of the thyroid.

Male and female Balb C mice were intravenously injected with 0.1 mL of [125I]T3 (0.2 mCi/gmg). At various time intervals (30 s-10 min) the animals were sacrificed, bled and periorbital tissues were isolated under a dissecting microscope. Three series of samples were prepared: (a) frozen samples for cryomicrotome sections, (b) samples fixed in 10% formaldehyde for paraffin embedded tissues and (c) samples fixed in paraformaldehyde (2%), glutaldehyde (2%) and 0.1 M sodium cacodylate for embedding in Epon-Araldite-DDSA. Sections 5 μ m and 400–600 Å thick for light and electron microscopy, respectively, were coated with Ilford L4 emulsion and exposed for 9–21 days. Light microscope autoradiography demonstrated that [125I]T3 injected intravenously is rapidly transported in the cells of fat tissue of the peribulbar orbital area and tissues with glandular or muscular function: the hormone showed a high affinity for the intra- and extraorbital lacrymal gland cells, the cells of the Harder's gland, those of the sebaceous and meibomian glands of the eye-lids, as well as for local muscular structures. Electron microscope autoradiography showed that radioactivity is already localized inside the cells 30 s after the i.v. injection of [125I]T3 and it is distributed throughout the cytoplasm, with a higher concentration in the vesicles of the Harder's gland cells (rich in lipids and porphyrin), in the endoplasmic reticulum and the mitochondria of the lacrymal glands. 10 min after injection, a shifting of the radioactivity towards the nucleus area was observed. In conclusion, after vivo injection, the thyroid hormone rapidly penetrates the cells of fat glandular and muscular tissues in the orbital area. Intracellularly, the affinity of the hormone for the secretory vesicles, rough endoplasmic reticulum, mitochondria and nucleus suggest that T3 could play a role in secretory and metabolic functions of the tissues in the retrobulbar orbital area.

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[125I]三碘甲状腺原氨酸在小鼠眶周区域的组织定位:显微放射自显影研究
[125I]三碘甲状腺原氨酸([125I]T3)在小鼠球后眶区有显著的保留。本研究旨在确定甲状腺激素在上述区域的组织和细胞内定位,这与人类甲状腺Graves病有关。雄性和雌性Balb C小鼠静脉注射0.1 mL [125I]T3 (0.2 mCi/gmg)。在不同的时间间隔(30 s-10 min)处死动物,在解剖显微镜下分离出血和眶周组织。制备了三个系列的样品:(a)冷冻样品用于冷冻组切片,(b) 10%甲醛固定样品用于石蜡包埋组织,(c)多聚甲醛(2%)、谷二醛(2%)和0.1 M羧酸钠固定样品用于epon - aralte - ddsa包埋。光镜下厚度为5 μ m、电镜下厚度为400-600 Å的切片分别涂覆Ilford L4乳剂,曝光9-21天。光镜放射自显像显示静脉注射的[125I]T3在球周眶区脂肪组织和具有腺体或肌肉功能的组织细胞中快速运输,对眶内和眶外泪腺细胞、哈氏腺细胞、眼睑皮脂腺和睑板腺细胞以及局部肌肉结构具有高亲和力。电镜放射自显像显示,在静脉注射[125I]T3 30 s后,放射性已定位于细胞内,并分布于细胞质中,在哈氏腺细胞的囊泡(富含脂质和卟啉)、内质网和泪腺的线粒体中浓度较高。注射后10分钟,观察到放射性向核区转移。综上所述,体内注射后,甲状腺激素迅速渗透到眶区脂肪、腺体和肌肉组织细胞中。细胞内,激素对分泌囊泡、粗内质网、线粒体和细胞核的亲和力提示T3可能在球后眶区组织的分泌和代谢功能中发挥作用。
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