刺激和抑制促甲状腺和促生长细胞分泌活性引起的促甲状腺和促生长细胞群的变化。

The Histochemical Journal Pub Date : 1995-05-01
A I Torres, H A Pasolli, C A Maldonado, A Aoki
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引用次数: 0

摘要

在大鼠脑垂体中产生免疫反应性生长激素(GH)和促甲状腺激素(TSH)的细胞群并不是固定的百分比,而是在不同的生理和实验条件下有很大的差异。这些变化可以直接与刺激和/或抑制特定分泌活性的水平相关。在这两种类型的细胞中,营养激素的持续刺激或反馈机制的阻断可诱导特定细胞群的显着生长。相反,刺激的中断或抑制阻碍了激素的分泌,导致多余细胞的大量退化。GH和TSH细胞的刺激伴随着分泌活性的增强,这可以从它们在血清中的浓度升高和参与激素合成和细胞内加工的细胞质细胞器的肥大来判断。相反,刺激中断后,细胞质组织会出现不同程度的破坏,包括相当大的细胞变性。在受刺激的大鼠中,由于分泌颗粒中的激素储存被动员,垂体组织中GH和TSH的浓度显著降低。另一方面,刺激的退出阻碍了激素的释放;这反映在垂体组织中激素和分泌颗粒的积累上。本研究报告的GH和TSH群体的大小与激素分泌活性的刺激和抑制之间的密切相关进一步支持了细胞更新过程在内分泌分泌中发挥的关键作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Changes in thyrotroph and somatotroph cell populations induced by stimulation and inhibition of their secretory activity.

The populations of cells which produce immunoreactive growth hormone (GH) and thyroid stimulating hormone (TSH) in the rat pituitary gland do not occur in fixed percentages but vary greatly under different physiological and experimental conditions. These variations can be directly correlated to the levels of stimulation and/or inhibition of the specific secretory activity. In both types of cell, sustained stimulation with trophic hormones or blockage of the feedback mechanisms induces remarkable growth in the specific cell population. Conversely, the interruption or inhibition of the stimulus thwarted the hormonal secretion and caused a massive degeneration of redundant cells. The stimulation of both GH and TSH cells is accompanied by an enhanced secretory activity as judged by their higher concentrations in serum and hypertrophy of the cytoplasmic organelles involved in synthesis and intracellular processing of the hormones. By contrast, interruption of the stimulus is followed by a variable degree of disruption of the cytoplasmic organization, including a sizable degeneration of cells. In stimulated rats, the concentrations of both GH and TSH decreased significantly in pituitary tissue due to mobilization of the hormonal stores contained in secretory granules. On the other hand, the withdrawal of stimuli blocked the hormonal release; this is reflected by the accumulation of both hormones and secretory granules in pituitary tissue. The strict correlation between the size of the GH and TSH populations with stimulation and inhibition of hormonal secretory activity reported in this investigation further supports the critical role played by the cell renewal process in endocrine secretion.

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