Abstract
The biological systems are opened, complex objects, which can regularly exchange feedbacks with their environment. The calcium ion is a universal messenger, which can regulate several cellular functions e.g. exocytosis machinery. The primary aim of this study was to investigate the response mechanisms of normal adenohypophysis and adenohypophyseal prolactinoma cell populations at different extracellular Ca2+ levels with an otherwise isoionic milieu of all other essential ions. We focused on prolactin (PRL) and adrenocorticotrophic hormone (ACTH) release. In our experimental study, female Wistar rats (n=10) were treated with estrone-acetate (150 μg/kg b.w/week) for 6 months to induce prolactinomas in the adenohypophysis. Primary, monolayer cell cultures were prepared by enzymatic and mechanical digestion. PRL and ACTH hormone presence was measured by radioimmunoassay or immuno- chemiluminescence assay. Repeated measurements of ACTH and PRL hormone release in different treatment groups on cell cultures during 80 minutes were compared using marginal models. Differences between the effects of hypocalcaemia on normal adenohypophysis cultures and prolactinoma cell populations were investigated. Significant alteration (p<0.001, n=12) in hormone exocytosis was detected in Ca2+ treated adenohypophyseal and prolactinoma cell cultures, compared to untreated groups. Diminution of Ca2+ may inhibit the SNARE mediated fusion of hormone containing vesicles to plasma membrane. In conclusion, the main finding of this study is that a strict correlation exists among certain biophysical properties, especially extracellular Ca2+ milieu and hormone vesicle exocytosis.
Highlights
The biological systems are opened, they regularly exchange feedbacks with their environment
The main finding of this study is that a strict correlation exists among certain biophysical properties, especially extracellular Ca2+ milieu and hormone vesicle exocytosis
Cell culture standardization resulted that the ACTH positive cells were accounted for approximately 15.81% in Adh and 18.43% in the in vivo estron-acetate pretreated, than cultured adenohypophysis tissues
Summary
The biological systems are opened, they regularly exchange feedbacks with their environment. In the adaptation processes the hypophyseal hormones, primarily adrenocorticotrophic (ACTH) [1] and prolactin (PRL) [2] play major role. The hypothalamopituitary-adrenal (HPA) axis activity is essential in the adaptability of living organisms and their capacity to construct new operating conditions via ACTH release of corticotroph cells [3]. The HPA axis regulates the circadian rhythm, activates in response to stress and activates the release of adrenal corticosteroids. PRL is a common mediator of the immune-neuroendocrine system and affects the different reproductive states. PRL secretion is modified by environmental inputs such as light, sound and stress [2]
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