scholarly journals Role of Ca2+ and cyclic nucleotides in the control of prostaglandin E production in the rat anterior pituitary gland

1980 ◽  
Vol 186 (3) ◽  
pp. 987-992 ◽  
Author(s):  
A Betteridge
Keyword(s):  
Arachidonic Acid ◽  
Anterior Pituitary ◽  
Phospholipase A ◽  
Prostaglandin E ◽  
Pituitary Cells ◽  
Hormone Release ◽  
Pituitary Glands ◽  
Free Arachidonic Acid ◽  
Increase Membrane Permeability ◽  
K Concentration

In an attempt to relate changes in the intracellular concentration of prostaglandin E to the secretion process, two agents known to increase cyclic nucleotide concentrations and hormone release were added to dispersed rat anterior pituitary cells. They caused increases in teh intracellular prostaglandin E concentrations. Increasing the K+ concentration in the medium (which stimulates hormone release) caused a rapid rise in prostaglandin E concentrations. The addition of the Ca2'onophore A23187 had a similar effect. The effects of changes in the K+ and Ca2+concentrations and the addition of EDTA were measured on the redistribution of radioactivity in pituitary glands prelabelled with [3H]arachidonic acid. Elevated K+ concentrations stimulated the transfer of label to prostaglandins and free arachidonic acid, suggesting an increased phospholipase A activity. On the other hand, the absence of extracellular CaCl2 and the addition of EDTA had the opposite effect, which could be cancelled by the addition of sufficient amounts. of CaCl2. It is concluded that the addition of agents that increase membrane permeability to bivalent cations probably results in an influx of Ca2+ and this appears to result in increased phospholipase A activity, which in turn leads to an increase in prostaglandin production.

scholarly journals Stimulation of anterior pituitary prostaglandin E content and somatotropin (growth hormone) synthesis by phospholipase A

1978 ◽  
Vol 176 (1) ◽  
pp. 319-323 ◽  
Author(s):  
A Betteridge ◽  
M Wallis
Keyword(s):  
Fatty Acids ◽  
Growth Hormone ◽  
Arachidonic Acid ◽  
Anterior Pituitary ◽  
Phospholipase A ◽  
Prostaglandin E ◽  
Specific Response ◽  
Hormone Synthesis ◽  
Pituitary Glands ◽  
Stimulation Of

The prostaglandin E content of dispersed rat anterior pituitary glands was found to increase in the presence of phospholipase A or arachidonic acid. The increases were abolished by the addition of indomethacin. Similarly, the rate of somatotropin (growth hormone) synthesis was increased by these two agents, and the increases were again abolished by indomethacin. Phospholipase A also stimulated somatotropin release. The stimulation of prostaglandin E accumulation was a specific response to those fatty acids that are precursors for prostaglandin synthesis. One such precursor, [3H]arachidonic acid, was incorporated by rat anterior pituitary glands in vitro, and found to be associated mainly with phosphatidylethanolamine-like material. It is concluded that the intracellular concentration of prostaglandin E is limited by the availability of precursor fatty acids and that this can be increased by the addition of exogenous precursors or by the action of exogenous phospholipase A on the cellular phospholipid. Factors that increased prostaglandin E concentrations also increase the rate of synthesis of somatotropin, providing further evidence for the concept that prostaglandin E is involved in modulation of the rate of synthesis of this hormone.

Inhibition by testosterone of prolactin and growth hormone release from chicken anterior pituitary glands in vitro

1984 ◽  
Vol 102 (2) ◽  
pp. 153-159 ◽  
Author(s):  
T. R. Hall ◽  
S. Harvey ◽  
A. Chadwick
Keyword(s):  
Anterior Pituitary ◽  
Prolactin Secretion ◽  
Prostaglandin E ◽  
Hormone Release ◽  
Growth Hormone Release ◽  
Prolactin Release ◽  
Thyrotrophin Releasing Hormone ◽  
Pituitary Glands ◽  
Stimulation Of

ABSTRACT Pituitary glands and hypothalami from broiler fowl were incubated in medium containing testosterone, and prolactin and GH release were determined. Pituitary glands were also preincubated for 20 h in medium containing testosterone, and then in medium containing various secretagogues. Testosterone inhibited the release of prolactin directly from the pituitary gland in a concentration-related manner. The hypothalamus stimulated the release of prolactin, but by a lesser amount in the presence of testosterone. When pituitary glands were preincubated with testosterone, subsequent release of prolactin was inhibited, except with the highest concentration which stimulated prolactin release. Hypothalamic extract (HE) markedly stimulated prolactin release from control pituitary glands although testosterone-primed glands were less responsive. The stimulation of prolactin release by thyrotrophin releasing hormone (TRH) and prostaglandin E2 (PGE2) was also reduced by preincubation of the pituitary glands with testosterone. Priming with testosterone did not affect the release of GH from pituitary glands alone, but reduced the TRH-, HE- and PGE2-stimulated release of GH. These results demonstrate that testosterone directly inhibits prolactin secretion and reduces the sensitivity of pituitary lactotrophs and somatotrophs to provocative stimuli. J. Endocr. (1984) 102, 153–159

Cell-density dependence of the rate of prolactin secretion from perifused rat anterior pituitary cells

1983 ◽  
Vol 97 (2) ◽  
pp. 221-228 ◽  
Author(s):  
A. M. Bentley ◽  
M. Wallis
Keyword(s):  
Density Dependence ◽  
Cell Density ◽  
Anterior Pituitary ◽  
Prolactin Secretion ◽  
Female Rats ◽  
Pituitary Cells ◽  
The Third ◽  
Pituitary Glands ◽  
Prolactin Content ◽  
Perifusion System

Anterior pituitary glands from female rats were dispersed enzymically in the absence of dopamine. Dispersed cells (106–107) were layered onto columns containing Bio-Gel P-2 and were then perifused for 3 h with Dulbecco's Modified Eagle's Medium. The prolactin content of the perifusate and cell homogenates was determined by radioimmunoassay. Prolactin secretion during the third hour of perifusion increased as the loading of cells increased. However, the increase was not linear, and when secretion rate per 106 cells was calculated it was found that increased loading decreased the rate, which fell to a plateau of 1·3 ± 0·1 (s.e.m.) ng/min per 106 cells at a loading of about 8 × 106 cells from 3·8 ± 0·1 ng/min per 106 cells for a loading of 106 cells. This cell-density dependence of the rate of prolactin secretion in the perifusion system may be due to intercellular contact since the isolation of the tissue removes the influence of hypothalamic factors, while localized build up of prolactin (potentially causing direct autoregulation on the lactotroph) seems unlikely because of the continuous flow of medium.

scholarly journals Cytochemical staining of the endoplasmic reticulum and glycogen in mouse anterior pituitary cells.

1984 ◽  
Vol 32 (12) ◽  
pp. 1285-1294 ◽  
Author(s):  
A M Cataldo ◽  
R D Broadwell
Keyword(s):  
Endoplasmic Reticulum ◽  
Nuclear Envelope ◽  
Anterior Pituitary ◽  
Cell Types ◽  
Pituitary Cells ◽  
Cytochemical Staining ◽  
Anterior Pituitary Cells ◽  
G6pase Activity ◽  
Pituitary Glands ◽  
Glycogen Particles

The endoplasmic reticulum (ER) and glycogen in secretory cells of anterior pituitary glands from control and fasted mice were investigated ultrastructurally using cytochemical staining techniques. Potential enzyme cytochemical markers for the ER included glucose-6-phosphatase (G6Pase) and nucleoside diphosphatase (NDPase) activities. Presumptive glycogen particles were identified in tissue postfixed in 1% osmium tetroxide-1.5% potassium ferrocyanide or in ultrathin sections poststained with periodic acid-thiocarbohydrazide-silver proteinate. The ER appeared to be related structurally and cytochemically to the nuclear envelope and cis Golgi saccules. Similar relationships between the ER and the trans Golgi saccules or GERL were not observed. In anterior pituitary glands from control mice, G6Pase activity was prominent within the lumen of the ER, nuclear envelope, and cis Golgi saccules of all cells; reaction product was absent in the trans Golgi saccules and in GERL. G6Pase activity was sparse to non-existent in anterior pituitary cells from fasted mice. The cytochemical reaction utilizing the Gomori lead capture method indicated that G6Pase in anterior pituitary cells may function as a phosphohydrolase for converting glucose-6-phosphate to glucose. Cytochemical localization of NDPase activity was not evident in the ER; reaction product was localized consistently in one or two trans Golgi saccules and occasionally in GERL and nascent secretory granules. Presumptive glycogen particles in each of the different secretory cell types from control mice appeared as 20-30 nm wide, electron-dense particles scattered as single entities throughout the cytoplasm. Anterior pituitary glands from fasted mice exhibited conspicuous and numerous clumps of glycogen particles in addition to scattered particles in all cell types except corticotrophs, which appeared to be devoid of glycogen. Glycogen particles were absent in anterior pituitary cells incubated in a medium containing diastase. Our results suggest that in anterior pituitary cells of the mouse: 1) the phosphohydrolytic activity of G6Pase is a reliable cytochemical marker for the ER; 2) the ER is associated morphologically and cytochemically with the cis face but not with the trans face of the Golgi apparatus or with GERL; 3) some glucose-6-phosphate, a possible substrate for G6Pase in vivo, may be derived indirectly from glycogen stores; and 4) modulations in G6Pase activity and glycogen storage during fasting may reflect an alteration in energy metabolism.

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