Charles S. Easley scite author profile

Charles S. Easley

2Publications

1Citation Statement Received

44Citation Statements Given

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East Carolina University

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Alteration of the mammotroph Golgi complex by the dopamine agonist 2 BR‐α‐ergocryptine (CB‐154) in ovariectomized estrogen primed rats

1991

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The present study examined the acute effects of 2 Br-alpha-ergocryptine (CB-154, a dopamine agonist) on mammotroph organelles during prolactin (PRL) suppression. Ovariectomized estrogen-primed rats received a single injection (sc) of 0.5 mg CB-154 and the animals were killed at intervals following injection. The anterior pituitary glands were fixed for electron microscopy and immunocytochemistry was used to confirm mammotroph identification. Serum PRL levels were determined by RIA. Following CB-154 administration, serum PRL was significantly (P less than 0.05) reduced within 15 minutes and was suppressed (P less than 0.01) to ovariectomized levels at 2 and 6 hours. A stereological analysis of mammotrophs in the central regions of the anterior pituitary showed that the Golgi complex volume was significantly (P less than 0.05) reduced at 2 hours after CB-154 treatment. However, the Golgi complex volume had recovered by 6 hours post CB-154 injection. In addition, the volumes of the mammotroph cells, the mature secretory granules, and the secondary lysosomes had significantly increased by 6 hours. There were no significant changes in any of the organelles following CB-154 in the mammotrophs from the peripheral regions of the gland. These studies show that the Golgi complex is especially susceptible to acute morphological changes induced by bromocryptine and that the mammotrophs in the central regions are more responsive to CB-154 than those in the peripheral regions.

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Effects of Nimodipine on Brain Blood Flow following Acute Brain Ischemia in the Newborn Piglet

Easley

Wartman²,

Kopelman³

et al. 1992

Dev Pharmacol Ther

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We examined the effect of the calcium channel blocker nimodipine on postischemic hypoperfusion in the newborn piglet brain. A severe pneumothorax (SP) was induced by injecting air into the right thorax until the mean arterial blood pressure fell to 25% of baseline and was maintained for 4 min. Blood flow was immediately reduced 70-90% from baseline in each brain region during SP. In untreated animals postischemic hypoperfusion existed at 60 min, following recovery from SP with regional brain blood flow reduced 20-30% from baseline. Nimodipine infusion after SP prevented postischemic hypoperfusion in all brain regions and increased blood flows by as much as 40% above baseline in midbrain and brainstem structures. Nimodipine infusion began after severe brain ischemia prevented postischemic hypoperfusion and enhanced brain blood flow in this model.

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Charles S. Easley

Alteration of the mammotroph Golgi complex by the dopamine agonist 2 BR‐α‐ergocryptine (CB‐154) in ovariectomized estrogen primed rats

Effects of Nimodipine on Brain Blood Flow following Acute Brain Ischemia in the Newborn Piglet

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