Quantal secretion of catecholamines measured from individual bovine adrenal medullary cells permeabilized with digitonin.

Secretion of catecholamines from individual bovine adrenal medullary cells grown in primary culture has been investigated with a carbon-fiber microelectrode placed adjacent to the cells. Oxidation of catecholamines at the electrode surface results in changes in current, which give a real-time measure of catecholamine secretion. Chemical agents are introduced to the individual cells by pressure ejection from micropipettes. When incubated in Ca(2+)-containing buffers, secretion is not observed. However, permeabilization of the cell by exposure to 20 microM digitonin for approximately 15 s results in a Ca(2+)-dependent secretion, and the contents of individual vesicles are detected in the form of sharp spikes. The rate at which spikes occur is a function of the Ca2+ concentration in the external media and reaches a maximum at 19 microM Ca2+. The area of the spikes range from 0.1 to greater than 10 picocoulombs, but the majority are less than 2 picocoulombs, corresponding to less than 6 x 10(6) molecules detected per spike. Histograms of the spike areas are essentially independent of the Ca2+ concentration, indicating that the population of vesicles which undergo exocytosis is the same for all concentrations. Exocytotic secretion can be distinguished from nonexocytotic release by analysis of the shape of the spikes.     

Fetal adrenal VIP: distribution and effect on medullary catecholamine secretion

Vasoactive intestinal peptide (VIP) was found in the adrenal gland of ovine fetuses at 130-135 days gestation and was shown to stimulate catecholamine secretion. VIP was demonstrated by immunocytochemistry using the indirect antibody-enzyme method. VIP-immunoreactive nerve fibers were observed in the capsule, zona glomerulosa and inner layer of the cortex as well as in the medulla; furthermore small clusters of VIP-containing cell bodies were found at the corticomedullary border. To study the direct effect of VIP on catecholamine release, fetal adrenal medulla was dispersed into single cells and incubated in vitro with VIP for 6 hours. Catecholamine release into the medium was measured at 1, 3 and 6 hours. At 6 hours of incubation, VIP stimulated total catecholamine release from fetal adrenomedullary cells in a dose-dependent manner at concentrations ranging from 10(-8) to 10(-4) M. The release of norepinephrine and epinephrine, but not dopamine, was significantly enhanced. The presence of VIP in the fetal adrenal cortex and medulla, and the ability of VIP to stimulate catecholamine release from fetal adrenomedullary cells in vitro suggest that VIP may be an important modulator of medullary catecholamine secretion during fetal life.     

Influence of cold exposure and thyroid hormones on regulation of adrenal catecholamines.

Since thyroid hormones influence urinary excretion of catecholamines after exposure to cold, the effects of hyper- and hypo-thyroidism on adrenal tyrosine hydroxylase (TH) (EC 1.14.16.2), phenylethanolamine-N-methyl transferase (PNMT) (EC 2.1.1.28), and serum dopamine-beta-hydroxylase (DbetaH) (EC 1.14.17.1) of rats of 23 and 4 degrees C were studied. TH changes resembled the urinary excretion pattern at 4 degrees C in being higher after 8 days than after 1 day of exposure, and in declining as acclimation occurred. At 23 degrees C, TH activity of hypothyroid rats was significantly higher than in euthyroid or hyperthyroid animals, and after 1 day at 4 degrees C the value increased even more. While in the hypothyroid animals at 4 degrees C the concentration of adrenal catecholamines was less, the epinephrine to norepinephrine ratio was higher than at 23 degrees C. Very high TH activity with a decline in catecholamine concentration suggests that the capacity of TH had been exceeded. PNMT activity was significantly elevated in this group. TH activity was not decreased in the hyperthyroid group at 23 degrees C, and was increased after 8 days at 4 degrees C, suggesting that circulating thyroid hormones have no direct inhibitory effect on TH. Serum DbetaH was elevated after exposure to 4 degrees C, regardless of thyroid hormonal status. The activation of adrenal TH in hypothyroid rats at 23 degrees C and of TH, PNMT, and serum DbetaH at 4 degrees C is probably the result of increased activity of the sympathetic nervous system.     

Analysis of the inhibitory effect of verapamil on adrenal medullary secretion

Verapamil blocked catecholamine (CA) secretion evoked by acetylcholine (ACh), Ba²⁺ or Ca²⁺ in isolated perfused bovine adrenals. This inhibitory effect was irreversible and not modified by increasing the Ca²⁺ concentration of the perfusion fluid. Tetracaine also inhibited CA secretion, although no additive effect was found when both verapamil and tetracaine were present simultaneously in the perfusion medium. It is concluded that verapamil and tetracaine inhibit CA secretion presumably at the same site, but verapamil effect cannot be reverted by excess of calcium ions.     

Flux of catecholamines through chromaffin vesicles in cultured bovine adrenal medullary cells

Primary cultures of bovine adrenal medullary chromaffin cells were pulse-labeled with [3H]dopamine or [3H]norepinephrine and examined for radioactive and total catecholamine contents by high performance liquid chromatography after additional incubations of 15 min to 10 days. [3H]Dopamine was rapidly taken up by chromaffin vesicles in situ and converted to norepinephrine with a half-time of approximately 6 h. [3H] Norepinephrine taken up by the cells was metabolized in three phases. 1) During its brief transit through the cytoplasm, 20 to 35% of this amine was converted to [3H]epinephrine. 2) Following vesicular accumulation, 65 to 70% of the remaining [3H]norepinephrine was methylated to form [3H]epinephrine with a half-time of approximately 30 h, corresponding to the rate of vesicular catecholamine loss from reserpine-treated cells. 3) The residual [3H]norepinephrine decreased with a half-time of 5 days, probably representing loss from norepinephrine-storing cells. [3H]Epinephrine formed endogenously had a half-life in the cultures of approximately 15 days. These data suggest that leakage of norepinephrine from chromaffin vesicles into the cytoplasm limits the rate of dopamine conversion to epinephrine in the adrenal medulla. The kinetic data indicate that approximately 18% of the endogenous norepinephrine and 73% of the endogenous dopamine are present in epinephrine cells.     

Differential secretion of catecholamines and tetrahydroisoquinolines from the bovine adrenal medulla

Acetaldehyde, the primary metabolite of ethanol, condenses with endogenous amines to form tetrahydroisoquinoline derivatives which have been implicated in the behavioral and autonomic effects of alcohol. Because of difficulties encountered in the $\text{in}$$\text{vitro}$ synthesis of the tetrahydroisoquinolines derived from the condensation of acetaldehyde with epinephrine or norepinephrine, their “in tissue” biosynthesis in the isolated perfused bovine adrenal medulla was undertaken, and their mechanism of release investigated. When calcium was present in the perfusion medium, acetaldehyde evoked release of catecholamines as well as synthesis and release of their tetrahydroisoquinoline condensation products. In the absence of calcium in the perfusion medium, acetaldehyde induced the syntheis of tetrahydroisoquinolines but evoked the release of catecholamines only. The results indicate that the release of catecholamines and their tetrahydroisoquinoline derivatives can be uncoupled, and their differential secretion from the adrenal medulla achieved by altering the ionic composition of the extracellular fluid.     

Time course of release of catecholamines from individual vesicles during exocytosis at adrenal medullary cells.

The time course of extrusion of the vesicular contents during exocytosis has been examined at adrenal medullary cells with carbon-fiber microelectrodes. Two electrochemical techniques were used: cyclic voltammetry and amperometry. Spikes obtained by amperometry had a faster time course than those measured by cyclic voltammetry, consistent with the different concentration profiles established by each technique. However, the experimental data obtained with both techniques were temporally broadened with respect to dispersion of an instantaneous point source by diffusion. Measurements with the electrode firmly pressed against the cell surface established that the temporal broadening is a result of a rate-limiting kinetic step associated with extrusion of the vesicular contents at the cell surface. The data do not support a rate-limiting process due to restricted efflux from a small pore. When combined with previous results, the data suggest that the rate-limiting step for chemical secretion from adrenal medullary cells during exocytosis is the dissociation of catecholamines from the vesicular matrix at the surface of the cell.     

Direct innervation of white fat and adrenal medullary catecholamines mediate photoperiodic changes in body fat

Seasonal adjustments in Siberian hamster adiposity are triggered by day length changes [i.e., short "winter-like" days (SDs) elicit body fat decreases vs. long "summer-like" days (LDs)]. These and other white adipose tissue (WAT) mass decreases traditionally have been ascribed to lipolysis triggered by sympathetically mediated, adrenal medullary released epinephrine; however, recent evidence suggests that direct sympathetic innervation of WAT also is important. Therefore, the contributions of WAT sympathetic innervation and adrenal medullary catecholamines to SD-induced decreases in adiposity were tested. Siberian hamsters were surgically bilaterally adrenal demedullated (ADMEDx) or sham ADMEDx, and all had one inguinal WAT (IWAT) pad sympathectomized via locally injected guanethidine, with the contralateral pad serving as a within-animal innervated control. One-half of the hamsters remained in LDs; the remainder was transferred to SDs. Guanethidine and ADMEDx abolished IWAT norepinephrine and adrenal epinephrine contents, respectively. Although sympathetic denervation or ADMEDx alone did not block SD-induced decreases in IWAT mass, their combination did. These results suggest that both adrenal catecholamines and the sympathetic innervation of WAT interact to decrease SD-induced decreased adiposity.     

Leptin directly stimulates catecholamine secretion and synthesis in cultured porcine adrenal medullary chromaffin cells.

Leptin, a protein encoded by the ob gene, is an adipose tissue-derived signaling factor involved in body weight homeostasis. The hypothalamus is a major site of central action for leptin. However, mounting evidence indicates expression of leptin receptor mRNA in various peripheral organs including the adrenal medulla. Therefore, we investigated the effects of leptin on catecholamine secretion and synthesis in cultured porcine adrenal medullary chromaffin cells. We initially confirmed the expression of leptin receptor (Ob-Rb) mRNA in cultured porcine adrenal medullary cells. Murine recombinant leptin (>==50 nM) strongly induced the release of both epinephrine (E) and norepinephrine (NE) from chromaffin cells. Removal of external Ca(2+) significantly suppressed these effects. Also, leptin (>==1 nM) enhanced nicotine-induced increases in E- and NE. Leptin (1, 10, 100 nM) significantly increased tyrosine hydroxylase (TH) (a rate-limiting enzyme in the biosynthesis of catecholamine) mRNA levels in a concentration-dependent manner. Furthermore, leptin (1, 10, 100 nM) significantly induced increases in cAMP levels, suggesting that the stimulatory effects on TH mRNA are mediated, at least in part, by the cAMP/protein kinase A pathway. These results indicate that leptin directly stimulates catecholamine release and synthesis, which in turn may potentiate the anti-obesity effects of leptin.     

Calmodulin is involved in catecholamine secretion from digitonin-permeabilized bovine adrenal medullary chromaffin cells.

The role of calmodulin in exocytotic secretion was studied using digitonin-permeabilized bovine adrenal medullary chromaffin cells. Addition of calmodulin to the permeabilized cells increased Ca(2+)-dependent norepinephrine release in a dose-dependent manner. Unlike calmodulin, addition of caldesmon, actin or bovine serum albumin did not increase the release. Calmodulin increased the release at Ca2+ concentrations of more than 10(-6) M and its effect increased with increase in Mg2+ concentration. Th release of norepinephrine enhanced by calmodulin was inhibited by tetanus toxin, which specifically inhibits exocytotic secretion. These results indicate directly that calmodulin plays an important role in exocytotic secretion from chromaffin cells.     

新生小牛肾上腺髓质嗜铬细胞的原代培养及其儿茶酚胺的分泌

目的：原代培养新生小牛肾上腺髓质嗜铬细胞,观察离体条件下肾上腺髓质细胞的生长和儿茶酚胺的分泌特性。方法：密度梯度离心和差速贴壁法分离和纯化肾上腺髓质细胞,ELISA检测培养上清液中肾上腺素和去甲肾上腺素的浓度变化。结果：肾上腺髓质嗜铬细胞生长良好。4～6周起细胞出现终极分化。培养液中儿茶酚胺浓度在第2～8 d内稳定,第10 d开始明显下降。结论：应用单细胞培养法可以成功建立原代肾上腺髓质嗜铬细胞,并可在原代培养前8d内进行细胞行为学的研究。     

Fluorescence histochemical evidence for axonal growth and secretion from transplanted adrenal medullary tissue

Summary Small pieces of rat adrenal medulla were homologously transplanted to the anterior chamber of the eye. The eyes were adrenergically denervated. Transplants became attached to and vascularized by the iris of the host eye. Transplants and irides were examined at various times postoperatively with the histochemical fluorescence method of Falck and Hillarp.It was shown that the adrenal medullary transplants were able to produce catecholamine-containing nerves that partly reinnervated the denervated host iris. The nerves derived at least partly from groups of highly fluorescent cells, similar to the adrenaline and/or noradrenaline cells of the normal adrenal medulla. The cells were thus not similar to sympathetic adrenergic nerve cells.Intravasal secretion of fluorescent material was observed in one case, indicating that the transplanted medullary tissue was also able to fullfill its normal endocrinological role of releasing hormones to the blood stream.This investigation was supported by grants from the Swedish Medical Research Council (B70-14x-714-05 and B70-14x-711-05B), Svenska Livförsäkringsbolags nämnd för medicinsk forskning, Ollie and Elof Ericssons Stiftelse and Stiftelsen Therese och Johan Anderssons Minne. The skilful technical assistance of Mrs. Ulla Flyger and Mrs. Barbro Norstedt is greatfully acknowledged.     

Effect of chronic cadmium treatment on rat adrenal catecholamines.

Daily intraperitoneal injection of cadmium chloride (1 mg/kg) for 45 days significantly increased adrenal weights and augmented the levels of adrenal norepinephrine and epinephrine as well as the activity of adrenal tyrosine hydroxylase. Discontinuation of the heavy metal treatment for 28 days, in rats previously injected with cadmium for 45 days, restored the activity of tyrosine hydroxylase as well as the amount of norepinephrine and epinephrine. In contrast, adrenal weights were restored only partially following the withdrawal of cadmium treatment. Evidence indicates that the changes in adrenal catecholamine metabolism may be the result of stress induced by chronic exposure to this heavy metal. In addition, some of the untoward effects such as hyperglycemia and arterial hypertension seen during cadmium toxicity might be related to increased synthesis of epinephrine in adrenal glands.     

Interaction between ovarian and adrenal steroids in the regulation of gonadotropin secretion

Recent work from our laboratory suggests that a complex interaction exists between ovarian and adrenal steroids in the regulation of preovulatory gonadotropin secretion. Ovarian estradiol serves to set the neutral trigger for the preovulatory gonadotropin surge, while progesterone from both the adrenal and the ovary serves to (1) initiate, (2) synchronize, (3) potentiate and (4) limit the preovulatory LH surge to a single day. Administration of RU486 or the progesterone synthesis inhibitor, trilostane, on proestrous morning attenuated the preovulatory LH surge. Adrenal progesterone appears to play a role in potentiating the LH surge since RU486 still effectively decreased the LH surge even in animals ovariectomized at 0800 h on proestrus. The administration of ACTH to estrogen-primed ovariectomized (ovx) immature rats caused a LH and FSH surge 6 h later, demonstrating that upon proper stimulation, the adrenal can induce gonadotropin surges. The effect was specific for ACTH, required estrogen priming, and was blocked by adrenalectomy or RU486, but not by ovariectomy. Certain corticosteroids, most notably deoxycorticosterone and triamcinolone acetonide, were found to possess "progestin-like" activity in the induction of LH and FSH surges in estrogen-primed ovx rats. In contrast, corticosterone and dexamethasone caused a preferential release of FSH, but not LH. Progesterone-induced surges of LH and FSH appear to require an intact N-methyl-D-aspartate (NMDA) neurotransmission line, since administration of the NMDA receptor antagonist, MK801, blocked the ability of progesterone to induce LH and FSH surges. Similarly, NMDA neurotransmission appears to be a critical component in the expression of the preovulatory gonadotropin surge since administration of MK801 during the critical period significantly diminished the LH and PRL surge in the cycling adult rat. FSH levels were lowered by MK801 treatment, but the effect was not statistically significant. The progesterone-induced gonadotropin surge appears to also involve mediation through NPY and catecholamine systems. Immediately preceding the onset of the LH and FSH surge in progesterone-treated estrogen-primed ovx. rats, there was a significant elevation of MBH and POA GnRH and NPY levels, which was followed by a significant fall at the onset of the LH surge. The effect of progesterone on inducing LH and FSH surges also appears to involve alpha 1 and alpha 2 adrenergic neuron activation since prazosin and yohimbine (alpha 1 and 2 blockers, respectively) but not propranolol (a beta-blocker) abolished the ability of progesterone to induce LH and FSH surges. Progesterone also caused a dose-dependent decrease in occupied nuclear estradiol receptors in the pituitary.(ABSTRACT TRUNCATED AT 400 WORDS)     

Role of protein kinase C in catecholamine secretion from digitonin-permeabilized bovine adrenal medullary cells

The effects of staurosporine and K-252a, potent inhibitors of protein kinases, and 12-O-tetradecanoylphorbol-13-acetate (TPA) on catecholamine secretion and protein phosphorylation in digitonin-permeabilized bovine adrenal medullary cells were investigated. Staurosporine and K-252a (0.01-10 microM) did not cause large changes in catecholamine secretion evoked by Ca2+ in digitonin-permeabilized cells whereas these compounds strongly prevented TPA-induced enhancement of catecholamine secretion in a concentration-dependent manner. Incubation of digitonin-permeabilized cells with [gamma-32P]ATP resulted in 32Pi incorporation into a large number of proteins, detected as several major bands and darkened background in autoradiograms. Ca2+ and TPA increased phosphorylation of these proteins. Staurosporine and K-252a markedly inhibited Ca(2+)-induced and TPA-induced increases in protein phosphorylation as well as basal (0 Ca2+) protein phosphorylation in digitonin-permeabilized cells. Long term treatment (24 h) of adrenal medullary cells with 1 microM TPA markedly decreased total cellular protein kinase C activity to about 5.3% of control. Pretreatment of the cells with 1 microM TPA strongly inhibited the TPA-induced enhancement of catecholamine secretion whereas it did not cause large changes in total cellular catecholamine amounts, Ca(2+)-induced catecholamine secretion, and cAMP-induced enhancement of catecholamine secretion from digitonin-permeabilized cells. From these results we conclude that protein kinase C plays a modulatory role in catecholamine secretion rather than being essential for initiating catecholamine secretion.     

Atropine effect on physostigmine- and stress-induced secretion of catecholamines by adrenal gland: microdialysis study in awake rats

Physostigmine and an 1-hour immobilisation stress similarly affected functions of the sympatho-adrenal and cardiovascular systems activating the catecholamine secretion and increasing the blood pressure. Yohimbine potentiated the secretory effect but did not change the pressor effect. Intermediate administration of atropine completely eliminated both effects of physostigmine but, being administered prior to the immobilisation, it potentiated the secretory response without affecting the pressor response. The findings reveal a difference in central cholinergic mechanisms of neurohumoral and haemodynamic responses to physostigmine and stress.     

Combined adrenal myelolipoma and medullary hyperplasia

OBJECTIVE: A patient is reported with hypertension due to combined medullary adrenal hyperplasia and myelolipoma. METHODS: A 52-year-old woman with long-standing hypertension was evaluated for an incidentally discovered large tumor of the left adrenal. Left adrenalectomy was performed for a presumptive clinical diagnosis of pheochromocytoma. RESULTS: Histopathologic examination revealed a mixed tumor consisting of a large myelolipoma with infiltrating foci of adrenal medulla. CONCLUSIONS: A patient is described with hypertension, myelolipoma and adrenal medullary hyperplasia; following adrenalectomy, however, blood pressure and biochemical abnormalities normalized.