Some pungent principles of spices cause the adrenal medulla to secrete catecholamine in anesthetized rats

We recently reported that capsaicin, a pungent principle of hot red pepper, evokes catecholamine secretion from the rat adrenal medulla. In this study, the effects of some pungent principles of spices on adrenal catecholamine secretion were investigated as compared with that of capsaicin. An increase in catecholamine, especially epinephrine, secretion was observed not only on capsaicin infusion but also on piperine (a pungent principle of pepper) and zingerone (ginger) infusion. Even on infusion of the same amount (650 nmol/kg, i.v.), the order of potency as to catecholamine secretion was capsaicin much greater than piperine greater than or equal to zingerone. While, sulfur-containing and volatile pungent principles, allylisothiocyanate (mustard, etc.) and diallyldisulfide (garlic, etc.), did not even cause slight catecholamine secretion. Furthermore, these adrenergic secretagogues were readily transported via the gut into the body. These results indicate that some pungent principles of dietary spices can induce a warming action via adrenal catecholamine secretion.     

Flow-injection analysis of catecholamine secretion from bovine adrenal medulla cells on microbeads

Bovine adrenal medullary cells have been cultured on microbeads which are placed in a low-volume flow system for measurements of stimulation-response parameters. Electronically controlled stream switching allows stimulation of cells with pulse lengths from 1 s to many minutes; pulses may be repeated indefinitely. Catecholamines secreted are detected by an electrochemical detector downstream from the cells. This flow-injection analysis technique provides a new level of sensitivity and precision for measurement of kinetic parameters of secretion. A manual injection valve allows stimulation by higher levels of stimulant in the presence of constant low levels of stimulant. Such experiments show interesting differences between the effects of K+ and acetylcholine on cells partially desensitized to acetylcholine.     

A piperic acid CoA ligase produces a putative precursor of piperine,the pungent principle from black pepper fruits

Black pepper (Piper nigrum L.) is known for its high content of piperine, a cinnamoyl amide derivative regarded as largely responsible for the pungent taste of this widely used spice. Despite its long history and worldwide use, the biosynthesis of piperine and related amides has been enigmatic up to now. In this report we describe a specific piperic acid CoA ligase from immature green fruits of P. nigrum. The corresponding enzyme was cloned and functionally expressed in E. coli. The recombinant enzyme displays a high specificity for piperic acid and does not accept the structurally related feruperic acid characterized by a similar C‐2 extension of the general C6–C3 phenylpropanoid structure. The enzyme is also inactive with the standard set of hydroxycinnamic acids tested including caffeic acid, 4‐coumaric acid, ferulic acid, and sinapic acid. Substrate specificity is corroborated by in silico modelling that suggests a perfect fit for the substrate piperic acid to the active site of the piperic acid CoA ligase. The CoA ligase gene shows its highest expression levels in immature green fruits, is also expressed in leaves and flowers, but not in roots. Virus‐induced gene silencing provided some preliminary indications that the production of piperoyl‐CoA is required for the biosynthesis of piperine in black pepper fruits.     

Catecholamine secretion from the adrenal medulla of the fetus, regulation by hormones

In the ovine fetus, the adrenal medulla activity secretes catecholamines into the circulation under normal and stress conditions. Little is known regarding the endocrine regulation of adrenal medullary catecholamine secretion in the fetus. The present study was undertaken to investigate the direct effects of the hormones prolactin, angiotensin II and cortisol on catecholamine release from fetal adrenal medulla, and to determine whether the effect of the hormones change during development into adulthood. Adrenal medulla from fetal, newborn and adult pregnant sheep was collected, dispersed into single cells and plated. Following preincubation, the cells were treated with ovine prolactin or angiotensin II at 8, 40 and 200 micrograms/ml; or cortisol at 10(-8), 10(-7) and 10(-6)M for 24 h. Catecholamine release into the medium were measured at 3, 6, 12 and 24 h. Ovine prolactin at 8 to 200 micrograms/ml significantly stimulated the release of total catecholamines after 12 h of incubation. The effect of prolactin was dose-dependent such that the magnitude of the response increased and the response time shortened with increasing concentrations of prolactin. In addition, the release of all three catecholamines--dopamine, norepinephrine and epinephrine--was significantly elevated. In newborn cells, only the highest concentration of 200 micrograms/ml ovine prolactin stimulated total catecholamine release at 6 h and 12 h, with significant increases of the three catecholamines at 12 h. In maternal cells, stimulation of catecholamine release was observed also with the highest concentration of prolactin tested (200 micrograms/ml) and after 12 h of incubation, when only the release of epinephrine was significantly enhanced by 324%.(ABSTRACT TRUNCATED AT 250 WORDS)     

Molecular pharmacology of the catecholamine transporter of chromaffin granules from the bovine adrenal medulla

Tetrabenazine (TBZ) and reserpine are two inhibitors of the catecholamine uptake system of the chromaffin granule membrane. They are structural analogs of the substrates dopamine and serotonin and they inhibit the monoamine transporter, which catalyzes a H+/neutral amine antiport. [3H]Dihydrotetrabenazine ([3H]TBZOH) is bound by chromaffin granule membranes on one class of site (T sites, KD = 3 nM); [3H]reserpine is bound on T sites and a second class of site (R1 sites, KD = 0.7 nM). The two sites are involved in monoamine translocation. The substrates displace the ligands with different efficiency: noradrenaline (Km = 10 microM) displaces reserpine efficiently (EC50 = 30 microM), but TBZOH poorly (EC50 = 2000 microM); m-iodobenzylguanidine, which has recently been shown to be a substrate of the monoamine uptake system (Km = 5 microM), displaces TBZOH efficiently (EC50 = 25 microM), but reserpine inefficiently (EC50 = 300 microM). Since both substrates are translocated by the same transporter, this result confirms the existence of two sites with different properties. T sites are characterized by a linear relationship between the reciprocal of the dissociation constants of various drugs displacing [3H]TBZOH and their partition coefficient in octanol/H2O mixtures. This relationship, which indicates a hydrophobic environment of T sites, does not exist for R1 sites. T sites have been identified by covalent labeling with a derivative of TBZ coupled to an arylazido group. The labeled sites are borne by a 65,000 dalton protein. The kinetics of reserpine binding are accelerated in the presence of ATP.(ABSTRACT TRUNCATED AT 250 WORDS)     

大鼠肾上腺髓质儿茶酚胺分泌的在体伏安法测定

应用碳纤微电极直接测定大鼠肾上腺髓质中儿茶酚胺浓度的在体伏安法。首次报道了大鼠肾上腺髓质中儿茶酚胺的基础浓度为０．１－０．５μｍｏｌ／Ｌ,缺血时髓质中儿茶酚胺的浓度显著增加,严重缺血时可达到５－３０μｍｏｌ／Ｌ。肾上腺髓质能自发分泌儿茶酚胺,缺血时自发分泌儿茶酚胺的幅度和频率都大大增加,提示缺血对大鼠是一种强烈的应激,测定结果还表明,乙酰胆碱能剂量依赖性地刺激肾上腺髓质嗜铬细胞分泌儿茶酚胺。     

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.     

The membrane of the catecholamine storage vesicles of the adrenal medulla

Summary Ultrastructure and biochemical properties—catecholamine uptake and release and ATPase activity—of membrane preparation obtained from bovine adrenal medulla vesicles were studied.Destruction of vesicular organisation by sonication of catecholamine loaded membranes leads to the liberation of catecholamine, demonstrating that the latter is stored within the vesicular space rather than bound to the membrane.Four bands were obtained by sucrose gradient centrifugation, exhibiting distinct differences in ATPase activity and ability to take up catecholamine. The maior portion of material—fraction III—equilibrates in a position corresponding to 0.8 M sucrose. This fraction, although containing only 1/6 of catecholamine of the fraction I, displays the highest uptake of ¹⁴C-noradrenaline and a 4 fold higher ATPase activity than fraction I.Fraction III and IV contain several open membrane fragments and collapsed structures and a small proportion of disrupted mitochondria. Correlative estimations of succinate dehydrogenase- and ATPase-activity indicate that differences in ATPase activity of the fractions are only to a minor extent due to mitochondrial impurities.Negatively stained images reveal the great plasticity of the membrane of catecholamine storage vesicles, which is probably the basis of their ability to undergo the structural changes during the secretory cycle in the intact cell.     

Cholinergic receptors and catecholamine secretion from adrenal chromaffin cells of the toad

1. The effects of cholinergic drugs on catecholamine (CA) secretion from adrenal chromaffin tissue of the toad were studied.2. CA secretion was induced by ACh or nicotine, but not by muscarine.3. Hexamethonium inhibited the CA release evoked by ACh or nicotine, while d-tubocurarine only affected the nicotinic response. Atropine did not prevent the secretory response.4. Muscarine abolished the secretion induced by the agonists, this effect being prevented by atropine or gallamine, but not by pirenzepine.5. In conclusion, CA secretion in the toad is stimulated by activation of nicotinic receptors. Inhibitory muscarinic receptors are present, most likely of type M₂, which may play a regulatory function.     

Role of endogenous PACAP in catecholamine secretion from the rat adrenal gland

We elucidated the contribution of endogenous pituitary adenylate cyclase-activating polypeptide (PACAP) to neurally evoked catecholamine secretion from the isolated perfused rat adrenal gland. Infusion of PACAP (100 nM) increased adrenal epinephrine and norepinephrine output. The PACAP-induced catecholamine output responses were inhibited by the PACAP type I receptor antagonist PACAP- (6-38) (30-3,000 nM) but were resistant to the PACAP type II receptor antagonist [Lys1,Pro2,5,Ara3,4,Tyr6]-vasoactive intestinal peptide (LPAT-VIP; 30-3,000 nM). Transmural electrical stimulation (ES; 1-10 Hz) or infusion of ACh (6-200 nM) increased adrenal epinephrine and norepinephrine output. PACAP-(6-38) (3,000 nM), but not LPAT-VIP, also inhibited the ES-induced catecholamine output responses. However, PACAP-(6-38) did not affect the ACh-induced catecholamine output responses. PACAP at low concentrations (0.3-3 nM), which had no influence on catecholamine output, enhanced the ACh-induced catecholamine output responses, but not the ES-induced catecholamine output responses. These results suggest that PACAP is released from the nerve endings to facilitate the neurally evoked catecholamine secretion through PACAP type I receptors in the rat adrenal gland.     

Multiple effects of honokiol on catecholamine secretion from adrenal chromaffin cells

The molecular mechanism of honokiol, extracted from the bark of Magnolia obovata, was studied using bovine adrenal chromaffin cells as a model system. Honokiol inhibits catecholamine secretion induced by carbachol and DMPP and that induced by exposure to high K+ and Ba2+ but to a lesser extent. The inhibitory effects of trifluoperazine and honokiol on carbachol-, high K(+)- and Ba2(+)- induced secretion were not additive. The results suggest that honokiol interferes with the interaction between the acetylcholine receptor and its agonists and that honokiol may also affect the steps in exocytosis after intracellular calcium has been raised, possibly at the site(s) where calmodulin acts.     

Role of intracellular pH in secretion from adrenal medulla chromaffin cells

The role of intracellular pH in stimulus-secretion coupling was investigated in cultured bovine adrenal medullary chromaffin cells. NH4Cl (1-25 mM) did not affect basal catecholamine or ATP release but markedly inhibited nicotine- or high K+-induced release by up to 60%. The inhibition had a rapid onset (less than 1 min) and was maximal at about 5 mM NH4Cl. The effect of NH4Cl was largely sustained over 20 min and was reversed upon NH4Cl removal. Sodium propionate did not affect secretion but partially reversed the inhibition by NH4Cl in a concentration-dependent manner. Methylamine (10 mM) produced a similar, but slower, inhibition than NH4Cl. Monensin (1-10 microM) inhibited catecholamine secretion by 30-60%, and its effect was reduced in the presence of NH4Cl. Using the fluorescent Ca2+ probe Fura-2, we found that the increase of [Ca2+]i following stimulation was not altered by concentrations of NH4Cl which inhibited secretion maximally. Measurement of cytosolic pH (pHi) with the fluorescent probe 2',7'-bis-carboxyethyl-5(6)-carboxyfluorescein (BCECF) revealed an alkalinization by NH4Cl (2.5-25 mM) of 0.1-0.23 pH units and acidification by sodium propionate (10-20 mM) of 0.2-0.25 pH units, with intermediate combined effects. Monensin (1 microM) caused a cytosolic acidification of 0.26 pH units. All pHi changes were partly recovered in 15 min. Fluorescence quenching measurements using the weakly basic fluorescent probe acridine orange indicated the accumulation of the probe into acidic compartments, presumably the chromaffin granules, which was strongly reduced by both NH4Cl and monensin. From these findings we conclude that the pH of the chromaffin granule modulates secretion by affecting some step in the secretory process unrelated to the rise in [Ca2+]i.     

CO2 and the catecholamine content of the adrenal medulla of the rat

In Wistar rats exposed during one hour to mixtures of oxygen and carbon dioxide producing hypoxia, hypercapnia, hyperoxia and hypocapnia, and so on, adrenaline contents of the suprarenals is reduced by high concentration of carbon dioxide (30%), with or without hypoxia. Noradrenaline contents is increased by carbon dioxide (15 to 30%). Hypercapnia is more potent than hypoxia as a suprarenal stimulus.