Transformation of adrenal medullary chromaffin cells increases asthmatic susceptibility in pups from allergen-sensitized rats

Background

Studies have shown that epinephrine release is impaired in patients with asthma. The pregnancy of female rats (dams) with asthma promotes in their pups the differentiation of adrenal medulla chromaffin cells (AMCCs) into sympathetic neurons, mediated by nerve growth factor, which leads to a reduction in epinephrine secretion. However, the relatedness between the alteration of AMCCs and increased asthma susceptibility in such offspring has not been established.

Methods

In this study, we observed the effects of allergization via ovalbumin on rat pups born of asthmatic dams.

Results

Compared to the offspring of untreated controls, bronchial hyperreactivity and airway inflammation were more severe in the pups from sensitized (asthmatic) dams. In pups exposed to nerve growth factor (NGF) in utero these effects were aggravated further, but the effects were blocked in pups whose dams had been treated with anti-NGF. Furthermore, alterations in AMCC phenotype corresponded to the degree of bronchial hyperreactivity and lung lesions of the different treatment groups. Such AMCC alterations included degranulation of chromaffin granules, reduction of epinephrine and phenylethanolamine-n-methyl transferase, and elevation of NGF and peripherin levels.

Conclusions

Our results present evidence that asthma during the pregnancy of rat dams promotes asthma susceptibility in their offspring, and that the transformation of AMCCs to neurons induced by NGF plays an important role in this process.     

An economic approach to isotopic enrichment of glycoproteins expressed from Sf9 insect cells

It is estimated that over half of all proteins are glycosylated, yet only a small number of the structures in the protein data bank are of intact glycoproteins. One of the reasons for the lack of structural information on glycoproteins is the high cost of isotopically labeling proteins expressed from eukaryotic cells such as in insect and mammalian cells. In this paper we describe modifications to commercial insect cell growth medium that reduce the cost for isotopically labeling recombinant proteins expressed from Sf9 cells. A key aspect of this work was to reduce the amount of glutamine in the cell culture medium while maintaining sufficient energy yielding metabolites for vigorous growth by supplementing with glucose and algae-derived amino acids. We present an analysis of cell growth and protein production in Sf9 insect cells expressing secreted Thy1-GFP fusion construct. We also demonstrate isotopic enrichment of the Thy-1 protein backbone with ¹⁵N and carbohydrates with ¹³C by NMR spectroscopy.Electronic supplementary material is available in the online version of this article at and is accessible for authorized users.     

Regulation of catecholamine release and tyrosine hydroxylase in human adrenal chromaffin cells by interleukin-1β: role of neuropeptide Y and nitric oxide

Adrenal chromaffin cells synthesize and secrete catecholamines and neuropeptides that may regulate hormonal and paracrine signaling in stress and also during inflammation. The aim of our work was to study the role of the cytokine interleukin-1β (IL-1β) on catecholamine release and synthesis from primary cell cultures of human adrenal chromaffin cells. The effect of IL-1β on neuropeptide Y (NPY) release and the intracellular pathways involved in catecholamine release evoked by IL-1β and NPY were also investigated. We observed that IL-1β increases the release of NPY, norepinephrine (NE), and epinephrine (EP) from human chromaffin cells. Moreover, the immunoneutralization of released NPY inhibits catecholamine release evoked by IL-1β. Moreover, IL-1β regulates catecholamine synthesis as the inhibition of tyrosine hydroxylase decreases IL-1β-evoked catecholamine release and the cytokine induces tyrosine hydroxylase Ser40 phosphorylation. Moreover, IL-1β induces catecholamine release by a mitogen-activated protein kinase (MAPK)-dependent mechanism, and by nitric oxide synthase activation. Furthermore, MAPK, protein kinase C (PKC), protein kinase A (PKA), and nitric oxide (NO) production are involved in catecholamine release evoked by NPY. Using human chromaffin cells, our data suggest that IL-1β, NPY, and nitric oxide (NO) may contribute to a regulatory loop between the immune and the adrenal systems, and this is relevant in pathological conditions such as infection, trauma, stress, or in hypertension.     

Tyrosine hydroxylase phosphorylation in bovine adrenal chromaffin cells: the role of MAPKs after angiotensin II stimulation

Angiotensin II (AII, 100 nM) stimulation of bovine adrenal chromaffin cells (BACCs) produced angiotensin II receptor subtype 1 (AT1)-mediated increases in extracellular regulated protein kinase 1/2 (ERK1/2) and stress-activated p38MAPK (p38 kinase) phosphorylation over a period of 10 min. ERK1/2 and p38 kinase phosphorylation preceded Ser31 phosphorylation on tyrosine hydroxylase (TOH). The inhibitors of mitogen-activated protein kinase kinase 1/2 (MEK1/2) activation, PD98059 (0.1-50 microM) and UO126 (0.1-10 microM), dose-dependently inhibited both ERK2 and Ser31 phosphorylation on TOH in response to AII, suggesting MEK1/2 involvement. The p38 kinase inhibitor SB203580 (20 microM, 30 min) abolished Ser31 and Ser19 phosphorylation on TOH and partially inhibited ERK2 phosphorylation produced by AII. In contrast, 1 microM SB203580 did not affect AII-stimulated TOH phosphorylation, but fully inhibited heat shock protein 27 (HSP27) phosphorylation produced by AII. Also, 1 microM SB203580 fully inhibited Ser19 phosphorylation on TOH and HSP27 phosphorylation in response to anisomycin (30 min, 10 microg/mL). The results suggest that ERKs mediate Ser31 phosphorylation on TOH in response to AII, but p38 kinase is not involved. Previous studies suggesting a role for p38 kinase in the phosphorylation of Ser31 are explained by the non-specific effects of 20 microM SB203580 in BACCs. The p38 kinase pathway is able to phosphorylate Ser19 on TOH in response to anisomycin, but does not do so in response to AII.     

The co-presence of Na+/Ca2+-K+ exchanger and Na+/Ca2+ exchanger in bovine adrenal chromaffin cells

We have previously shown that there is high Na(+)/Ca(2+) exchange (NCX) activity in bovine adrenal chromaffin cells. In this study, by monitoring the [Ca(2+)](i) change in single cells and in a population of chromaffin cells, when the reverse mode of exchanger activity has been initiated, we have shown that the NCX activity is enhanced by K(+). The K(+)-enhanced activity accounted for a significant proportion of the Na(+)-dependent Ca(2+) uptake activity in the chromaffin cells. The results support the hypothesis that both NCX and Na(+)/Ca(2+)-K(+) exchanger (NCKX) are co-present in chromaffin cells. The expression of NCKX in chromaffin cells was further confirmed using PCR and northern blotting. In addition to the plasma membrane, the exchanger activity, measured by Na(+)-dependent (45)Ca(2+) uptake, was also present in membrane isolated from the chromaffin granules enriched fraction and the mitochondria enriched fraction. The results support that both NCX and NCKX are present in bovine chromaffin cells and that the regulation of [Ca(2+)](i) is probably more efficient with the participation of NCKX.     

Role of protein phosphatase 2C from bovine adrenal chromaffin cells in the dephosphorylation of phospho-serine 40 tyrosine hydroxylase

Tyrosine hydroxylase (TH) is the rate-limiting enzyme in the synthesis of catecholamines. It is dephosphorylated by protein phosphatase (PP) 2A and PP2C. In this study we used a fixed amount of bacterially expressed rat TH (5 microM), phosphorylated only at serine 40 (pSer40TH), to determine the PP activities against this site that are present in extracts from the bovine adrenal cortex, adrenal medulla, adrenal chromaffin cells and rat striatum. We found that PP2C was the main TH phosphatase activity in extracts from the adrenal medulla and adrenal chromaffin cells. In adrenal cortex extracts PP2C and PP2A activities toward pSer40TH did not differ significantly. PP2A was the main TH phosphatase activity in extracts from rat striatum. Kinetic studies with extracts from adrenal chromaffin cells showed that when higher concentrations of pSer40TH (> 5 microM) were used the activity of PP2C increased more than the activity of PP2A. PP2C was maximally activated by 1.25 mM Mn2+ and by 5 mM Mg2+ but was inhibited by calcium. Our data suggest a more important role for PP2C than was previously suggested in the dephosphorylation of serine 40 on TH.     

Ionic permeabilities induced by Bacillus thuringiensis in Sf9 cells

The effect of Bacillus thuringiensis insecticidal toxins on the monovalent cation content and intracellular pH (pH _i ) of individual Sf9 cells of the lepidopteran species Spodoptera frugiperda (fall armyworm) was monitored with the fluorescent indicators potassium-binding benzofuran isophthalate (PBFI) and 2′,7′-bis(carboxyethyl)-5,6-carboxyfluorescein (BCECF). The sequential removal of K⁺ and Na⁺ from the medium, in the presence of CryIC, a toxin which is highly active against Sf9 cells, caused sharp shifts in the fluorescence ratio of PBFI, demonstrating a rapid efflux of these ions. In Sf9 cells, pH _i depends strongly on the activity of a K⁺/H⁺ exchanger. In the absence of toxin, removal of K⁺ from the external medium resulted in a reversible acidification of the cells. In the presence of CryIC, pH _i equilibrated rapidly with that of the bathing solution. This effect was both time- and concentration-dependent. In contrast with CryIC, CryIIIA, a coleopteran-specific toxin, and CryIA(a), CryIA(b) and CryIA(c), toxins which are either inactive or poorly active against Sf9 cells, had no detectable effect on pH _i . B. thuringiensis endotoxins thus appear to act specifically by increasing the permeability of the cytoplasmic membrane of susceptible cells to at least H⁺, K⁺ and Na⁺.     

Effect of calmidazolium and phorbol ester on catecholamine secretion from adrenal chromaffin cells

Carbamylcholine-stimulated catecholamine release from adrenal chromaffin cells was completely inhibited by pretreatment of the cells for 10 min with 1 μM calmidazolium. Catecholamine release due to 55 mM K⁺ and ionophore A23187 was also inhibited by calmidazolium but less effectively than release due to carbamylcholine. Inhibition of release appeared to be due to an effect of calmidazolium on a step distal to Ca²⁺ entry, since the carbamylcholine-stimulated rise in the concentration of intracellular free calcium, monitored using quin-2, was unaffected by calmidazolium. The possibility was considered that calmidazolium inhibited secretion through an effect on protein kinase C rather than calmodulin. However, the phorbol ester, 12-O-tetradecanoylphorbol 13-acetate (TPA), had no demonstrable effect on catecholamine release, arguing against a significant role for protein kinase C in secretion from adrenal chromaffin cells. These results give further support to the notion that calmodulin plays a role in the secretory process in chromaffin cells.     

Cholinoceptor-mediated control of catecholamine release from chromaffin cells in the American eel,Anguilla rostrata

The cholinergic agonist-induced secretion of catecholamines from chromaffin cells in the American eel, Anguilla rostrata, was assessed using a salineperfused posterior cardinal vein preparation. Direct membrane depolarization with 60 mmol·l^-1 K⁺ caused a significant release of catecholamines (adrenaline + noradrenaline) into the perfusate which was unaffected by pre-treatment with the ganglion blocker, hexamethonium (final concentration = 10^-3 mol · l^-1). The nicotinic receptor agonist, 1,1-dimethyl-4-phenylpiperazinium iodide, evoked catecholamine release in response to several doses exceeding 10^-7 mol; at 10^-5 mol the response was abolished by pre-treatment with the ganglion blocker, hexamethonium (final concentration = 10^-3 mol · l^-1). The muscarinic receptor agonist, pilocarpine, did not elicit catecholamine release in response to any of the doses administered (10^-8–10^-4 mol). A single injection of the mixed nicotinic/muscarinic cholinoceptor agonist, carbachol (10^-5 mol), caused the release of catecholamines which was abolished by pre-treatment with hexamethonium but which was unaffected by pre-treatment with the muscarinic receptor antagonist atropine (final concentration = 10^-5 mol · l^-1). The results of this study indicate that the process of cholinergic agonist-induced catecholamine secretion from the chromaffin cells in the American eel is mediated exclusively by activation of nicotinic receptors with no involvement of the muscarinic receptor.Abbreviations DMPP 1,1-dimethyl-4-phenylpiperazinium iodide - MS222 ethylaminobenzoate - HPLC high-performance liquid chromatography - PCV posterior cardinal vein - SEM standard error of the mean     

Retinol activates tyrosine hydroxylase acutely by increasing the phosphorylation of serine40 and then serine31 in bovine adrenal chromaffin cells

Tyrosine hydroxylase is the rate-limiting enzyme in the biosynthesis of the catecholamines. It has been reported that retinol (vitamin A) modulates tyrosine hydroxylase activity by increasing its expression through the activation of the nuclear retinoid receptors. In this study, we observed that retinol also leads to an acute activation of tyrosine hydroxylase in bovine adrenal chromaffin cells and this was shown to occur via two distinct non-genomic mechanisms. In the first mechanism, retinol induced an influx in extracellular calcium, activation of protein kinase C and serine40 phosphorylation, leading to tyrosine hydroxylase activation within 15 min. This effect then declined over time. The retinol-induced rise in intracellular calcium then led to a second slower mechanism; this involved an increase in reactive oxygen species, activation of extracellular signal-regulated kinase 1/2 and serine31 phosphorylation and the maintenance of tyrosine hydroxylase activation for up to 2 h. No effects were observed with retinoic acid. These results show that retinol activates tyrosine hydroxylase via two sequential non-genomic mechanisms, which have not previously been characterized. These mechanisms are likely to operate in vivo to facilitate the stress response, especially when vitamin supplements are taken or when retinol is used as a therapeutic agent.     

Morphological evidence for a close interaction of chromaffin cells with cortical cells within the adrenal gland

Summary The adrenal medulla appears to exert a regulatory influence on adrenocortical steroidogenesis. We have therefore studied the morphology of rat, porcine and bovine adrenals in order to characterize the contact zones of adrenomedullary and adrenocortical tissues. The distribution of chromaffin cells located within the adrenal cortex and of cortical cells located within the adrenal medulla was investigated. Chromaffin cells were characterized by immunostaining for synaptophysin and chromogranin A, both being considered specific for neuroendocrine cells. Cortical cells were characterized by immunostaining for 17-hydroxylase, an enzyme of the steroid pathway. Cellular contacts of chromaffin cells and cortical cells were examined at the electron microscopical level. In rat and porcine adrenals, rays of chromaffin cells, small cell clusters and single chromaffin cells or small invaginations from the medulla could be detected in all three zones of the cortex. Chromaffin cells often spread in the subcapsular space of the zona glomerulosa. In porcine and bovine adrenals, 17-hydroxylase immunoreactive cells were localized within the medulla. Single cortical cells and small accumulations of cells were spread throughout this region. At the ultrastructural level, the chromaffin cells located within the cortex in pig and rat adrenals formed close cellular contacts with cortical cells in all three zones. Our morphological data provide evidence for a possible paracrine role of chromaffin cells; this may be important for the neuroregulation of the adrenal cortex.     

Purification and characterization of aminopeptidase N from Spodoptera litura expressed in Sf21 insect cells

Insecticidal crystal proteins produced by strains of Bacillus thuringiensis cause larval death upon interaction with specific receptors located at the midgut epithelium of susceptible insects. Large quantities of easily purified aminopeptidase and cadherin-like Cry toxin receptors can facilitate the further study of Cry toxin binding and pore formation. Here, we report the solubilisation and purification of aminopeptidase N from Spodoptera litura (SlAPN). Recombinantly expressed and membrane anchored aminopeptidase N showed differential solubilisation with various ionic and nonionic detergents. The N-lauryl sarcosine (NLS)-solubilised SlAPN was purified to near homogeneity by anion exchange and gel filtration chromatography and refolded to its catalytically active form. The optimized purification regimen lead to >90% purification of the catalytically active SlAPN with 11% recovery and 9-folds purification. The interaction of purified SlAPN with biologically active Cry1C protein has been qualitatively and quantitatively characterized. By ligand blotting experiment, we demonstrated the linearity of interaction of the two purified proteins and lack of interaction of SlAPN with structurally divergent nontoxic Cry1Ac protein. The equilibrium dissociation constant (K(D)) of purified SlAPN for Cry1C was calculated by ELISA (90nM). Interaction of enzymatically inactive SlAPN with Cry1C and catalytic activity of APN-Cry1C complex suggested that the catalytic site and toxin-binding sites of SlAPN do not overlap.     

Functional expression of rat renal Na/Pi-cotransport (NaPi-2) in Sf9 cells by the baculovirus system

The recently cloned Na/P _i -cotransport system NaPi-2 is an apical membrane protein of rat proximal tubular cells and is involved in proximal phosphate reabsorption. To make the protein available for further functional/structural studies, this transport system has been expressed in Sf9 insect cells using a recombinant baculovirus. Sf9 cells infected with NaPi-2 (or 6His tagged NaPi-2) expressed functional Na/P _i -cotransport up to 20- to 50-fold over noninfected Sf9 cells. Transport of phosphate in infected cells was highly dependent on sodium, exhibited a K _m for P _i of 0.114 mm and an apparent K _m for Na of 63 mm (Hill coefficient of approximately 3) and was stimulated by high external pH. Infected cells expressed a polypeptide of 65 kDa representing a nonglycosylated form of the 85 kDa mature NaPi-2 transporter as present in proximal tubular brush-border membranes. By confocal microscopy expression of NaPi-2 protein was observed in the plasma membrane, yet submembranous accumulation of NaPi-2 protein could not be excluded. This demonstrates that the rat proximal tubular Na/P _i -cotransport system NaPi-2 can be successfully expressed in Sf9 cells with characteristics similar to that in isolated brush-border membranes. The 6His tagging will permit isolation of the NaPi-2 cotransporter in amounts sufficient for structural/functional studies.We would like to thank W. Scherle and M. Lötscher (Institute of Anatomy) for their generous help using the confocal microscope and Ch. Gasser for the art work. Financial support by the Swiss National Fonds [Grant No. 32-30785.91 (to H.M.) and 32-28664.90 (to J.B.)] and by Stiftung für wissenschaftliche Forschung an der Universitát Zürich is greatly acknowledged.     

Effects of calcium and bay K-8644 on calcium currents in adrenal medullary chromaffin cells

Summary The kinetic and steady-state characteristics of calcium currents in cultured bovine adrenal chromaffin cells were analyzed by the patch-clamp technique. Whole cell inward Ca²⁺ currents, recorded in the presence of either 5.2 or 2.6mm Ca²⁺ exhibited a single, noninactivating component. To analyze the effects of Ca²⁺ and Bay K-8644 on the kinetics of the Ca²⁺ currents, we used a modified version of the Hodgkin-Huxley empirical model. At physiological [Ca²⁺] (2.5mm) the midpoint of the steady-state Ca²⁺-channel activation curve lay at –6.9 mV. Increasing the [Ca²⁺] to 5.2mm shifted the midpoint by –4.3 mV along the voltage axis. At the midpoint, changes in potential of 7.8 mV (for 5.2mm Ca²⁺) and 9.2 mV (for 2.5mm Ca²⁺) induced ane-fold change in the activation of the current. Increasing [Ca²⁺]₀ from 2.5 to 5.2mm induced a marked increase in the rate constant for turning on the Ca²⁺ permeability. Conductances were estimated from the slope of the linear part of the currentvoltage relationships as 8.7 and 4.2 nS in the presence of 5.2 and 2.5mm Ca²⁺, respectively. Incubation of the cells in the presence of Bay K-8644 at increasing concentrations from 0.001 to 0.1 m increased the slope conductance from 4.2 to 9.6 nS. Further increases in the concentration of Bay K-8644 from 1 to 100 m induced a marked reduction in the conductance to 1.1 nS. In the presence of Bay K-8644 (0.1 m) the midpoint of the activation curve was shifted by 6.1 mV towards more negative potentials, i.e., from –6.9 to –13 mV. At the midpoint potential of –13 mV, a change in potential of 6.9 mV caused ane-fold change in Ca²⁺ permeability. The kinetic analysis showed that Bay K-8644 significantly reduced the size of the rate constant for turning off the Ca²⁺ permeability.     

Tyrosine Hydroxylase Phosphorylation in Bovine Adrenal Chromaffin Cells: The Role of Intracellular Ca2+ in the Histamine H1 Receptor-Stimulated Phosphorylation of Ser8, Ser19, Ser31, and Ser40

Abstract: Tyrosine hydroxylase (TOH), the rate-limiting enzyme in catecholamine biosynthesis, is regulated by phosphorylation. Activation of histaminergic H₁ receptors on cultured bovine adrenal chromaffin cells stimulated a rapid increase in TOH phosphorylation (within 5 s) that was sustained for at least 5 min. The initial increase in TOH phosphorylation (up to 1 min) was essentially unchanged by the removal of extracellular Ca²⁺. In contrast, the H₁-mediated response was abolished by preloading the cells with BAPTA acetoxymethyl ester (50 µ M ) and significantly reduced by prior exposure to caffeine (10 m M for 10 min) to deplete intracellular Ca²⁺. Trypticphosphopeptide analysis by HPLC revealed that the H₁ response in the presence or absence of extracellular Ca²⁺ resulted in a major increase in the phosphorylation of Ser¹⁹ with smaller increases in that of Ser⁴⁰ and Ser³¹. In contrast, although a brief stimulation with nicotine (30 µ M for 60 s) also resulted in a major increase in Ser¹⁹ phosphorylation, this response was abolished in the absence of extracellular Ca²⁺. These data indicate that the mobilization of intracellular Ca²⁺ plays a crucial role in supporting H₁-mediated TOH phosphorylation and may thus have a potentially important role in regulating catecholamine synthesis.     

Dopaminergic neurons in the retina of Xenopus laevis: amacrine vs. interplexiform subtypes and relation to bipolar cells

Presumed dopaminergic neurons were visualized in the retina of the clawed frog, Xenopus laevis, by anti-tyrosine hydroxylase (TH) immunoreactivity. The studied cells constitute a uniform population with perikarya at the junction of inner nuclear (INL) and inner plexiform (IPL) layers. Each cell body gives rise to 4–6 relatively stout processes (0.5–2.0 m in diameter) which run for up to 1.2 mm in strata 4–5 of the IPL. These processes have a very asymmetric distribution in the horizontal plane of the retina. A dense plexus of TH fine fibers is distributed uniformly in stratum 1 of the IPL. TH cells are distributed evenly but sparsely (16–20 cells/mm²) across the retina. About 20% of the TH neurons emit 1–3 distally directed fine processes, the majority of which extend < 20 m, which barely suffices to reach the outer plexiform layer (OPL). Other longer processes are typically unbranched; some reach the OPL, others run tangentially in the INL. The axon terminals of Golgi-impregnated bipolar cells are characterized according to the strata of the IPL in which they arborize. About 80% are confined either to strata 1–2 or 3–5, conforming to the off and on zones defined by Famiglietti and Kolb (1976). The remainder appear to end in both zones, some extending across the entire width of the IPL. EM examination showed that TH processes receive bipolar synaptic input in both distal and proximal portions of the IPL.