The distribution of Concanavalin A receptor sites on the membrane of chromaffin granules.
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The distribution of concanavalin A (con A) receptor sites on the membranes of chromaffin granules has been investigated by binding studies using 125I-labelled con A and by electron-microscope studies using ferritin-labelled con A. In both experiments con A was observed to bind to chromaffin granule membranes but not to intact granules. The ferritin-con A particles bind to only one of the two possible surfaces of the chromaffin granule membranes. These results are in agreement with previous observations concerning the asymmetric distribution of saccharide residues on the surfaces of a number of different plasma membranes. They suggest that for the intracellular membrane of the chromaffin granule the saccharide sites, like those in plasma membranes, are not exposed to the cell cytoplasm. Further work is necessary to establish whether these sites are on the inner surface of the membrane or whether they are unmasked during the conversion of granules to membrane ghosts. (+info)
Separation of gastric mucosal cells of rat with proteolytic enzymes, pronase and trypsin, with special reference to the collection, morphology and viability of the generative cells.
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Methods to separate and collect gastric mucosal cells of the rat using proteolytic enzymes were devised. Pronase (1.0%) achieved better results than did trypsin (2.0%) in collecting single isolated cells with higher cell yields and viability. The cells dissociated with trypsin retained glandular structures as in situ. The measurement of radioactivity revealed that the incorporation of 3H-thymidine into generative cells was highest in the cell suspension collected by the second 15 min dissociation. It was concluded that the most effective method to obtain dissociated cells from the generative zone of the mucosa is to collect the cells dissociated with 1.0% pronase continuously for a period from 15 to 45 min after the start of dissociation. On autogradiographic analysis with 3H-thymidine, the ratio of generative cells was 10%, approximately 3 X 10(5) cells, in the specimens. (+info)
Ultrastructure of endocrine cells in metaplastic epithelium of human gall bladder.
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Two endocrine cell types were found in the metaplastic epithelium of gall bladders removed for gall stones. The endocrine cell type I resembled the EC (enterochromaffin) cell of the normal stomach mucosa. The homogeneous and electron-dense secretory granules were variable in size and shape and mainly located in the sub-nuclear cytoplasm. The endocrine cell type II was similar to the ECL (enterochromaffin-like) cell of the human stomach. The secretory granules were almost exclusively present in a subnuclear location, and were round and homogeneous in size. The secretory material was slightly granular and often there was a clear zone (halo) between the granule core and the limiting membrane. A rich network of microfilaments in the cytoplasm, especially around the nucleus, was typical of the type II endocrine cell. Both cell types were closely related to the basement membrane and the capillaries underneath. (+info)
Development of chromaffin cells depends on MASH1 function.
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The sympathoadrenal (SA) cell lineage is a derivative of the neural crest (NC), which gives rise to sympathetic neurons and neuroendocrine chromaffin cells. Signals that are important for specification of these two types of cells are largely unknown. MASH1 plays an important role for neuronal as well as catecholaminergic differentiation. Mash1 knockout mice display severe deficits in sympathetic ganglia, yet their adrenal medulla has been reported to be largely normal suggesting that MASH1 is essential for neuronal but not for neuroendocrine differentiation. We show now that MASH1 function is necessary for the development of the vast majority of chromaffin cells. Most adrenal medullary cells in Mash1(-/-) mice identified by Phox2b immunoreactivity, lack the catecholaminergic marker tyrosine hydroxylase. Mash1 mutant and wild-type mice have almost identical numbers of Phox2b-positive cells in their adrenal glands at embryonic day (E) 13.5; however, only one-third of the Phox2b-positive adrenal cell population seen in Mash1(+/+) mice is maintained in Mash1(-/-) mice at birth. Similar to Phox2b, cells expressing Phox2a and Hand2 (dHand) clearly outnumber TH-positive cells. Most cells in the adrenal medulla of Mash1(-/-) mice do not contain chromaffin granules, display a very immature, neuroblast-like phenotype, and, unlike wild-type adrenal chromaffin cells, show prolonged expression of neurofilament and Ret comparable with that observed in wild-type sympathetic ganglia. However, few chromaffin cells in Mash1(-/-) mice become PNMT positive and downregulate neurofilament and Ret expression. Together, these findings suggest that the development of chromaffin cells does depend on MASH1 function not only for catecholaminergic differentiation but also for general chromaffin cell differentiation. (+info)
Inhibition of voltage-gated Ca2+ entry into GH3 and chromaffin cells by imidazole antimycotics and other cytochrome P450 blockers.
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We have studied the effects of cytochrome P450 inhibitors on the entry of Ca2+ and Mn2+, used here as a Ca2+ surrogate for Ca2+ channels, in fura-2-loaded GH3 pituitary cells and bovine chromaffin cells depolarized with high-K+ solutions. Imidazole antimycotics were potent inhibitors (econazole greater than miconazole greater than clotrimazole greater than ketoconazole). alpha-Naphtoflavone and isosafrole, but not metyrapone, also inhibited the entry of Ca2+ and Mn2+ induced by depolarization. This inhibitory profile most resembles that reported for IA-type cytochrome P450. However, carbon monoxide (CO), a well-known cytochrome P450 antagonist, had no effect on Ca2+ (Mn2+) entry. Given the high selectivity of the imidazole antimycotics for the heme moiety, our results suggest that a hemoprotein closely related to cytochrome P450 (but insensitive to CO) might be involved in the regulation of voltage-gated Ca2+ channels. The inhibitory pattern was also similar to that previously reported for agonist-induced Ca2+ (Mn2+) influx in neutrophils and platelets, although CO was an efficient inhibitor in this case. These results pose the question of whether similarities in the sensitivity to cytochrome P450 inhibitors exhibited by receptor-operated and voltage-gated channels reflect unknown similarities either in structural features or regulation mechanisms. (+info)
Volume-sensitive chloride conductance in bovine chromaffin cell membrane.
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1. Bovine chromaffin cells were inflated by pressure applied through a pipette or swollen during intracellular perfusion with hypertonic solutions. Effects of such procedures on electrical properties of the membrane were studied by a combination of the tight-seal whole-cell patch-clamp technique and Fura-2 fluorescence measurements of free intracellular calcium concentration ([Ca2+]i). 2. Application of air pressure (about +5 cmH2O or 490 Pa) through the patch pipette caused an increase in the cell volume and concomitant development of an inwardly directed transient current at the holding potential of -60 mV. The current gradually increased to a peak value and subsequently decayed almost to its initial level within 5-10 min. A short pulse of pressure (5-10 s) was sufficient to elicit the whole sequence of events. 3. Intracellular free Ca2+ ion concentration, [Ca2+]i, steeply increased at the beginning of the pressure pulse to about 0.2 microM and either stayed at this level or decayed back to the more usual value of approximately 0.1 microM. 4. Similar changes in the transmembrane current and [Ca2+]i were observed during intracellular perfusion of cells with hypertonic solutions (30-50 mosM difference relative to the bath solution) or during extracellular application of hypotonic solution. 5. Swelling of non-perfused cells by extracellular application of hyposmotic solution caused the appearance of inward currents in cell-attached membrane patches held at a fixed potential -30 mV relative to the cell's resting potential. The kinetics of the current resembled those of the whole-cell current. 6. Intracellular introduction of guanosine triphosphate (GTP, 300 microM) significantly prolonged the duration (from 62 +/- 10 s, n = 5, to 98 +/- 8 s, n = 4, when measured at the level of half-amplitude), while introduction of the non-hydrolysable analogue of guanosine diphosphate (GDP), guanosine 5'-O-(2-thiodiphosphate) (GDP beta S, 300 microM), decreased the maximal rate of increase (from 11.4 +/- 2.6 pA/s, n = 6, to 3.2 +/- 2.1 pA/s, n = 10) of the current activated by pressure. 7. Lowering of the intracellular free Ca2+ ion concentration by introduction of 10 mM-EGTA did not significantly affect the current amplitude or time course. However, a rapid increase in the [Ca2+]i to micromolar levels (by activation of the voltage-operated calcium channels during membrane depolarization) could terminate development of the current activated by pressure and cause its fast decay to zero-current level.(ABSTRACT TRUNCATED AT 400 WORDS) (+info)
Effects of adrenal medulla and sciatic nerve co-grafts in rats with unilateral substantia nigra lesions.
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Major limitations of adrenal medulla transplantation in animal models of Parkinson's disease have been the relatively small behavioral effects and the poor or inconsistent graft survival. Transplantation of fragments of sural nerve in combination with adrenal medulla has been reported to increase the survival of chromaffin cells in adrenal medulla grafts in primates. In the present study, the possibility was tested that peripheral nerve co-grafts would increase the functional effects of adrenal medulla grafts in a 6-hydroxydopamine-lesioned rat model. Animals received unilateral substantia nigra lesions, and subsequently received intraventricular grafts of adrenal medulla, sciatic nerve, adrenal medulla plus sciatic nerve, or sham grafts consisting of medium only. Functional effects of the grafts were tested using apomorphine-induced rotational behavior. The sciatic nerve co-grafts did not increase the survival of TH-immunoreactive chromaffin cells. The co-grafting treatment also did not augment the overall effect of adrenal medulla grafts on rotational behavior. In the animals with substantial numbers of surviving chromaffin cells, however, the animals with sciatic nerve co-grafts showed greater decreases in rotational behavior as compared to the animals with adrenal medulla grafts alone, even though the number of surviving cells was not increased. (+info)
Developmental regulation of leucine-enkephalin expression in adrenal chromaffin cells by glucocorticoids and innervation.
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Most catecholaminergic cells derived from the sympathoadrenal lineage of the neural crest contain one or more neuropeptides. Although a great deal is known about the development and regulation of catecholaminergic properties in these cells, relatively little is known about the developmental control of their neuropeptidergic properties. We have investigated the possible role of glucocorticoids and preganglionic innervation in the regulation of leucine-enkephalin (L-Enk) expression in cultures of embryonic and neonatal adrenal chromaffin cells and in mature chromaffin cells in vivo. Exposure of embryonic and neonatal chromaffin cells to the synthetic glucocorticoid dexamethasone increases L-Enk content. Neonatal chromaffin cells grown in medium containing elevated levels of potassium to mimic depolarization also exhibited increased L-Enk levels. The depolarization-induced increase in L-Enk was selectively inhibited by treatment with the enkephalin analog [D-Ala, d-Leu]-enkephalin to mimic the enkephalinergic component of the preganglionic innervation. Denervation of the adrenal gland in vivo resulted in a dramatic increase in L-enk expression that could be partially mimicked by selectively blocking enkephalinergic transmission with administration of the opiate receptor antagonist naloxone. Taken together with the developmental time course and pattern of L-Enk expression in vivo, our results suggest that glucocorticoids and the preganglionic innervation regulate the developmental expression of this peptide in adrenal chromaffin cells and therefore participate in the generation of the mature neurochemical phenotypes present in the adrenal medulla. Further, in adult chromaffin cells similar factors appear to regulate the expression of L-Enk, which could in turn participate in physiological responses to stress. (+info)