Prostaglandin E2 production by dispersed canine fundic mucosal cells. Contribution of macrophages and endothelial cells as major sources.

Endogenous prostaglandins (PGs) influence resistance of the gastric mucosa to injury, but the source of PGs is unknown. Using radioimmunoassay, we studied PG production by dispersed canine fundic mucosal cells. PGE2 production, stimulated by bradykinin, epidermal growth factor, zymosan, and calcium ionophore, was greater in the small-cell elutriator fraction (SCEF) than in the medium and large cell fractions, which contained mucous, chief, and parietal cells. Linear density gradients of SCEF cells revealed maximal PGE2 production in cells of light density. Mast, endocrine, and endothelial cells did not account for this PGE2 production. Macrophages, identified by uptake of acetylated-LDL, immunoreactivity with antibodies to the human Ia antigen, and phagocytosis of fluorescent latex particles, were enriched in the SCEF and correlated with PGE2 production in the density gradient. Magnetic separation of cells in the SCEF-ingesting iron particles enriched PGE2 production. Fractions enriched in endothelial cells present in intact capillary fragments, but depleted of macrophages, also produced PGE2. Regulation of PGE2 production differed among cell types. Fibroblasts were easily cultured from submucosa, but were not detected in the SCEF. We conclude that macrophages and capillary endothelial cells are major producers of PGE2 in the canine fundic mucosa.

Oxygen metabolites modulate prostaglandin E2 production by isolated gastric mucosal cells.

We previously found that the small cell fraction of isolated cells from canine gastric mucosa is a major producer of prostaglandin E2 (PGE2) and identified macrophages as the predominant cellular source. Prostaglandin-H synthase activity is dependent on the continuous presence of hydroperoxides. Because reactive oxygen metabolites may mediate mucosal injury in inflammatory or ischemic disease, we studied the release of PGE2 by isolated gastric cells during exposure to an oxygen metabolite-generating system, xanthine and xanthine oxidase. We found a concentration-dependent relationship between xanthine oxidase concentration and PGE2 production without cell lysis. The maximum PGE2 production stimulated by oxidants was equivalent to the maximum PGE2 response to bradykinin and A23187. The chief and parietal cell fractions produced very little PGE2 with xanthine oxidase concentrations that stimulated maximal PGE2 production in the small cell fraction. Uric acid did not stimulate PGE2 production. Catalase completely inhibited the response, while superoxide dismutase had a partial inhibitory effect. Hydrogen peroxide stimulated concentration-dependent PGE2 production with an ED50 of approximately 5 microM. We concluded that reactive oxygen metabolites stimulate PGE2 production by the small cell fraction of gastric mucosa.

Prostanoid inhibition of canine parietal cells: mediation by the inhibitory guanosine triphosphate-binding protein of adenylate cyclase.

We have investigated the mechanisms underlying prostaglandin inhibition of histamine-stimulated parietal cell function. Enzyme-dispersed canine parietal cells were enriched by elutriation. The accumulation of the weak base [14C]aminopyrine was used as an index of parietal cell function and cyclic adenosine monophosphate content was measured by radioimmunoassay. Step density gradients of the elutriator-enriched parietal cell fractions indicated that parietal cells accounted for the histamine stimulation of cyclic adenosine monophosphate production and inhibition by the prostaglandin E analogue Enprostil. Pertussis toxin adenosine diphosphate-ribosylates a subunit with a molecular weight of 41,000, thereby inactivating the inhibitory guanine nucleotide-binding protein of adenylate cyclase. Pertussis toxin treatment of parietal cells in overnight suspension culture was used to determine if inhibitory guanosine triphosphate-binding protein mediated prostanoid inhibition. In control cultured cells, prostaglandin E2 and Enprostil markedly inhibited forskolin- and histamine-stimulated aminopyrine accumulation. In parietal cells treated with pertussis toxin (300 ng/ml) for 18 h, stimulation of parietal cell function by histamine, isobutylmethylxanthine, and forskolin was unaltered compared with control cells, whereas prostaglandin E2 and Enprostil inhibition was markedly reduced. In pertussis toxin-treated cells, histamine-stimulated cyclic adenosine monophosphate generation was unaltered, whereas Enprostil inhibition of histamine-stimulated cyclic adenosine monophosphate production was markedly reduced. Pertussis toxin treatment of membranes from control, but not from pertussis toxin-treated, cells induced the [32P]adenosine diphosphate-ribosylation of a membrane protein with a molecular weight of 41,000, presumably the alpha-subunit of inhibitory guanosine triphosphate-binding protein. We conclude that prostanoids inhibit parietal cell function by receptor-mediated interaction with the inhibitory guanine nucleotide-binding protein of adenylate cyclase.

Prostanoid inhibition of canine parietal cells.

Cellular mechanisms underlying the anti-secretory actions of the prostaglandin E2 analogue enprostil were studied using enzyme-dispersed, elutriator-enriched canine parietal cells and the accumulation of the weak base 14C-labeled aminopyrine as a functional index. Enprostil inhibited the accumulation of aminopyrine stimulated by histamine and the phosphodiesterase inhibitor isobutylmethyl, but not by carbachol, gastrin, or dibutyryl cyclic adenosine monophosphate. Inhibition by enprostil was dose-dependent (0.1 nM to 1 microM), with maximal inhibition ranging from 65 to 95 percent. Over the same concentration range, enprostil inhibited the histamine-stimulated generation of cyclic adenosine monophosphate. This selective inhibition of histamine activation of parietal cell function was comparable to that found for prostaglandin E2. Forskolin, a diterpene that directly activates the catalytic subunit of adenylate cyclase, was also markedly inhibited by nanomolar concentrations of prostaglandin E2 and enprostil. We conclude that at least a component of the secretory inhibition by enprostil reflects direct interference with histamine stimulation of parietal cell adenylate cyclase.

Cholecystokinin potently releases somatostatin from canine fundic mucosal cells in short-term culture.

Previous studies indicated that gastrin-17 (G-17) and the octapeptide of colecystokinin (CCK-8) were equally potent in their interaction with receptors for 125I-[Leu15]G-17 on isolated canine parietal cells. These findings were inconsistent with the poor efficacy of CCK-8 compared with G-17 as stimuli of acid secretion in dogs. The present study examines the effects of G-17 and CCK-8 on the release of somatostatinlike immunoreactivity (SLI) from a fraction of small canine fundic mucosal cells separated by elutriation and placed in short-term culture. CCK-8 was considerably more potent and more effective than G-17 as a stimulant of SLI release from these cultured cells. CCK-8 was slightly more potent than G-17 in inhibiting 125I-[Leu15]G-17 binding to receptors in the same elutriator fraction. Our present findings support the hypothesis that the poor efficacy of CCK compared with G-17 as a stimulant of acid secretion may reflect pronounced activation of somatostatin-mediated acid-inhibitory mechanisms by CCK-8. The present data indicate that differences in affinity between CCK-8 and G-17 at the 125I[Leu15]G-17 receptor probably do not account for the greater efficacy of CCK-8; the receptor or cell activation mechanisms underlying this greater efficacy of CCK-8 on SLI release remain to be elucidated.

Gastrin receptors on nonparietal cells isolated from canine fundic mucosa.

The cellular localization of gastrin receptors was studied using dispersed canine fundic mucosal cells. In previous studies 125I-[Leu15]gastrin-17 (125I-[Leu15]G-17) binding was found to parietal cells, but gastrin binding was also found in the small-cell elutriator fractions (SCEF). In the present study a density gradient was used to further separate the SCEF and the distribution of 125I-[Leu15]G-17 binding correlated with cellular content of somatostatinlike immunoreactivity (SLI). In contrast, 125I-[Leu15]G-17 binding was inversely correlated with the histamine content of the fractions. 125I-[Leu15]G-17 binding to the SCEF was rapid and reversible. Total binding was 0.29 +/- 0.02 fmol/10(6) cells (mean +/- SE, n = 15); excess unlabeled G-17 inhibited 85% of this binding. G-17, [Leu15]G-17, and 127I-[Leu15]G-17 were equipotent in inhibiting 125I-[Leu15]G-17 binding and stimulating SLI secretion from the SCEF placed in short-term culture, whereas 127I-G-17 had a low potency for both effects. Proglumide, known to inhibit cholecystokinin binding to pancreatic acinar cell receptors, also inhibited 125I-[Leu15]G-17 binding to the SCEF and inhibited G-17 stimulated SLI release. We conclude that in the canine fundic mucosa gastrin interacts with receptor sites on parietal cells and somatostatin cells but probably not on fundic mucosal histamine-containing cells. These receptor sites for gastrin may activate counterbalancing mechanisms regulating the secretion of acid.

Gastrin receptors on isolated canine parietal cells.

The receptors in the fundic mucosa that mediate gastrin stimulation of acid secretion have been studied. Synthetic human gastrin-17-I (G17) with a leucine substitution in the 15th position ( [Leu15]-G17) was iodinated by chloramine T; high saturable binding was found to enzyme-dispersed canine fundic mucosal cells. 127I-[Leu15]-G17, but not 127I-G17, retained binding potency and biological activity comparable with uniodinated G17. Fundic mucosal cells were separated by size by using an elutriator rotor, and specific 125I-[Leu-15]-G17 binding in the larger cell fractions was highly correlated with the distribution of parietal cells. There was, however, specific gastrin binding in the small cell fractions, not accounted for by parietal cells. Using sequential elutriation and stepwise density gradients, highly enriched parietal and chief cell fractions were prepared; 125I-[Leu15]-G17 binding correlated positively with the parietal cell (r = 0.98) and negatively with chief cell content (r = -0.96). In fractions enriched to 45-65% parietal cells, specific 125I-[Leu15]-G17 binding was rapid, reaching a steady state at 37 degrees C within 30 min. Dissociation was also rapid, with the rate similar after 100-fold dilution or dilution plus excess pentagastrin. At a tracer concentration from 10 to 30 pM, saturable binding was 7.8 +/- 0.8% per 10(6) cells (mean +/- SE) and binding in the presence of excess pentagastrin accounted for 11% of total binding. G17 and carboxyl terminal octapeptide of cholecystokinin (26-33) were equipotent in displacing tracer binding and in stimulating parietal cell function ( [14C]aminopyrine accumulation), whereas the tetrapeptide of gastrin (14-17) had a much lower potency. Proglumide inhibited gastrin binding and selectively inhibited gastrin stimulation of parietal cell function. Canine parietal cells have specific receptors for gastrin that mediate stimulation of parietal cell function. Gastrin receptors were undetectable on chief cells, and yet present on another smaller mucosal cell(s).

Regulation of pepsinogen release from canine chief cells in primary monolayer culture.

To study the regulation of pepsinogen secretion by chief cells, we have developed techniques for the isolation, enrichment, and short-term culture of chief cells from canine stomach. The fundic mucosa was enzyme dispersed and chief cells were enriched to a content of about 70% using an elutriator rotor. After 36 h in culture confluent monolayers formed that were highly enriched in chief cells. Carbachol induced a time-dependent release of pepsinogen into the medium, with about a threefold increase in pepsinogen secretion over controls found after 60 min of incubation. Carbachol stimulation of pepsinogen secretion was dose dependent, with 5 microM producing 50% of the maximal response found at a carbachol concentration of 100 microM. Atropine (100 microM) produced a rightward shift of the dose-response curve, indicating the presence of a muscarinic receptor. Dibutyryl cAMP, 8-bromo-cAMP, and forskolin also markedly stimulated pepsinogen secretion. Secretin and vasoactive intestinal peptide (VIP) stimulated pepsinogen secretion, but the response were of smaller magnitude than found with carbachol or the cAMP analogues. The phosphodiesterase inhibitor isobutylmethylxanthine also caused a small stimulation of pepsinogen secretion but did not enhance the response to secretin or VIP. These findings indicate that epithelial monolayers can spontaneously form from isolated canine chief cells and retain functional differentiation evident by a response to stimulation. Canine chief cells in culture possess muscarinic and secretin receptors and respond to cAMP.

Electrical effects of histamine on monolayers formed in culture from enriched canine gastric chief cells.

To develop techniques for studying transport properties and secretory function of selected cell types in the gastric mucosa, separated fractions of dispersed canine fundic mucosal cells were placed in short-term culture to form epithelial monolayers. Cell fractions enriched in either chief, parietal, or mucous cells were prepared by using counterflow centrifugation and were plated on type I collagen. An epithelial monolayer formed by approximately equal to 36 hr. Immunofluorescence with an antipepsinogen I antibody revealed pepsinogen-containing granules in greater than 95% of the cells, regardless of whether the monolayers were formed from the mucous, chief, or parietal cell-enriched fractions. Upon achieving confluency, chief cell monolayers were mounted in Ussing chambers to study their electrical properties. Under basal conditions, monolayers (n = 6) had a spontaneous potential difference (PD) (+/- SEM) of 26 +/- 4 mV (apical surface negative), a short-circuit current (Isc) (+/- SEM) of 16 +/- 2 microA/cm2, and a transepithelial resistance (R) (+/- SEM) of 1,480 +/- 210 omega X cm2. Histamine increased the short-circuit current, an effect blocked by an H2-receptor antagonist. Seventy percent of the spontaneous PD was amiloride sensitive, suggesting sodium absorption accounted for a major component of the PD. These preparative techniques yield highly enriched chief cell monolayers, which maintain morphological and functional cellular differentiation for greater than 48 hr in culture, thus allowing study of oriented functions of a selected cell type. The present studies indicate that an H2 receptor enhances electrogenic ion transport in chief cell monolayers, indicating that histamine can act on fundic mucosal cells other than just parietal cells.

Bacterial flora of comedones.

Open comedones from thirty-eight patients with acne vulgaris on the face or back were compared for microbial flora. A total of eighty-three comedones from the face and sixty-three from the upper back were individually processed for quantitative bacterial analysis. The greatest difference between the flora of comedones at these two sites was that 44.6% of comedones from the back (compared to 9.6% from the face) harboured no aerobic cocci. The decreased prevalence of staphylococci in the lesions from the back reflects the relative absence of these organisms in isolated follicles from normal uninvolved skin of the back. The geometric mean count of anaerobes in comedones from the back was in the same range as the count found in isolated follicles in normal uninvolved skin in a previous study. This work supports the concept that the bacterial flora of comedones is an extension of the follicular flora and may be unrelated to the event of comedogenesis.

Quantification of bacteria in isolated pilosebaceous follicles in normal skin.

A technique for quantitating bacteria in isolated pilosebaceous follicles is described. This involves microdissection of the follicles from biopsies of skin, using the method of chemical pretreatment of skin to facilitate the separation of the epidermis and epidermal appendages from the dermis. The aerobic cocci and anaerobic diphtheroids in pilosebaceous follicles in 66 biopsies of scalp and 48 biopsies of skin of the upper back were quantitated using this technique. On the back, aerobic staphylococci were very sparse in normal follicles, indicating that their primary habitat on the skin must be on the skin surface rather than within follicles. Of 138 isolated follicles from skin of the upper back, 94 contained no aerobic cocci. Anaerobic organisms were present in high numbers within normal follicles. The geometric mean density of anaerobes in 138 isolated follicles from skin of the upper back was 3.8 X 10(4) diphtheroids per follicle. Eighty-eight follicles contained more than 10(4) anaerobic diphtheroids. Using data from scalp biopsies we found that there was a correlation between the weight of sebaceous glands and the density of anaerobes within the follicles attached to these glands (coefficient of correlation = 0.6).