Marco Merida

Vasoactive intestinal peptide in human nasal mucosa.

Vasoactive intestinal peptide (VIP), which is present with acetylcholine in parasympathetic nerve fibers, may have important regulatory functions in mucous membranes. The potential roles for VIP in human nasal mucosa were studied using an integrated approach. The VIP content of human nasal mucosa was determined to be 2.84 +/- 0.47 pmol/g wet weight (n = 8) by RIA. VIP-immunoreactive nerve fibers were found to be most concentrated in submucosal glands adjacent to serous and mucous cells. 125I-VIP binding sites were located on submucosal glands, epithelial cells, and arterioles. In short-term explant culture, VIP stimulated lactoferrin release from serous cells but did not stimulate [3H]glucosamine-labeled respiratory glycoconjugate secretion. Methacholine was more potent than VIP, and methacholine stimulated both lactoferrin and respiratory glycoconjugate release. The addition of VIP plus methacholine to explants resulted in additive increases in lactoferrin release. Based upon the autoradiographic distribution of 125I-VIP binding sites and the effects on explants, VIP derived from parasympathetic nerve fibers may function in the regulation of serous cell secretion in human nasal mucosa. VIP may also participate in the regulation of vasomotor tone.

Gastrin-releasing peptide in human nasal mucosa.

Gastrin-releasing peptide (GRP), the 27 amino acid mammalian form of bombesin, was studied in human inferior turbinate nasal mucosa. The GRP content of the mucosa measured by radioimmunoassay was 0.60 +/- 0.25 pmol/g tissue (n = 9 patients; mean +/- SEM). GRP-immunoreactive nerves detected by the immunogold method of indirect immunohistochemistry were found predominantly in small muscular arteries, arterioles, venous sinusoids, and between submucosal gland acini. 125I-GRP binding sites determined by autoradiography were exclusively and specifically localized to nasal epithelium and submucosal glands. There was no binding to vessels. The effects of GRP on submucosal gland product release were studied in short-term explant culture. GRP (10 microM) significantly stimulated the release of the serous cell-specific product lactoferrin, and [3H]glucosamine-labeled glycoconjugates which are products of epithelial goblet cells and submucosal gland cells. These observations indicate that GRP released from nerve fibers probably acts on glandular GRP receptors to induce glycoconjugate release from submucosal glands and epithelium and lactoferrin release from serous cells, but that GRP would probably not affect vascular permeability.

Characterization and Autoradiographic Localization of Histamine H1 Receptors in Human Nasal Turbinates

To examine the localization of histamine H1 receptors (H1R) in human nasal mucosa, the autoradiographic distribution of H1R was studied in human nasal inferior turbinates. Cryostat sections were incubated with various concentration of [3H]pyrilamine in saturation-binding studies and with 1 nmol/L of [3H]pyrilamine for autoradiography. Nonspecific binding was determined by adding 2 mumol/L of pyrilamine. Scatchard analysis demonstrated high-affinity binding sites with a maximum binding capacity of H1R of 193 +/- 46 fmol/mg of protein, and dissociation constant was 0.6 +/- 0.1 nmol/L. Autoradiograms indicated H1R exist exclusively on the endothelium of vessels. No specific labeling could be observed in the submucosal glands or epithelium. These results extend and support our previous finding that histamine directly causes vascular permeability through H1R and stimulates nasal glandular secretion indirectly through reflexes.

The immunologic role of tonsillar tissues in local cell-mediated immune responses†

THE ROLE OF SECRETORY IMMUNOGLOBULINS in local immunity to infectious agents has been extensively examined, l Although secretory antibodies of the IgA class have been shown to be important in the protection of mucosal surfaces against certain infectious agents, relatively little information is available concerning the role of local cell-mediated immunity in such areas. Recent evidence, derived from animal studies, suggests that respiratory tract CMI is relatively independent of systemic CMI. 25 Recently, Jurgensen and associates, 6 in studies of local cell-mediated immunity in the human being, reported a good correlation between CMI in circulating lymphocytes and in cells obtained by bronchial alveolar lavage. Furthermore, these workers have shown that local CMI was best st imulated

Human nasal mucosal carboxypeptidase : activity, location, and release

BACKGROUND Carboxypeptidases (CPs), such as carboxypeptidase N (CPN) (kininase I, E.C.3.4.17.3), may regulate peptide-mediated vasodilation and vascular permeability in respiratory mucosa by degrading proinflammatory peptides such as bradykinin, anaphylatoxins, and neuropeptides during allergic and nonallergic inflammation. The sources of CP activity in human nasal secretions were investigated. METHODS Well-characterized human nasal provocation and secretion analysis methods were used. Potential sources of CPN in human nasal mucosa were identified by immunohistochemistry. CP activity was defined as DL-2-mercaptomethyl-3-guanidinoethylthiopropanoic acid inhibitable Bz-Gly-Lys degradation. CP activity was measured in nasal mucosal homogenates and nasal lavage fluids induced by methacholine, histamine, and allergen nasal provocation. RESULTS CPN-immunoreactive material was localized to the glycocalyx of the epithelium, some vessels, and gland ducts near the epithelial basement membrane but not to submucosal gland cells. CP activity in human nasal lavage fluid after saline nasal provocation was 0.10 +/- 0.04 U/L. Histamine provoked secretion of significantly more CP activity (3.84 +/- 0.99 U/L; p < 0.01 vs saline). Methacholine did not significantly increase secretion (0.54 +/- 0.22 U/L). After nasal allergen challenge, CP activity was at a maximum between 11 and 20 minutes, and CP activity correlated with IgG concentration (r = 0.91, p < 0.01), a marker for proteins of plasma origin, suggesting that CP activity originated in plasma. CONCLUSIONS These data suggest that plasma is the predominant source of CP activity secreted from human nasal mucosa and that plasma extravasation and interstitial fluid exudation across the epithelium are the primary processes regulating its appearance in nasal secretions.

Aminopeptidase activity in human nasal mucosa

Abstract Background: Aminopeptidases activate bradykinin and degrade many inflammatory peptides. Objective: The objective of this study was to identify the types of aminopeptidase activities in human nasal mucosa. Methods: Human nasal mucosa was homogenized (n = 12), and cytoplasmic (S2) and membrane-rich (P2) fractions were obtained. Several aminopeptidase (Ap) activities were defined by (1) substrate specificity with leucine-enkephalin (leu-Ap) and alanine-nitroanilide (ala-Ap), (2) inhibitor studies with puromycin and bestatin, (3) enzyme activity histochemistry (zymography), (4) immunohistochemistry, and (5) gel electrophoresis. Human volunteers had methacholine, histamine, and allergen nasal provocations to determine the mechanisms controlling nasal aminopeptidase secretion in vivo. Results: P2 was the largest reservoir of puromycin-resistant aminopeptidase activity (630 pmol leu-enk/min/mg protein). S2 contained 32 pmol leu-enk/min/mg activity, with 80% representing puromycin-resistant activity and 20% puromycin-sensitive aminopeptidase (PS-Ap). Ala-Ap was detected in both P2 and S2 fractions and was localized by zymography to epithelial and gland cells. Anti–rat brain–soluble PS-Ap IgG detected immunoreactive material in epithelium, glands, and endothelium. In nasal provocation studies, leu-AP correlated with glandular exocytosis but not vascular leak. Conclusions: The predominant aminopeptidase in human nasal epithelial and submucosal gland cells was membrane-bound puromycin-resistant aminopeptidase. A novel soluble puromycin-resistant aminopeptidase and lower amounts of soluble PS-Ap were also detected. (J Allergy Clin Immunol 1998;102:741-50.)

THE IMMUNOLOGIC ROLE OF TONSILLAR TISSUES IN LOCAL CELL-MEDIATED IMMUNE RESPONSES

The present studies were performed to compare local cell-mediated immune (CMI) responses of tonsillar lymphoid tissues with those of systemic CMI employing lymphoproliferative responses to PHA, T-rosette formation, and specific rubella CMI studies using a 51Cr lymphocytotoxic microassay. Suspensions of peripheral blood lymphocytes (PEL) and tonsillar tissue lymphocytes (TTL), obtained from 12 subjects ranging in age from 5 to 22 years, were purified by hypaque-ficoll sedimentation and adjusted to equal concentrations. The mean ± SD responses to PHA were 56,642 ± 10,329 cpm for PEL and 38,851 ± 6,804 cpm for TTL (p > 0.6); the mean ± SD values for T-rosette formation were 30 ± 1.7% for PBL and 36.4 ± 3.8% for TTL (p > 0.1); the mean ± SD rubella specific immune release was 13.8 ± 3.7% with PBL compared to 12.6 ± 3.3% for TTL (p > 0.9). No correlation was demonstrated between serum rubella HAI antibody titers and local or systemic rubella specific CMI or between local and systemic rubella specific CMI. These results provide further evidence for the role of local CMI to viruses at mucosal surfaces and suggest the participation of tousillar tissues in these responses.