Perinatal high fat diet increases inhibition of dorsal motor nucleus of the vagus neurons regulating gastric functions.

BACKGROUND: Previous studies suggest an increased inhibition of dorsal motor nucleus of the vagus (DMV) neurons following exposure to a perinatal high fat diet (PNHFD); the underlying neural mechanisms, however, remain unknown. This study assessed the effects of PNHFD on inhibitory synaptic inputs to DMV neurons and the vagally dependent control of gastric tone and motility. METHODS: Whole-cell patch clamp recordings were made from DMV neurons in thin brainstem slices from Sprague-Dawley rats fed either a control diet or HFD (14 or 60% kcal from fat, respectively) from embryonic day 13 onwards; gastric tone and motility were recorded in in vivo anesthetized rats. KEY RESULTS: The non-selective GABAA antagonist, BIC (10 µmol L-1 ), induced comparable inward currents in PNHFD and control DMV neurons, but a larger current in PNHFD neurons at higher concentrations (50 µmol L-1 ). Differences were not apparent in neuronal responses to the phasic GABAA antagonist, gabazine (GBZ), the extrasynaptic GABAA agonist, THIP, the GABA transport blocker, nipecotic acid, or the gliotoxin, fluoroacetate, suggesting that PNHFD altered inhibitory transmission but not GABAA receptor density or function, GABA uptake or glial modulation of synaptic strength. Similarly, the increase in gastric motility and tone following brainstem microinjection of low doses of BIC (1-10 pmoles) and GBZ (0.01-0.1 pmoles) were unchanged in PNHFD rats while higher doses of BIC (25 pmoles) induced a significantly larger increase in gastric tone compared to control. CONCLUSIONS AND INFERENCES: These studies suggest that exposure to PNHFD increases the tonic inhibition of DMV neurons, possibly contributing to dysregulated vagal control of gastric functions.

The route of antigen delivery determines the airway and lung tissue mechanical responses in allergic rats.

BACKGROUND: Previous results have shown tissue constriction in allergic animals following inhalation of an antigen. Further studies have demonstrated a differing response pattern in airway and parenchymal mechanics following inhaled (i.h.) or intravenous (i.v.) delivery of methacholine (MCh). OBJECTIVE: The purpose of this study was to compare the acute allergic response in airway and parenchymal mechanics following i.h. and i.v. antigen challenge. METHODS: Brown Norway rats were sensitized to ovalbumin (OVA). Rats were anaesthetized, paralysed, and thoracotomized, and lung input impedance (ZL) between 0.5 and 21 Hz was measured using small-amplitude pseudo-random oscillations at control, after saline, and for up to 1 h after either i.h. (n = 7) or i.v. (n = 5) administration of OVA. ZL was evaluated in terms of airway resistance (Raw) and inertance (Iaw), and a constant phase tissue parenchymal damping (G) and elastance (H). RESULTS: Following i.h. OVA challenge elevations were found in Raw [192 +/- 32 (SE) %], G (223 +/- 21%), and H (141 +/- 5%). Raw showed higher elevation after i.v. challenge (418 +/- 57%), whereas the elevation in G (278 +/- 30%) and H (130 +/- 4%) was approximately equal to those seen following inhalation of an antigen. CONCLUSIONS: Delivery (i.v.) of an antigen produces a significantly higher response in airway resistance, whereas inhaled antigen results in a mixed airway and parenchymal response.

Effects of long-term oral treatment with leflunomide on allergic sensitization, lymphocyte activation, and airway inflammation in a rat model of asthma.

BACKGROUND: Short-term treatment with leflunomide is effective in suppressing antigen-specific antibody production and allergen-induced bronchoconstriction after sensitization. This agent may thus have a role in future primary prevention strategies in allergic disease. OBJECTIVE: The current study aimed to determine whether long-term oral treatment with leflunomide prevents allergic sensitization permanently. METHODS: After sensitization with ovalbumin, six groups of rats (n = 31) were treated daily with leflunomide or diluent for up to 30 days. Ovalbumin-specific IgE and IgG were determined weekly for at least 2 weeks after cessation of treatment. T lymphocytes from another 21 animals were stimulated ex vivo with ovalbumin or concanavalin A. RESULTS: Ovalbumin-specific IgE and IgG were lower during treatment with leflunomide compared with controls (P < 0.002) but increased after the cessation of treatment. Antigen-specific T-cell proliferation was decreased in cells obtained from leflunomide treated animals (P < 0.05), but not when stimulated with concanavalin A. Eosinophil (P < 0.0001) and neutrophil (P < 0.02) numbers in bronchoalveolar lavage 24 h after allergen challenge were lower in the leflunomide treated animals. CONCLUSIONS: Leflunomide prevents antigen-specific immunoglobulin production after sensitization during treatment, inhibits allergen-induced airway inflammation and diminishes antigen-specific T lymphocyte proliferation.

Leflunomide, a novel immunomodulating agent, prevents the development of allergic sensitization in an animal model of allergic asthma.

BACKGROUND: Leflunomide is a new anti-inflammatory and immunomodulating agent which is showing promise in several immune disorders, especially rheumatoid arthritis. Its activity profile suggests it may be of use in modulating allergic sensitization. OBJECTIVE: To investigate the effectiveness of leflunomide in preventing the development of allergic sensitization. METHODS: Fifty-three brown Norway rats were sensitized by intraperitoneal injection of ovalbumin and adjuvant (ricin) on day 0. To determine the ability of leflunomide to inhibit primary allergic sensitization six rats were treated with A77 1726, the active metabolite of leflunomide, from day 0 through day 5, six were treated from day 5 through day 10, and nine rats acted as controls. On day 14, ovalbumin-specific serum antibody levels and the magnitude of the early-phase airway response (EAR) after inhalation allergen challenge were assessed. To determine the ability of acute topical treatment with leflunomide to inhibit mast cell degranulation, three groups of five animals received either vehicle, 100 microg A77 1726, or 1000 g A77 1726 60 min prior to aerosol allergen challenge. To determine the effects of leflunomide treatment in vivo on mast cell function in vitro, mast cells were obtained by bronchoalveolar lavage from 17 rats (nine treated with leflunomide and eight controls). Allergen-specific and non-specific degranulation (48/80 induced) were studied. RESULTS: In the leflunomide treated rats both ovalbumin-specific IgE and IgG levels were significantly reduced, and the increases in lung resistance and lung elastance were essentially abolished, compared to those of the control group. Non significant differences were found in any of the parameters between the two leflunomide treated groups. Topical pre-treatment with leflunomide did not prevent the allergen-induced EAR. Treatment with leflunomide in vivo prevented allergen-induced mast cell degranulation in vitro because the mast cells lacked IgE on their surface. Non allergen-specific degranulation was normal and allergen-induced degranulation could be restored by passive sensitization. CONCLUSIONS: These data suggests that leflunomide can prevent primary allergic sensitization and prevent allergen-induced EAR by inhibiting production of allergen-specific IgE antibodies. Further studies in atopic conditions are warranted.

Immunomorphologic studies of mast cell heterogeneity, location, and distribution in the rat conjunctiva.

Mast cells are crucial components of immediate and some delayed-type hypersensitivity reactions. They play a pivotal role in allergic conjunctivitis and other immunoinflammatory disorders of the ocular surface, yet little is known of their distribution and heterogeneity in the conjunctiva of potential animal models, such as the rat. In this study, mast cell types were investigated in histologic sections and corneal-conjunctival-lid whole mounts by using toluidine blue, alcian blue-safranin, and immunohistochemical staining methods (anti-rat mast cell proteinase [RMCP] antibodies). Quantitative analyses were performed on corneal-conjunctival-lid whole mounts by using the optical dissector procedure to obtain the density of mast cells per unit volume in different regions of the conjunctiva. Single and double immunohistochemical analyses revealed that the mast cells in the conjunctiva of the limbus, fornices, and lid margin were strongly RMCP I+, suggesting that they were of the connective tissue phenotype. Mast cells containing the mucosal mast cell proteinase RMCP II were not present in the normal conjunctiva. Histochemical analysis revealed that the maturity of the connective tissue mast cells, as assessed by the presence or absence of safranin (heparin)-positive granules in their cytoplasm varied in different regions. In the lid margin 60% to 78% of the mast cells were solely alcian blue-positive, whereas in the fornices 68% to 78% were safranin-positive. In the limbus the predominant type of mast cell was either safranin-positive or contained mixed granules. Mast cell densities were greatest close to the lid margin (10,000 to 12,000 cells/mm3), followed by the limbus (3400 to 4800 cells/mm3) and were rare in the remainder of the conjunctiva (500 to 1000 cells/mm3), with the exception of the region around the nictitating membrane. This study of rat conjunctival mast cells provides essential baseline data for future studies of the role of mast cells in models of allergic conjunctivitis.

Gamma delta T cells down-regulate primary IgE responses in rats to inhaled soluble protein antigens.

The biologic role and repertoire of cells bearing the gamma delta T cell receptor has not been fully defined. However, their tropism for epithelial microenvironments is recognized and suggests an important role for these cells in immune defense at mucosal tissue surfaces. The study presented below utilizes an experimental model in which repeated exposure of Brown Norway rats to OVA by inhalation induces a state of Ag-specific, IgE isotype-specific "tolerance" via immune deviation. This process seems similar to oral tolerance in the gut. This form of tolerance was adoptively transferred to naive syngeneic recipients by i.p. injection of as few as 10(3) positively selected TCR-gamma delta+ cells from OVA-exposed rats. These TCR-gamma delta+ T-cells are demonstrated to produce high levels of INF-gamma in response to OVA stimulation, and this provides a potential mechanism for the inhibition of Th2 cell proliferation, resulting in suppression of IgE production. The unique potency of these cells in selective suppression of IgE Ab production in response to natural "mucosal" Ag exposure suggests a potentially important role in protection against primary allergic sensitization in vivo.

Making A&E less traumatic for children. Paediatric nurses in accident and emergency.

1. A visit to A&E is often a child's first introduction to hospital. 2. A specially designed unit and specifically trained staff are required. 3. Nurses should act as the child's and family's advocate. 4. All nurses in A&E should be aware of child development.

Regulation of IgE responses to inhaled antigen in mice by antigen-specific gamma delta T cells.

Indirect evidence implicates gamma delta T cells in the cross-regulation of CD4 alpha beta T cell responses. Adoptive transfer of small numbers of gamma delta T cells from ovalbumin (OVA)-tolerant mice selectively suppressed TH2-dependent immunoglobulin E (IgE) antibody production without affecting parallel IgG responses. Challenge of these gamma delta T cells in vitro with specific antigen resulted in production of high levels of interferon gamma. The effects of the gamma delta T cells may be mediated by direct inhibition of OVA-specific CD4+ TH2 cell proliferation or selection for specific CD4 TH2 cells.

Functional analysis of human bronchial mucosal T cells extracted with interleukin-2.

Functional analysis of T cells from the bronchial mucosa has been limited by difficulties in extracting T cells from this tissue. Because interleukin-2 (IL-2) is chemotactic for T cells, we determined whether this cytokine could be used to extract T cells from human bronchial wall (BW). Fresh tissue was obtained from 21 patients undergoing surgery for malignancy. Within the BW, 95% of T cells stained for the memory/activation marker CD45RO. When BW sections were incubated with IL-2 for 24 h, 88 to 91% of T cells emigrated into the culture medium. Compared with autologous blood T cells (also exposed to IL-2), these BW T cells expressed CD2 at a greater intensity and showed a fourfold reduction in cloning efficiency in response to phytohemagglutinin, and T-cell clones derived from the BW population displayed a tendency for higher interferon-gamma production. Furthermore, we were also able to extract and clone T cells from bronchoscopic biopsies in four subjects, suggesting that this method will provide a new avenue for examining T-cell function in airway inflammatory diseases.

Distribution and characterisation of rat choroidal mast cells.

Despite the implication that choroidal mast cells are involved in the onset of experimental autoimmune uveoretinitis (EAU), a widely used animal model of uveoretinitis, little is known of these cells. In the present study the distribution, total number, regional density, and phenotype of choroidal mast cells were examined in Lewis, Wistar Furth, PVG/c, and brown Norway rats. Choroidal mast cells were predominantly associated with arteries and arterioles of more than 30 microns diameter which lie in the outer (sclerad) choroid. The density of mast cells was greatest in the posterior choroid with density diminishing anteriorly. The choroid of male Lewis rats contained significantly greater number of mast cells than that of females (p < 0.01). Histochemical (Alcian blue/safranin) and immunohistochemical (anti-rat mast cell protease I and II monoclonal antibodies) studies revealed choroidal mast cells were of the connective tissue type. However, granule proteinase content appeared less than that of well characterised connective tissue mast cell populations such as those in mesentery and skin. Lewis rats exhibited the highest density of choroidal mast cells (23.6 (SD 1.2)/mm2), Wistar Furth approximately half that of Lewis (13.5 (0.7)/mm2) while PVG/c and brown Norway rats had very low densities (3.06(0.3); 1.95(0.2/mm2 respectively). These studies provide valuable choroidal mast cell data for rats which may have implications for our understanding of experimental models of intraocular inflammation and clinical uveitis.

Development of the airway intraepithelial dendritic cell network in the rat from class II major histocompatibility (Ia)-negative precursors: differential regulation of Ia expression at different levels of the respiratory tract.

The relative inefficiency of respiratory mucosal immune function during infancy is generally attributed to the immaturity of the neonatal T cell system. However, immune competence in the adult lung has recently been shown to be closely linked to the functional capacity of local networks of intraepithelial dendritic cells (DC). This study examines the density and distribution of these DC throughout the neonatal respiratory tract in rats, focusing particularly on microenvironmental regulation of their class II major histocompatibility complex (MHC) (Ia) expression. In animals housed under dust-controlled conditions, airway epithelial and alveolar Ia+ DC detectable by immunostaining with the monoclonal antibody (mAb) Ox6 are usually not seen until day 2-3 after birth, and adult-equivalent staining patterns are not observed until after weaning. In contrast, the mAb Ox62 detects large numbers of DC in fetal, infant, and adult rat airway epithelium. Costaining of these Ox62+ DC with Ox6 is rare in the neonate and increases progressively throughout infancy, and by weaning Ia+ DC comprised, on average, 65% of the overall intraepithelial DC population. In infant rats, Ia+ DC are observed first at the base of the nasal turbinates, sites of maximum exposure to inhaled particulates, suggesting that their maturation is driven in part by inflammatory stimuli. Consistent with this suggestion, densitometric analysis of Ia staining intensity of individual DC demonstrates that by 2-3 d after birth, Ia expression by nasal epithelial DC was comparable with that of Iahigh epidermal Langerhans cells in adjacent facial skin, at a time when expression by tracheal epithelial DC was 7-10-fold lower. Additionally, the rate of postnatal appearance of Iahigh DC in the airway epithelium was increased by administration of interferon gamma, and decreased by exposure of infant rats to aerosolized steroid. These findings collectively suggest that Ia expression by neonatal respiratory tract DC is locally controlled and can be upregulated by mediators that are produced within the lung and airway epithelium in response to inhalation of proinflammatory stimuli. It was also noted that Ialow neonatal airway DC expressed adult equivalent levels of class I MHC, which suggests differences in capacity to prime for CD8(+)-dependent versus CD4(+)-dependent immunity to inhaled pathogens, during the early postnatal period.

Choroidal mast cell dynamics during experimental autoimmune uveoretinitis in rat strains of differing susceptibility.

Choroidal mast cells have been implicated in the pathogenesis of experimental autoimmune uveoretinitis (EAU). The aim of the present study was to examine the dynamics of choroidal mast cells during the course of EAU in rat strains of varying susceptibility. Histochemical staining showed choroidal mast cell degranulation in Lewis rats, a highly susceptible strain, commenced nine days post-immunisation, and peaked at day 11, at which time the percentage of degranulated choroidal mast cells (32. 5± 4%) was significantly higher than controls (15. 3 ± 3%; p <0.05). At day 14, mean choroidal mast cell density was significantly reduced (from 23. 6 ± 1/mm(2) tot 16. 2 ± 2/mm(2); p<0.05) and early signs of choroidal mast cell regeneration were evident. Immunisation of PVG/C (moderate susceptibility) and Brown Norway (very low susceptibility) rats produced a similar pattern of morphological changes. Onset of clinical signs in Lewis rats, which possess approximately 1100 to 1800 choroidal mast cells per eye, occurred one day following commencement of choroidal mast cell degranulation but prior to the peak of degranulation. However, in PVG/C and Brown Norway rats, which possess only approximately 70 and 110 choroidal mast cells per eye respectively, onset of disease was not temporally linked to commencement of degranulation. Production of antigen-specific IgE during the course of EAU was extremely low in all three strains. These results indicate that choroidal mast cells may be important in the pathogenesis of EAU in Lewis rats but not in PVG/C or Brown Norway rats and that non-IgE mediated degranulation may play a role in disease induction.

The natural immune response to inhaled soluble protein antigens involves major histocompatibility complex (MHC) class I-restricted CD8+ T cell-mediated but MHC class II-restricted CD4+ T cell-dependent immune deviation resulting in selective suppression of immunoglobulin E production.

The immunological basis for atopy is currently ascribed to an inherent bias in the CD4+ T cell response to nonreplicating antigens presented at mucosal surfaces, resulting in dominance of the T helper 2 (Th2) interleukin 4 (IL-4)-producing phenotype, which favors IgE production. In contrast, the "normal" response to such antigens involves a predominance of interferon gamma (IFN-gamma)-producing Th1 clones. This difference has been suggested to be the result of active selection in atopics for Th2 (and hence against Th1) clones at the time of initial antigen presentation. In the study below, we demonstrate that the natural immune response to inhaled protein antigens, particularly in animals expressing the low immunoglobulin E (IgE) responder phenotype, includes a major histocompatibility complex (MHC) class I-restricted CD8+ T cell component, the appearance of which is associated with active suppression of IgE antibody production. Thus, continued exposure of rats to aerosolized ovalbumin (OVA) antigen elicits a transient IgE response, that is terminated by the onset of a state of apparent "tolerance" to further challenge, and this tolerant state is transferable to naive animals with CD8+ T cells. Kinetic studies on in vitro T cell reactivity in these aerosol-exposed rats demonstrated biphasic CD4+ Th2 responses which terminated, together with IgE antibody production, and coincident with the appearance of MHC class I-restricted OVA-specific IFN-gamma-producing CD8+ T cells. However, the latter were not autonomous in vitro and required a source of exogenous IL-2 for initial activation, which in CD(8+)-enriched splenocyte cultures could be provided by small numbers of contaminating OVA-specific CD4+ T cells. This represents the first formal evidence for the induction of an MHC class I-restricted T cell response to natural mucosal exposure to an inert protein antigen, and is consistent with a growing literature demonstrating sensitization of MHC class I-restricted CD8+ T cells by deliberate immunization with soluble proteins. We suggest that crossregulation of MHC class II-restricted CD4+ T cells via cytokine signals generated in parallel CD8+ T cell responses represents a covert and potentially important selection pressure that can shape the nature of host responses to nonreplicating antigens presented at mucosal surfaces.

Phenotypic and functional analysis of mucosal T cells isolated from tissue explants of rat upper respiratory tract.

It has been hypothesised that T cells play a central role in the pathogenesis of asthma which is characterised by chronic inflammation of the airways. In order to further study the T cells identified in situ in the airways we have developed, in the rat, a novel method for the extraction of T cells directly from the airway mucosa. The T cells actively migrate from explant tissue under the influence of exogenous IL-2 yielding sufficient cells for phenotypic and functional analysis. The T cells obtained represent a random selection of cells present at the start of culture as determined by dot blot analysis of the T cell receptor. The majority of cells were CD8+ and did not express the alpha/beta T cell receptor. In addition, the cloning efficiency of the explant T cells was extremely low (1:28) compared to that of splenic T cells (1:2) in agreement with our earlier studies on peripheral lung T cells which also demonstrated a reduced proliferative capacity. This data suggests a generalised 'immunosuppressive' milieu throughout the respiratory tract.

Downregulation of the antigen presenting cell function(s) of pulmonary dendritic cells in vivo by resident alveolar macrophages.

Class II major histocompatibility complex (Ia)-bearing dendritic cells (DC) from airway epithelium and lung parenchyma express low-moderate antigen presenting cell (APC) activity when freshly isolated. However, this function is markedly upregulated during overnight culture in a manner analogous to epidermal Langerhans cells. The in vitro "maturation" process is inhibited by coculture with pulmonary alveolar macrophages (PAM) across a semipermeable membrane, and the degree of inhibition achieved can be markedly increased by the presence of tumor necrosis factor alpha. In addition, PAM-mediated suppression of DC function is abrogated via inhibition of the nitric oxide synthetase pathway. Functional maturation of the DC is accompanied by increased expression of surface Ia, which is also inhibited in the presence of PAM. Prior elimination of PAM from DC donors via intratracheal administration of the cytotoxic drug dichloromethylene diphosphonate in liposomes, 24-72 h before lung DC preparation, achieves a comparable upregulation of APC activity, suggesting that (consistent with the in vitro data) the resident PAM population actively suppresses the APC function of lung DC in situ. In support of the feasibility of such a regulatory mechanism, electron microscopic examination of normal lung fixed by intravascular perfusion in the inflated state (which optimally preserves PAM in situ), revealed that the majority are preferentially localized in recesses at the alveolar septal junctions. In this position, the PAM are in intimate association with the alveolar epithelial surface, and are effectively separated by as little as 0.2 microns from underlying interstitial spaces which contain the peripheral lung DC population. A similar juxtaposition of airway intraepithelial DC is demonstrated with underlying submucosal tissue macrophages, where the separation between the two cell populations is effectively the width of the basal lamina.

Regulation of IgE production in pre-sensitized animals: in vivo elimination of alveolar macrophages preferentially increases IgE responses to inhaled allergen.

Intratracheal inoculation of dichloromethylene diphosphonate encapsulated in liposomes leads to the rapid accumulation of this drug in alveolar macrophage (AM) phagolysosomes, and the death of the majority of these cells over the ensuing 24-48 hr. The technique is highly selective for phagocytes and has no detectable side-effects on other cells in the lung. The present experiments demonstrate that following AM depletion, pre-sensitized animals respond to aerosol challenge via secondary serum IgE (but not IgG) responses, and the accumulation of large numbers of allergen-specific and non-specific antibody forming cells in respiratory tract regional lymph nodes and in lung and airway tissues; the latter comprise both IgE and IgG plasma cells, which were detected in the approximate ratio of 2.5:1. Moreover, aerosol challenged AM-depleted animals develop large mononuclear cell infiltrates in the lung and airways, which includes a substantial CD4+ T-cell component. These results suggest a major role for AM in regulating the magnitude of secondary IgE responses to inhaled allergen.

The distribution of IgE plasma cells in lymphoid and non-lymphoid tissues of high-IgE responder rats: differential localization of antigen-specific and 'bystander' components of the IgE response to inhaled antigen.

Repeated exposure of high-IgE responder rats to antigen-containing aerosols stimulates IgE responses which last for several weeks, and are eventually terminated with the onset of immunological tolerance. Studies on the distribution of total and antigen-specific IgE plasma cells and IgE mRNA during antibody production, identified the lymph nodes draining the lower respiratory tract as the primary site for initiation of the IgE response to inhaled antigen; subsequently the response seeded to mucosa-associated lymph nodes but not to central lymphoid organs. A vigorous 'bystander' IgE response (approx. x 10 the specific response) was also observed, but this was restricted to areas directly draining sites of deposition of inhaled antigen, including non-lymphoid respiratory mucosal tissues. Despite the rapid termination of the specific IgE response after the fourth week of exposure, the bystander component persisted. These results are discussed in relation to the role of cognate/non-cognate T-B interactions in the IgE response to inhaled antigens, and the relative susceptibility of each component to T-cell regulation in vivo.

Studies on the surface phenotype and functions of dendritic cells in parenchymal lung tissue of the rat.

Immunohistochemical analysis of frozen sections of rat lung tissue identified a widely distributed population of highly pleiomorphic Ia+ cells in alveolar septal walls, which are negative for the pan-macrophage marker ED4 and the related markers ED1, ED2 and ED9. Semi-purified dendritic cells (DC) prepared from lungs of rats exposed to an aerosol of ovalbumin (OA) triggered modest levels of proliferation of OA-immune T cells in vitro, demonstrating the potential of these cells in surveillance for inhaled antigens in vivo. Lung wall also exhibited modest stimulatory activity in mixed lymphocyte/leucocyte reaction (MLR) assays. Overnight incubation of the DC in T-cell culture supernatant markedly increased their T-cell stimulatory properties, concomitant with increased expression of Ia. These results suggest that analogous to epidermal Langerhans' cells, lung wall DC can effectively bind inhaled antigens in situ, but require additional maturation/activation signals before they can efficiently present the antigen to T cells.

Postnatal maturation of mast cell subpopulations in the rat respiratory tract.

The distribution and enumeration of mast cell subpopulations within the respiratory tract of a high- and low-Ige responder rat strain was determined during postnatal development. Mast cells were identified in adjacent sections by the alcian blue (AB)/safranin (SAF) staining sequence, or using immunoperoxidase to detect the rat mast cell proteinases I (RMCPI) or II (RMCPII). At birth both mucosal mast cells (MMC) and connective tissue mast cells (CTMC) were represented in very low numbers at distinct locations throughout the respiratory tract. The total number of mast cells increased with age. MMC (AB+/RMCPII+ mast cells) were the predominant phenotype in the epithelium and lamina propria of the trachea and the major conducting airways of the lung in all age groups. In contrast, CTMC (AB+/RPMCPI+ and SAF+/RMCPI+ mast cells) predominated in the submucosa of the trachea and major conducting airways as well as in the parenchyma and visceral pleura of the peripheral lung. Both phenotypes co-exist in similar proportions in peribronchial adventitial tissue and adventitia surrounding large blood vessels in neonates as well as adults. In rats the tracheal epithelium is densely populated by MMC from around the time of weaning (3 weeks) and a small but generalized increase in the number of MMC at all sites within the respiratory tract is noted from this time. This increase in MMC frequency in tissue sections with increasing age is mirrored by the levels of circulating serum RMCPII. The number of bone marrow-derived MMC also increased with increasing age prior to weaning, with a significant drop (P less than 0.01) at 4 weeks of age before returning to the peak numbers in 3-week-old rats. The high-IgE responder Brown Norwegian (BN) rat strain constitutively produces significantly more IgE than the low-IgE responder White albino Glaxo (WAG) strain (P less than 0.001) at all ages studied. In contrast, only minor differences between the number and distribution of mast cells in the two strains were observed.

Regulation of immune response to inhaled antigen by alveolar macrophages: differential effects of in vivo alveolar macrophage elimination on the induction of tolerance vs. immunity.

A single intratracheal instillation of liposomes containing dichloro methylene diphosphonate into rats eliminated greater than 80% of the alveolar macrophage (AM phi) population, and the population was not significantly renewed during the ensuing week. AM phi depletion markedly increased local antibody production in the lung wall in pre-primed animals exposed to antigen aerosols. However, AM phi depletion did not affect the normal development of protective tolerance (particularly in the IgE antibody class) to inhaled antigen in immunologically naive rats. These results are discussed in relation to regional control of immune responses in the upper vs. the lower respiratory tract.