Infarct topography and hemiparesis profiles with cerebral convexity infarction: the Stroke Data Bank

The development of natural killer (NK) cell activity was assessed in Fischer 344 (F344) rats sympathectomized as neonates with the neurotoxin, 6-hydroxydopamine (6-OHDA). No NK cell activity was detected in sympathectomized or vehicle-injected control animals at 7 days of age. At 10 and 14 days of age, NK cell activity was reduced in spleens from sympathectomized male and female rats. At 21 days of age, a reduction in NK cell activity was detected only in sympathectomized male rats. Sympathectomy did not alter NK cell activity at 28 and 42 days of age in either gender. At 56 days of age, NK cell activity was increased in neonatally sympathectomized females; rats of both genders acutely sympathectomized at 56 days of age also showed enhanced NK cell activity. No differences were observed at 90 days of age in neonatally or acutely sympathectomized males of females. Prior treatment with desipramine, which blocks uptake of 6-OHDA into nerve terminals and prevents the destruction of sympathetic nerve terminals, prevented these 6-OHDA-induced effects, suggesting that sympathectomy, and not direct toxic effects of 6-OHDA treatment of NK cells, accounted for the alterations in NK cell activity. Together, these results indicate that the sympathetic nervous system is an integral component of the developing lymphoid and hematopoietic microenvironment.     

Pathways regulating cardiovascular changes during volume loading in awake dogs

The role played by the cardiac sympathetic nerves and arterial baroreceptors in the cardiovascular responses to acute volume loading was studied in conscious dogs. In 15 normally innervated animals, mean arterial pressure rose 10 mmHg, heart rate increased 38 beats/min and cardiac output 1,696 ml/min, while peripheral resistance decreased 0.99 PRU. Neither bilateral baroreceptor denervation, dorsal root sections (T1-T5) or surgical interruption of the left ansa subclavia altered the above responses to acute volume loading. Bilateral section of the ansa subclavia (total cardiac sympathectomy) significantly reduced the heart rate response from 35 +/- 5 to 20 +/- 5 beats/min but did not alter other changes. A similar reduction in heart rate response was observed following selective section of the right ansa subclavia. Intravenous infusions of epinephrine augmented the heart rate response in both normally innervated and cardiac sympathectomized dogs. It is suggested that although the primary efferent pathway for the reflex trachycardia is via the vagus, responses are modulated by sympathetic neural activity. Additionally, the nervous system was not shown to play a measureable role in the observed peripheral resistance changes.     

gamma/delta T cell-deficient mice have impaired mucosal immunoglobulin A responses

Mucosal tissues of mice are enriched in T cells that express the gamma/delta T cell receptor. Since the function of these cells remains unclear, we have compared mucosal immune responses in gamma/delta T cell receptor-deficient (TCRdelta-/-) mice versus control mice of the same genetic background. The frequency of intestinal immunoglobulin (Ig) A plasma cells as well as IgA levels in serum, bile, saliva, and fecal samples were markedly reduced in TCRdelta-/- mice. The TCRdelta-/- mice produced much lower levels of IgA antibodies when immunized orally with a vaccine of tetanus toxoid plus cholera toxin as adjuvant. Conversely, the antigen-specific IgM and IgG antibody responses were comparable to orally immunized control mice. Direct assessment of the cells forming antibodies against the tetanus toxoid and cholera toxin antigens indicated that significantly lower numbers of IgA antibody-producing cells were present in the intestinal lamina propria and Peyer's patches of TCRdelta-/- mice compared with the orally immunized control mice. The selective reduction of IgA responses to ingested antigens in the absence of gamma/delta T cells suggests a specialized role for gamma/delta cells in mucosal immunity.     

Restoration of sympathetic noradrenergic nerve fibers in the spleen by low doses of L-deprenyl treatment in young sympathectomized and old Fischer 344 rats

It is well-established that noradrenergic (NA) nerve fibers in spleen and lymph nodes influence cell-mediated immune responses. Such responses are diminished in young animals following chemical sympathectomy and in older animals accompanying an age-related decline in NA nerve fibers in spleen and lymph nodes. The purpose of this study was to determine whether treatment with deprenyl, an irreversible monoamine oxidase-B (MAO-B) inhibitor, would hasten the process of splenic NA reinnervation following chemical sympathectomy in young rats and would reverse the age-related loss of sympathetic NA fibers in the spleen of old rats. To examine the effects of deprenyl in young sympathectomized rats, 3-month-old male Fischer 344 (F344) rats were treated with 6-hydroxydopamine (6-OHDA) and administered 0, 0.25, 1.0, 2.5, or 5.0 mg deprenyl/kg body weight (BW)/day intraperitoneally (i.p.) for 1, 15, or 30 days. In another study, 21-month-old male F344 rats were treated with 0, 0.25, or 1.0 mg deprenyl/kg BW/day i.p. for 9 weeks. At the end of the treatment period, spleens were removed and NA innervation was assessed by fluorescence histochemistry, immunocytochemistry, and quantitation of norepinephrine (NE) by high performance liquid chromatography with electrochemical detection (HPLC-EC). In the spleens of young sympathectomized rats, there was faint fluorescence or absence of fluorescence and tyrosine hydroxylase-positive (TH+) fibers around the central arteriole and in the periarteriolar lymphatic sheath of the white pulp one day after administration of 6-OHDA, indicating a severe loss of NA innervation compared with unlesioned control animals. Treatment of sympathectomized rats with 1.0 mg, 2.5 mg, and 5.0 mg/kg deprenyl for 30 days increased the density of NA innervation estimated by both fluorescence histochemistry and immunocytochemistry compared with vehicle-treated controls recovering spontaneously from 6-OHDA. Splenic NE concentration was increased in the hilar region of sympathectomized rats treated with 2.5 mg and 1.0 mg/kg deprenyl after 15 and 30 days, respectively, compared with untreated and vehicle-treated sympathectomized rats. The spleens of untreated and saline-treated old rats showed a reduction in the density of NA innervation in the white pulp compared with young animals. Treatment of old rats for 9 weeks with 1.0 mg/kg deprenyl induced moderate to intense fluorescent fibers and linear TH+ nerve fibers around the central arteriole and in other compartments of the white pulp, and increased splenic NE concentration in the hilar region and NE content in the whole spleen. Taken together, these results provide strong evidence for a neurorestorative property of deprenyl on sympathetic NA innervation of the spleen, which may lead to an improvement in cell-mediated immune responses.     

B and also T lymphocytes migrate via gut lymph to all lymphoid organs and the gut wall, but only IgA+ cells accumulate in the lamina propria of the intestinal mucosa

In pigs the lymphocytes emigrating from the intestinal wall were collected by cannulating the lymphatics, labeled in vitro using a fluorescent dye and retransfused. The injection of 6.6+/-4.2 x 10(8) cells resulted in a labeling index between 1.5% in intestinal lymph, 0.2% in the spleen and lymph nodes, approximately 0.1% in the intestinal lamina propria and 0.003% in intraepithelial lymphocytes. About 25 % of the injected cells were present in the blood and 1 % was recovered in the lymph. T cells were found in similar proportions in the injected and the recovered cells in the organs (70-80%). The proportion of IgA+ cells among the immigrated cells in the intestinal lamina propria ranged from 5 to 8%, which in absolute numbers was up to 60% of the injected IgA+ cells. T and IgM+ cells did not show a higher accumulation in any organ. These experiments in conventional, unrestrained animals revealed that (1) T cells immigrate into the intestinal lamina propria, (2) preferential migration of IgA+ cells from gut lymph to the intestinal lamina propria is obvious under in vivo conditions and (3) the immigrated IgA+ cells represent a very small population which is difficult to detect when analyzed in relative numbers.     

Local reflex in microcirculation in human cutaneous tissue

Blood flow in cutaneous tissue measured by the local 133Xenon washout technique decreased about 35 per cent during venous stasis of 40 mmHg in three normal subjects. The response was unaffected by block of the nerve three cm proximally to the labeled area. When the tissue was infiltrated with lidocaine or with phentolamine, blood flow remained constant, indicating that the decrease in blood flow is due to an arteriolar vasoconstrictor response to increase in venous transmural pressure. Local venous stasis elicited a vasoconstrictor response in an adjoining area not affected by the stasis. The response was blocked by lidocaine applied to the side of stasis. In 2 chronically sympathectomized patients, the vasoconstrictor response was abolished in the denervated limbs but present on the non-operated side (1 patient with unilateral sympathectomy). The results indicate that the vasoconstrictor response to an increase in venous transmural pressure is due to a local nervous mechanism involving sympathetic adrenergic fibres, most likely a sympathetic axon reflex.     

Increased immunoexpression of atrial natriuretic peptide in the heart conduction system of the rat after cardiac sympathectomy

The present investigation was designed to elucidate which role the sympathetic nerves play in the immunoexpression of atrial natriuretic peptide in the cardiac conduction system of the rat. In order to destroy the cardiac sympathetic nerve terminals, both surgical and chemical sympathectomy were performed. By use of immunohistochemical and radioimmunoassay techniques, the immunoreactivity and level of atrial natriuretic peptide in the conduction system and in the cardiac myocardium were determined. In contrast to the low degree of immunoreaction for atrial natriuretic peptide seen in control rats, the sympathectomized rats exhibited pronounced immunoreactivity for atrial natriuretic peptide in the atrioventricular bundle and bundle branches, which normally have high numbers of sympathetic nerve fibres. On the other hand, in the peripheral parts of the conduction system, where there are ordinarily few sympathetic nerve fibres, the degree of immunoreaction was unchanged. The quantitative measurements also showed that the entire ventricles, including the conduction system, contained increased levels of atrial natriuretic peptide in the treated hearts. The present study shows that destruction of the sympathetic nervous system leads to an increased level of atrial natriuretic peptide in the Purkinje fibres of bundle branches, which thus seem to have a dormant capacity for synthesis of this peptide. The results provide new evidence about the change in atrial natriuretic peptide levels that occurs when sympathetic innervation is altered.     

Experimental mucosal disease in cattle: changes in the number of lymphocytes and plasma cells in the mucosa of the small and large intestine

Changes in the number of lymphocyte and plasma cell subtypes were investigated in the lamina propria and in the epithelium of the small and large intestine of cattle with mucosal disease. Mucosal disease had been induced experimentally in seven out of 13 animals persistently viremic with non cytopathogenic BVD-virus by inoculation with a matching cytopathogenic BVD-virus. For comparison, six clinically healthy, persistently viremic cattle were used. IgA+, IgM+ and IgG1+ plasma cells, BoCD4+, BoCD8+ and gamma delta + T-lymphocytes, and the antigen of the cytopathogenic BVD-virus were demonstrated in tissue sections by immunohistochemistry. Distribution of cellular subtypes in the controls was consistent with data reported from non infected cattle. In cattle with mucosal disease, a decrease in the number of plasma cells which was significant for IgA+ and IgM+, but not for IgG1+ plasma cells was found in the lamina propria. The number of BoCD4+ T-lymphocytes was reduced in the small intestine, whereas their number per mm2 of mucosa was increased in the large intestine. Numbers of intraepithelial BoCD8+ and gamma delta + T-lymphocytes were severely decreased. Antigen of the cytopathogenic BVD-virus was detected predominantly in epithelial cells of the crypts. Overall there is a severe loss of effector cells which are essential components of the humoral and cell mediated immune protection of the mucosal barrier. The decrease of immunoregulatory cells in the lamina propria and epithelium may contribute to the transformation of mucosal architecture in mucosal disease.     

Mucosal immunodeficiency in HIV/SIV infection

The gastrointestinal tract is one of the major target organs for secondary infections and malignancies in HIV infection in humans indicating disturbed local immunologic defense mechanisms. Immunohistology and flow cytometric studies have demonstrated a more pronounced loss of CD4+ T cells in the intestinal mucosa compared to the peripheral blood in humans infected with HIV. In parallel, activated CD8+ T cells in the lamina propria are increased in this compartment. In SIV-infected nonhuman primates a very early loss of CD4+ T cells in the intestinal mucosa compared to the peripheral blood occurs already at 2 weeks after infection. Depletion and functional impairment of mucosal CD4+ T lymphocytes with consecutive altered cytokine secretion in HIV/SIV infection may explain the breakdown of the mucosal immune barrier leading to secondary opportunistic or nonopportunistic infections and secondary malignancies. In addition, due to the interrelation between the mucosal immune system and epithelium, these changes might be responsible for the partial small intestinal mucosal atrophy and maturational defects in enterocytes observed in HIV-infected patients.     

Recovery of gut-associated lymphoid tissue and upper respiratory tract immunity after parenteral nutrition

OBJECTIVE: The authors characterize the recovery of parenteral nutrition-induced changes in gut-associated lymphoid tissue (GALT) and upper respiratory tract immunity with enteral nutrition and provide further information defining the effects of enteral feeding on mucosal immunity. SUMMARY BACKGROUND DATA: The small intestine plays a prominent role in development and maintenance of mucosal immunity, both intestinal and extraintestinal, primarily through immunoglobulin A (IgA)-mediated mechanisms. Prior research has shown that mice fed total parenteral nutrition (TPN) have reduced GALT T and B cells, the cells responsible for IgA production, as well as impaired upper respiratory tract immunity to viral challenge of previously immunized animals. The recovery of TPN-induced changes in GALT and upper respiratory tract immunity after enteral refeeding is studied. METHODS: Male institute of Cancer Research mice received 5 days of TPN followed by 0 to 4 days of chow. Small intestinal GALT was characterized by flow cytometry. In a second experiment, animals were immunized intranasally with moused-adapted influenza virus. Three weeks later, one group received a 5-day course of TPN followed by enteral refeeding for 5 days. A second group received TPN alone. Both groups were challenged with intranasal virus and killed 40 hours postchallenge to determine viral shedding from the upper respiratory tract. RESULTS: Animals fed TPN only had significantly fewer GALT lymphocytes compared with those chow-fed control subjects. Peyer's patch counts increased after a single day of refeeding, returning to normal levels by 48 hours. Lamina propria counts remained significantly depressed after 24 hours of refeeding, but also returned to normal after 48 hours of refeeding. The T-cell and B-cell populations mimicked total cell patterns. Lamina propria CD4+/CD8+ ratio returned to normal only after 72 hours of refeeding. None of the 9 animals refed enterally for 5 days were positive for viral shedding, compared with 8 of 12 matched TPN-fed animals. CONCLUSIONS: Enteral refeeding after TPN is associated with rapid repletion of GALT cellularity, initially within Peyer's patches and subsequently within the lamina propria. Refeeding corrects the impairment of IgA-mediated upper respiratory tract antiviral immunity occurring with TPN administration. This work further enhances the authors' knowledge of the underlying immunologic differences influenced by routes of nutrition.     

Influence of sympathectomy on the lateral hypothalamic lesion syndrome.

Two experiments with male Long-Evans rats examined sympathetic involvement in the lateral hypothalamic (LH) lesion syndrome. Ss were surgically or chemically sympathectomized and then given LH lesions. At 24 hrs postlesion, lesion-induced hyperglycemia but not hyperthermia was attenuated by splanchnicectomy and celiac ganglionectomy. Hyperthermia but not hyperglycemia was attenuated by adrenal demedullation, adrenalectomy, and daily neonatal guanethidine (50 mg/kg) treatment. Guanethidine-sympathectomized Ss also displayed lower basal temperatures, more perilesion chromatolysis, and more severe external symptoms than controls. No form of sympathectomy affected lesion-induced gastric pathology, plasma gastrin concentrations, or body weight loss, nor did any sympathectomy influence the recovery of ingestive behavior, daily food intake, the feeding response to 2-deoxy-dextro-glucose, or body weight maintenance in recovered LH-lesioned Ss. Results suggest that sympathetic hyperactivity contributed to some aspects of the acute LH syndrome: Hyperglycemia resulted from sympathetic outflow to the abdomen, whereas hyperthermia was determined by circulating catecholamines and extra-abdominal sympathetic innervation. Findings fail to support the hypothesis that chronic increases in sympathetic tone are responsible for the reduced food intake and body weight of the LH-lesioned Ss. (47 ref) (PsycINFO Database Record (c) 2010 APA, all rights reserved)     

Favorable donor site for epidermal cultivation for the treatment of burn scars with autologous cultured epithelium

Intranasal (i.n.) immunization is a very effective route for inducing mucosal immunity, but the cellular mechanism responsible for regulating and disseminating these responses is not fully understood. The authors studied the role of nasal lymphoid tissue (NALT) as a mucosal inductive site by using highly purified NALT cells obtained by a new method of mechanical isolation. The NALT cells, like Peyer's patch (PP) cells, were smaller in size and less granular than lymphocytes from salivary glands (SG) and small intestinal lamina propria (LP). The NALT cells isolated from i.n. immunized mice contained antigen-specific antibody-secreting cells (ASC) predominantly of immunoglobulin (Ig)A isotype, similar to those also recovered from salivary glands in a time course study. However, the higher proportion of smaller sized sports formed by NALT cells in ELISPOT assays suggested that these cells were less differentiated precursors of those found in salivary glands. This was supported by the fact that after i.n. immunization, IgA ASC appeared in NALT, as well as in mucosal effector sites SG and LP, but none or very few in another mucosal inductive site, PP. In contrast, after intragastric (i.g.) immunization, IgA ASC were detected in PP, along with the SG and LP, but none or very few in NALT. Furthermore, after i.n. immunization, lymphocytes from NALT but not PP proliferated in response to the specific antigen in culture. These findings imply that NALT served as an inductive site for IgA antibody responses at mucosal effector sites.     

Accidents with sharp instruments in nurses in a university hospital in Campinas, Sao Paolo

To investigate the role of the sympathetic nervous system in angiotensin II (AngII)-stimulated medial and neointimal smooth muscle cell (SMC) replication, we sympathectomized rats with 6-hydroxydopamine (6-OHDA) in which the left carotid artery was injured by a balloon catheter. Balloon injury is associated with a loss of specific [3H]-prazosin binding. AngII (250 ng/kg/min), infused 2 weeks after balloon injury of the rat left carotid artery, increased systolic blood pressure by approximately 70 mm Hg. There was no effect of 6-OHDA on this pressor response. AngII increased the cumulative 5-bromo-2'-deoxyuridine (BrdU) labeling fraction (LF) in the uninjured right carotid media and the injured left carotid neointima as compared to controls (5.7+/-1.6% vs. 0.4+/-0.1%, p<0.05; 10.6+/-0.9% vs. 5.0+/-0.8%, p<0.05, respectively). 6-OHDA decreased the AngII-induced increase in LF in the media of the uninjured right carotid artery (AngII/6-OHDA 0.9+/-0.2% vs. AngII 5.7+/-1.6%, p < 0.05). 6-OHDA did not decrease the AngII-induced increase in LF in both the injured left carotid media and neointima at 4 weeks after balloon injury. The effects of chemical sympathectomy were comparable with those obtained 12 weeks after balloon injury. Thus, the data show that the sympathetic nervous system mediates the AngII-induced increase in SMC DNA synthesis, but only in the uninjured carotid media. This indicates a differential regulation of AngII-induced SMC replication in injured and uninjured vessels.     

Deletion of bone marrow stromal cell antigen-1 (CD157) gene impaired systemic thymus independent-2 antigen-induced IgG3 and mucosal TD antigen-elicited IgA responses

Bone marrow stromal cell Ag-1 (BST-1; CD157)-deficient mice were generated to examine the immunologic roles of the molecule in vivo. In BST-1(-/-) mice, the development of peritoneal B-1 cells was delayed, and CD38(low/-) B-lineage cells were increased in the bone marrow and spleen. Partial impairment of thymus-independent (TI-2) and thymus-dependent (TD) Ag-specific immune responses was noted in the systemic and mucosal compartments of BST-1(-/-) mice, respectively. Although serum Ig levels as well as TD and TI-1 Ag-specific systemic immune responses were normal, the TI-2 Ag-induced IgG3 response was selectively impaired. Oral immunization of BST-1(-/-) mice with cholera toxin, a potent TD Ag for the induction of IgA response, resulted in the poor production of Ag-specific Abs at the intestinal mucosa accompanied by the reduced number of Ag-specific IgA-producing cells in the lamina propria. These results indicate that BST-1 has roles in B cell development and Ab production in vivo.     

Crohn's disease and ulcerative colitis mucosal T cells are stimulated by intestinal epithelial cells: implications for immunosuppressive therapy

BACKGROUND: Crohn's disease (CD) and ulcerative colitis (UC) are chronic inflammatory diseases, and their pathogenesis is attributed, in part, to alterations of the mucosal immune system. This study was designed to define the possible contribution of epithelial cells to the activation of lamina propria T lymphocytes (LPTs) in CD and UC. METHODS: LPTs isolated from CD, UC, and control surgical specimens were cocultured with freshly isolated allogeneic or autologous epithelial cells or epithelial cell lines. Resulting T-cell proliferation was evaluated by tritiated thymidine incorporation on day 5. RESULTS: When intestinal epithelial cells were used to stimulate mucosal T-cell proliferation, CD and UC LPTs were less responsive than control LPTs (p < 0.05 and p < 0.03, respectively). This difference between inflamed and control T cells was consistently observed by using a variety of different intestinal epithelial cell types. CONCLUSIONS: CD and UC mucosal T cells are hyporesponsive to activation by intestinal epithelial cells when compared with control LPTs. Elucidating the mechanism underlying the differential activation of CD and UC LPTs may help to better understand the immunopathogenesis of these conditions.     

Generation of intestinal mucosal lymphocytes in SCID mice reconstituted with mature, thymus-derived T cells

Transfer of peripheral lymph node lymphocytes to SCID mice leads to the long term establishment of mucosal T lymphocytes within the epithelium and lamina propria of the small and large intestines. Analysis of engrafted intraepithelial lymphocytes (IEL) showed that they had acquired a surface phenotype that in several respects is typical of IEL. In addition, the functional profile of engrafted IEL derived from lymph node T cells was similar to that of normal IEL; as the donor-derived T cells exhibited a strong cytolytic activity, a poor proliferative response to mitogenic stimuli, and a tendency to home and expand specifically in the intestine upon transfer to secondary SCID recipients. Optimal engraftment of intestinal T cells required bacterial flora, as the number of lymphocytes was greatly reduced in SCID recipients with a reduced flora. These results demonstrate that mature, thymus-derived T cells can migrate to the intestine and become functionally specialized to the intestinal milieu. The acquisition of phenotypic markers characteristic of the intestinal microenvironment by engrafted cells suggests that T cell migration of lymphocytes to the SCID intestine is not aberrant, but it may reflect processes that are ongoing in immunocompetent mice. Furthermore, these data suggest that the homing and/or expansion of typical, thymus-derived T cells in the intestine may be driven by luminal Ags such as those derived from bacterial flora.     

The role of colour and duplex Doppler ultrasound in the assessment of thyroid nodules

After chronic sympathectomy or sinoaortic denervation (SAD), arterial pressure (AP) becomes extremely unstable, especially because of movement-related depressor episodes. The simultaneous measurement of AP and regional blood flows in sympathectomized and SAD rats indicates that these depressor episodes are accompanied by strong regional vasodilations, possibly involving an autoregulatory component. The sympathetic nervous system, mainly through baroreflex modulation of its activity, overrides these responses and thereby, considerably limits the AP variability. In the conscious unrestrained rat, AP fluctuates in a narrow range (variation coefficients calculated over 1-hour beat-to-beat recordings are typically approximately 5%). This variability of AP involves sympathetically-mediated pressor episodes that are coupled to behavior and alerting environmental stimuli. Regarding the latter, studies in SAD rats point to an opposing interaction between centrally-induced sympathoexcitation and baroreflex activation. Another component of normal AP variability appears as an oscillation centered around 0.4 Hz. Spectral analysis of AP and regional hemodynamic variables indicates that this oscillation is secondary to rhythmic fluctuations in the vasomotor sympathetic tone that are synchronized by the arterial baroreceptor reflex. It is concluded that both stability and normal variability of AP critically depend on the baroreflex control of the sympathetic vascular tone.     

Neurokinin-1 (NK-1) receptor is required in Clostridium difficile- induced enteritis

Toxin A, a 308,000-Mr enterotoxin from Clostridium difficile, mediates antibiotic-associated diarrhea and colitis in humans. Injection of toxin A into animal intestine triggers an acute inflammatory response characterized by activation of sensory neurons and immune cells of the intestinal lamina propria, including mast cells and macrophages, and migration of circulating neutrophils in the involved intestinal segment. In this study we show that mice genetically deficient in the neurokinin-1 receptor are protected from the secretory and inflammatory changes as well as from epithelial cell damage induced by toxin A. The protective effect of neurokinin-1R deletion correlates with diminished intestinal levels of the cytokine TNF-alpha and its mRNA and the leukocyte enzyme myeloperoxidase. These results demonstrate a major requirement for substance P receptors in the pathogenesis of acute inflammatory diarrhea.     

Deficiency of IL-5 receptor alpha-chain selectively influences the development of the common mucosal immune system independent IgA-producing B-1 cell in mucosa-associated tissues

Deletion of IL-5R alpha-chain (IL-5R alpha-/-) selectively influenced the mucosal IgA responses in vivo. While levels of IgA in mucosal secretions were more reduced in IL-5R alpha-/- mice than in wild-type mice, the levels of IgA in serum were not changed. The frequency of IgA-producing cells was reduced in mucosal effector sites (e.g., intestinal lamina propria and nasal passage), but not in inductive sites such as Payer's patches and nasal-associated lymphoreticular tissues in IL-5R alpha-/- mice. IgA-committed (surface IgA+; sIgA+) B-1 cells mainly resided in mucosal effector tissues, while conventional sIgA+ B (B-2) cells formed in mucosal inductive sites of wild-type mice. In contrast, in the effector tissue of IL-5R alpha-/- mice, sIgA+ B-1 cells, but not sIgA+ B-2 cells in the inductive site, were significantly reduced. IL-5R alpha was more expressed on sIgA+ B-1 cells than was IL-6R, while both IL-5R alpha and IL-6R were expressed on sIgA+ B-2 cells in wild-type mice. sIgA+ B-1 cells produced high levels of IgA with rIL-5 rather than of rIL-6 in vitro. Taken together, the findings suggest that the IL-5/IL-5R signaling pathway is critically important for the development of common mucosal immune system independent sIgA+ B-1 cell in mucosal effector tissues in vivo.     

Influence of topical rectal application of drugs on dextran sulfate-induced colitis in rats

A rat model of colitis [dextran sulfate (DSS)] was used to study the permeation of Evans blue (EB) from the lumen into the wall of proximal and distal colonic loops after exposure to the dye for 2 hr. Topical application of drugs used in human ulcerative colitis (lidocaine, mesalazine, prednisolone, or sucralfate) was given daily during induction of colitis to protect the mucosa. The mucosal changes were evaluated with special regard to peptidergic innervation [substance P (SP) and neuropeptide Y (NPY)], invasion of antigen-presenting polydendritic cells, and mucin-containing goblet cells. DSS-treatment caused a significantly increased permeation of EB. In the proximal loops a significant inhibition was obtained after treatment with lidocaine, prednisolone, or sucralfate. In the distal loops only treatment with lidocaine had a preventive effect. Immunocytochemically there was a clear hyperplasia of both mucosal SP- and NPY-immunoreactive nerve fibers in regions with crypt abnormalities. In these regions also most of the goblet cells were devoid of mucus. Like the changes in permeation, these morphological changes were most prominent in the distal loops. With induction of colitis, the mucosa and lamina propria were invaded by polydendritic cells; the visual score was markedly decreased in the proximal loops treated with lidocaine, prednisolone, or sucralfate. In the distal loops similar effects were obtained after treatment with lidocaine or prednisolone. Prevention of the influx of antigens in both loops after lidocaine treatment with reduced recruitment of polydendritic cells into the lamina propria is suggested. The nerve hyperplasia may thus be secondary to luminal challenge with antigens during induction of colitis. The discrepancy between increased permeation and absence of polydendritic cell response in the distal loops after prednisolone may reflect separate actions of steroids on the intestinal epithelium and the immune cells.