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The neuronal and non-neuronal substance P, VIP and cholinergic systems in the colon in ulcerative colitisJönsson, Maria January 2009 (has links)
Ulcerative colitis (UC) is a chronic relapsing inflammatory bowel disease. Neuropeptides, especially vasoactive intestinal peptide (VIP) and substance P (SP), have long been considered to play key roles in UC. Among other effects, these neuropeptides have trophic and growth-modulating as well as wound-healing effects. Furthermore, whilst VIP has anti-inflammatory properties, SP has pro-inflammatory effects. It is generally assumed that the main source of SP and VIP in the intestine is the tissue innervation. It is not known whether or not they are produced in the epithelial layer. The details concerning the expressions of their receptors in UC are also, to a great extent, unclear. Apart from the occurrence of peptidergic systems in the intestine, there are also neuronal as well as non-neuronal cholinergic systems. The pattern concerning the latter is unknown with respect to UC. The studies in this thesis aimed to investigate the expression of SP and VIP and their major receptors (NK-1R and VPAC1) in UC colon, compared to non-UC colon. The main emphasis was devoted to the epithelium. A second aim was to examine for levels of these neuropeptides in blood plasma in UC. Another aim was to examine for the non-neuronal cholinergic system in UC, thus, to investigate whether there is acetylcholine production outside nerves in the UC colon. Methods used in the thesis were immunohistochemistry, in situ hybridization, enzyme immunosorbent assay, and in vitro receptor autoradiography. For the first time, mRNA for VIP and SP has here been found in the colonic epithelium. That was especially noted in UC mucosa showing a rather normal morphology, and in non-UC mucosa. Marked derangement of the mucosa was found to lead to a distinct decrease in VIP binding, and also a decrease in the expression level of VIP receptor VPAC1 in the epithelium. In general, there was an upregulation of the SP receptor NK-1R in the epithelium when the mucosa was deranged. The plasma levels of SP and VIP were higher for UC patients compared to healthy controls. There were marked correlations between the levels of the peptides in plasma, their levels in the mucosa and the degree of mucosal derangement/inflammation. A pronounced nonneuronal cholinergic system was found in both UC and non-UC colon. Certain changes occurred in this system in response to inflammation/derangement in UC. The present study shows unexpectedly that expressions for VIP and SP are not only related to the nerve structures and the inflammatory cells. The downregulation of VPAC1 expression, and the tendencies of upregulation of NK-1R expression levels when there is marked tissue derangement, may be a drawback for the intestinal function. The study also shows that there is a marked release of neuropeptides to the bloodstream in parallel with a marked derangement of the mucosa in UC. The cholinergic effects in the UC colon appear not only to be associated with nerverelated effects, but also effects of acetylcholine produced in local non-neuronal cells. The thesis shows that local productions for not only acetylcholine, but also SP and VIP, occur to a larger extent than previously considered.
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EFFECTS OF <em>IN UTERO</em> NICOTINE EXPOSURE ON IMMUNE CELL DISPOSITION AFTER <em>P. AERUGINOSA</em> LUNG INFECTIONKang, Nayon 01 January 2017 (has links)
Current smoking cessation guidelines recommend nicotine replacement therapy (NRT) to assist pregnant smokers to quit, but this is without strong evidence for effectiveness and safety. Nicotine, the main addictive component of tobacco, is known to exert physiological effects by binding to its receptor, the nicotinic acetylcholine receptor (nAChR). Recent studies have identified the presence of nAChRs in non-neuronal cells, and in macrophages, functional alteration upon stimulation with nicotine has been documented.
To understand the impact of in utero nicotine exposure on various immune cell disposition and function, we designed preliminary studies using an in vivo model of P. aeruginosa infection. In this model, pregnant mice were exposed to nicotine and after weaning, offspring were infected intra-tracheally and humanely killed 5 days later.
Nicotine-exposed mice had a greater weight reduction post-infection. This was accompanied by a decreased number of neutrophil, resident macrophages, and B lymphocytes in the lungs, while the number of B lymphocytes in the lymph nodes were greater than that of the control group. In the lung lavage fluids, IL-6, MCP-1, and TNFα concentrations were elevated in nicotine-exposed mice. In an in vitro system using bone marrow-derived macrophages, a significantly reduced production of IFNγ was observed in nicotine-exposed mice when cells were stimulated with LPS.
To characterize and compare gene expression in macrophages isolated from neonates developmentally exposed to nicotine, we designed a clinical study to recruit pregnant mothers who 1) did not smoke during pregnancy, 2) smoked throughout pregnancy, or 3) used NRT during pregnancy. We found that successful RNA isolation can be achieved from neonatal tracheal aspirate samples and cell number and reagent volumes were important determinants of acceptable RNA quality and quantity.
Together, these preliminary findings demonstrate a possible alteration in immune response as a result of in utero nicotine exposure and sets a groundwork for future studies in identifying mechanisms underlying the impact of developmental nicotine exposure.
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Pamoplantar Pustulosis. Pathogenetic Studies with Special Reference to the Role of NicotineHagforsen, Eva January 2001 (has links)
Palmoplantar pustulosis (PPP) is a chronic disease of unknown pathogenesis. Most of the patients were smokers. High prevalence of a number of autoimmune diseases was observed among the patients (thyroid disease 14%, gluten intolerance 8%, diabetes type 1 3%). Eosinophils and neutrophils were found in large numbers in the pustules. Massive infiltrates of lymphocytes and mast cells in the dermis below the pustule and an abnormal acrosyringial pattern indicate that the acrosyringium is the target for the inflammation. Immunofluorescence (IF) revealed decreased innervation of the sweat gland, outward migration of substance P-positive granulocytes in the acrosyringium and an increased number of contacts between mast cells and nerve fibres in the dermis. Distributions of choline acetyltransferase (ChAT) and acetylcholinesterase (AChE) were studied, since they regulate the level of acetylcholine, the main inducer of sweating. The most intense AChE-like immunoreactivity (LI) was observed in the acrosyringium in the lowest part of the stratum corneum, corresponding to the site of the pustule in PPP. ChAT-LI in granulocytes and AChE-LI in mast cells were demonstrated, which may have implications for inflammatory processes in general. Nicotinic acetylcholine receptors (nAChR) are activated by acetylcholine but also by nicotine. Immunohistochemstry of α-3 and α-7 subtypes of the nAChRs showed that the nAChR expression in healthy skin was influenced by smoking. A highly abnormal α-7 nAChR distribution in PPP skin was observed. The levels of nAChR antibodies were elevated in 42% of the PPP sera, and 68% of these sera gave specific endothelial IF in the papillary dermis in skin from non-smokers. Positive IF in the acrosyringium was also noted in skin from smokers. Conclusions: Smoking seems to induce up-regulation of an antigen in palmar skin. The results indicate that PPP is an autoimmune disease and that nicotine might have a role in the onset of the inflammation.
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