Global ETD Search

11	Gastrointestinal-Sparing Effects of Novel NSAIDs in Rats with Compromised Mucosal Defence Blackler, Rory William 10 1900 (has links) <p>Nonsteroidal anti-inflammatory drugs are among the most commonly used prescription and over-the-counter medications, but they often produce significant gastrointestinal ulceration and bleeding, particularly in elderly patients and patients with certain co-morbidities. Novel anti-inflammatory drugs are seldom tested in animal models that mimic the high-risk human users, leading to an underestimate of the true toxicity of these drugs. In the present study we examined the effects of two novel NSAIDs and two commonly used NSAIDs in models in which mucosal defence was expected to be impaired. Naproxen, celecoxib, ATB-346 (a hydrogen sulfide- and naproxen-releasing compound) and NCX 429 (a nitric oxide- and naproxen-releasing compound) were evaluated in healthy, arthritic, obese, hypertensive rats, and in rats of advanced age (19 months) and rats co-administered low-dose aspirin and/or omeprazole. In all models except hypertension, greater gastric and/or intestinal damage was observed when naproxen was administered in these models than in healthy rats. Celecoxib-induced damage was significantly increased when co-administered with low-dose aspirin and/or omeprazole. In contrast, ATB-346 and NCX 429, when tested at doses that were as effective as naproxen and celecoxib in reducing inflammation and inhibiting cyclooxygenase activity, did not produce significant gastric or intestinal damage in any of the models. These results demonstrate that animal models of human co-morbidities display the same increased susceptibility to NSAID-induced gastrointestinal damage as observed in humans. Moreover, two novel NSAIDs that release mediators of mucosal defence (hydrogen sulfide and nitric oxide) do not induce significant gastrointestinal damage in these models of impaired mucosal defence.</p> / Master of Science (MSc) NSAIDs Gastrointestinal Co-morbidity Mucosa Rats Ulceration Digestive, Oral, and Skin Physiology Disease Modeling Medical Pharmacology Pharmaceutics and Drug Design Digestive, Oral, and Skin Physiology
12	The Role of Intestinal Microbiota on the Regulation of Gut Function and Immunity Natividad, Jane Mea M. 10 1900 (has links) <p>Intestinal microbiota are key determinants of gut homeostasis and affect various gut physiological and immune processes. Co-evolution has enabled the host and intestinal microbes to exist in a mutualistic relationship. However, interactions between the host and its intestinal microbiota exist in a delicate balance between mutualism and pathogenicity. Maintenance or disruption of this balance depends on a complex interplay between the microbiota and the host, as well as other gut luminal factors, including diet, that are poorly understood. The main goal of this thesis has been to study the host-gut luminal interactions that regulate gut physiology and immunity. In particular, <strong>Chapter 2</strong> centers on investigating the effect of perturbing the intestinal barrier using a non-steroidal inflammatory drug on host-microbial and dietary interactions in a mouse model of gluten sensitivity. I demonstrated that indomethacin-induced increase in intestinal permeability is associated with altered intestinal microbiota composition, systemic antibody development against intestinal bacteria and a shift in immune responses to the dietary antigen, gluten. <strong>Chapter 3</strong> focuses on investigating whether modulation of the intestinal microbiota can affect the host’s susceptibility to intestinal injury. I used mice with defective intracellular bacterial receptor signaling because discrimination between commensals and pathogens is, in part, achieved by a family of receptors that recognize conserved bacterial components. I demonstrated that the microbiota with which these mice are colonized influences the expression of RegIII-γ, a type of antimicrobial peptide, and susceptibility to intestinal injury. To gain further insight on the effect of microbiota on antimicrobial peptides, in <strong>Chapter 4</strong> we conducted a combination of gnotobiotic and <em>in-vitro</em> experiments where we identified that specific components of the microbiota differentially regulate RegIII expression. Further examination showed that <em>MyD88 a</em>nd <em>Ticam1 </em>genes, which are signaling adaptor proteins of pattern recognition receptors, are essential regulators of microbial–induced RegIII expression by intestinal epithelial cells. Collectively, the work presented in this thesis provides novel insight on the bi-directional interaction between the host and the gut luminal content as well as of potential beneficial effects of microbiota-modulating strategies in maintaining homeostasis and preventing disease.</p> / Doctor of Philosophy (Medical Science) Intestinal microbiota Celiac disease Inflammatory Bowel Disease Intestinal immunity and homeostasis Intestinal inflammation Probiotics Digestive, Oral, and Skin Physiology Digestive, Oral, and Skin Physiology
13	Acupuncture : the effects on muscle blood flow and aspects of treatment in the clinical context / Sandberg, Margareta, January 2004 (has links) (PDF) Diss. (sammanfattning) Linköping : Linköpings universitet, 2004. / Härtill 6 uppsatser.
14	Understanding the Role of Phosphoinositide 3-Kinase and its Function as a Driving Force behind the ER Stress Response in Fibrostenotic Crohn’s Disease-affected Ileal Smooth Muscle Cells Yadav, Prashant 01 January 2018 (has links) Crohn’s disease (CD) affects about 780,000 people in the United States alone, and it is estimated that 6-15 per 100,000 persons will receive a diagnosis of this disease each year. There currently is no cure for Crohn’s disease, and available medical therapies simply serve to alleviate the inflammation. This does not help treat fibrostenosis that Crohn’s disease patients may develop, which can only be treated surgically. Finding alternatives to treat CD requires an understanding of mechanisms at the biochemical level. In this thesis, we attempted to gain a better understanding of certain pathways found to be active in Crohn’s disease-affected ileal smooth muscle cells. We found an upregulation of the ER stress pathway via expression of its surrogate, the GRP78 protein. We also showed evidence that the phosphoinositide 3-kinase (PI3K) pathway, a key proliferative pathway, is linked to ER stress in these cells, and is an upstream driving force of the ER stress response. Further research on the link between the PI3K and ER stress pathways needs to be conducted, and can potentially serve as a target for therapeutics to help reduce proliferation in fibrostenotic Crohn’s disease-affected ileal smooth muscle cells. ER Stress Proliferation Apoptosis Crohn's Disease PI3K GRP78 Digestive, Oral, and Skin Physiology Digestive System Diseases Gastroenterology Medical Biochemistry
15	Branched Short Chain Fatty Acid Isovaleric Acid Causes Smooth Muscle Relaxation via cAMP/PKA Pathway, Inhibits Gastrointestinal Motility, and Disrupts Peristaltic Movement Blakeney, Bryan Adam 01 January 2018 (has links) Isovaleric Acid (IVA) is a 5-carbon branched chain fatty acid present in fermented foods and produced by the fermentation of leucine by colonic bacteria. IVA activates G-protein coupled receptors such as FFAR2, FFAR3, and OR51E1 known to be expressed on enteric neurons and enteroendocrine cells. We previously reported that the shorter, straight chain fatty acids acetate, propionate and butyrate, differentially affect colonic propulsion; however, the effect of branched chain fatty acids on gastrointestinal motility is unknown. We hypothesize that IVA relaxes smooth muscle in a cAMP/PKA dependent manner by direct action on smooth muscle cells. IVA will also decrease peristalsis and encourage retention of luminal contents. This thesis investigates the effect of IVA on smooth muscle tension and peristaltic activity in isolated colon and individual smooth muscle cells. Colon segments from C57BL/6J mice were placed in a longitudinal orientation in organ baths in Krebs buffer and fastened to force transducers. Segments were contracted with 10 μM acetylcholine (ACh) and the effects of IVA at several concentrations were measured in the absence and presence of Nitric Oxide Synthase inhibitor L-N-nitroarginine (L-NNA), neuronal action potential inhibitor tetrodotoxin (TTX), and adenylate cyclase inhibitor SQ22536. To study individual live cells, mouse smooth muscle was isolated from colon, suspended in smooth muscle buffer, and after contraction with ACh were relaxed with micromolar concentrations of IVA. For peristalsis studies, whole colonic segments isolated from C57BL/6J were catheterized and placed horizontally in organ baths with circulating Krebs buffer. The colon was clamped on the anal end, and a solution (5 μL per mm of colon length) of either Krebs buffer or 50 mM IVA was delivered from the oral end to the lumen. Video of the peristalsis was then analyzed for diameter, changes in diameter, velocity of diameter changes along the length of the colon, normalized to the anatomical changes in the proximal region. IVA in concentrations of 10 mM to 50 mM relaxed the ACh-induced contraction in a sigmoidal fashion. In separate studies, L-NNA nor TTX affected the ability of IVA to inhibit relaxation. SQ22536 inhibited IVA induced relaxation in longitudinal colon compared to vehicle control. In isolated cells, SQ22536 and PKA inhibitor H-89 inhibited IVA-induced relaxation. In peristalsis studies, 50 mM IVA in Krebs buffer changed the character of the peristaltic action by increasing proximal diameter, inhibiting contractions in the proximal end of the colon, and decreasing overall velocity of peristaltic contractions in the proximal region. The data indicate that the branched chain fatty acid IVA causes a concentration-dependent relaxation of colonic smooth muscle that is direct to the smooth muscle and independent of neuronal activity. This relaxation is cAMP/PKA dependent. In addition to the direct relaxation of smooth muscle, intraluminal IVA decreased overall colonic propulsive activity and encouraged retention of the luminal contents. We conclude that the ingestion and production of branched chain fatty acids could affect overall GI motility and is an area for study in dietary and therapeutic control of bowel activity. Fatty Acid Peristalsis Smooth Muscle Olfactory Receptor Colon Adenylate Cyclase Digestive, Oral, and Skin Physiology Physiological Processes Systems and Integrative Physiology
16	Signaling Components Involved in the Hormone Induced Translocation of ENaC in Cultured Adult Human Fungiform (HBO) Taste Cells Hojati, Deanna 01 January 2017 (has links) The amiloride-sensitive epithelial Na+ channel, ENaC, is the Na+-specific salt taste receptor in rodents. Compared to rodents, human salt taste perception is amiloride-insensitive. In rodents the ENaC is composed of aβg-subunits. Whereas humans express an additional subunit, the d-ENaC subunit. ENaC in human taste cells is composed of aβg-subunits or dβg-subunits, with the latter being amiloride-insensitive. Currently, it is not known if dβg-ENaC expression and trafficking is regulated by hormones and their downstream intracellular signaling effectors. The aim of this study is to investigate if arginine vasopressin (AVP), aldosterone, and cAMP regulate d-ENaC expression and trafficking in cultured fungiform human taste cells (HBO cells). Secondly, we want to demonstrate the expression of downstream signaling effectors involved in the trafficking of d-ENaC in HBO cells. Using molecular and immunocytochemical techniques, our results demonstrate that AVP, cAMP, and aldosterone increase expression of d-ENaC mRNA and protein in HBO cells. Furthermore, AVP, cAMP and aldosterone increased trafficking of the d-ENaC subunit from the cytosolic compartment to the apical pole of the HBO cells. Our results further demonstrate that HBO cells express several components of signaling cascade involved in ENaC translocation from cytosol to apical pole in HBO cells. The components of this signaling cascade include AVPR2, PKA, CREB, SGK-1, Nedd4-2, and GILZ-1. These hormones in mice and rats upregulate ENaC. Currently, we are not sure if these hormones affect ENaC this way in humans. By studying d-ENaC with these hormones, we are able to see how human ENaC is regulated in the tongue. delta ENaC HBO cells taste salt ENaC epithelial sodium channel fungiform Digestive, Oral, and Skin Physiology Physiological Processes
17	VISCERAL PAIN RESPONSES TO COLORECTAL DISTENTION IN RATS THAT HAVE RECOVERED FROM A BOUT OF COLITIS Sessenwein, Jessica L. 10 1900 (has links) <p>Increased visceral pain is often seen in patients with gastrointestinal (GI) inflammation. Some studies, however, have suggested that such pain may persist after resolution of damage or inflammation. Despite the debilitating pain associated with GI inflammation, and its significant impact on affected individuals, few studies have addressed this issue. We hypothesized that altered visceral pain responses would persist after resolution of a bout of colitis in an animal model of colitis. We studied the pain responses to colorectal distention in Wistar rats with dinitrobenzene sulfonic acid (DNBS)-induced colitis, using changes in heart rate as an index of pain. Colonic inflammation had resolved by day 15 after DNBS administration. The assessment of colonic inflammation was based on histological scores, colonic tissue pro-inflammatory cytokine levels and myleoperoxidase activity. Rats examined at 15 days post-DNBS administration exhibited diminished pain responses to colorectal distention as compared to healthy rats. This was associated with significant increases in colonic tissue levels of IL-4 and IL-10 as compared to healthy rats, indicating a possible role for these anti-inflammatory cytokines in counteracting the generation of pain and hyperalgesia. We also studied the effects of hydrogen sulfide (H2S) in our animal model, by administering inhibitors of two of the key enzymes involved in the production of H2S. Our results demonstrated that inhibition of H2S production did not significantly alter the pain responses observed in rats at 15 days post-DNBS administration. In summary, our results demonstrate altered autonomic responses to colorectal distension following resolution of colitis. Further research on the role of anti-inflammatory cytokines and H2S may help to determine the mechanism underlying this effect.</p> / Master of Science (MSc) Visceral Pain Inflammatory bowel disease Colorectal distention Hydrogen Sulfide Allergy and Immunology Digestive, Oral, and Skin Physiology Gastroenterology Allergy and Immunology
18	Short and Long Chain Free Fatty Acids Differentially Regulate Glucagon-like Peptide-1 and Peptide YY Transcript Levels in Enteroendocrine Cells (STC-1) Catherman, Colin M 01 January 2017 (has links) The regulation of glucagon-like peptide-1 and peptide YY hormone levels are regulated based on different influential factors, but primarily levels are dependent upon ingested food content. As meals today become more fat-enriched, there is greater requirement for evaluation of these hormones that regulate insulin and satiety levels within the body. We have shown that the gene expression transcript production of glucagon-like peptide-1 and peptide YY are modulated by different concentrations, and times of short-chain fatty acids and long-chain fatty acids. Although the peptide hormone levels have the influential physiological role on effector tissue, the regulation of these hormones begins at the transcript levels. Recent research indicates that glucagon-like peptide-1 and peptide YY hormones are altered in response to different free-fatty acids. The present investigation generally demonstrated an overall decrease in both hormones after chronic exposure to fatty acids. Intestinal secretin tumor cell line (STC-1 cells) was used as a representative for intestinal L-cells. Quantitative real-time PCR analysis was used to determine the changes in RNA transcripts. Overall, there was a decrease in the 3-hour timeline, which continued to decrease in the 16-hour and 24-hour timelines for glucagon-like peptide-1. Peptide YY transcript expression in 3-hours increased significantly after exposure to propionate, a significant decrease after exposure to acetate, and no significant increase or decrease after exposure to butyrate. However, there was a significant decrease in peptide YY once reaching 24-hour exposure. It was determined there is a threshold for different concentrations of free-fatty acids to influence glucagon-like peptide-1 and peptide YY production, which was present in the different concentrations of butyrate. Lastly, exposure to both concentrations of linolenic acid caused a significant decrease in glucagon-like peptide-1 and peptide YY. GLP-1 PYY short-chain fatty acids long-chain fatty acids fatty acids transcripts GLP1 diabetes mellitus Digestive, Oral, and Skin Physiology Digestive System Diseases
19	Regulation of UV-Protective Pathways Downstream of the Melanocortin 1 Receptor in Melanocytes Wolf Horrell, Erin M. 01 January 2016 (has links) Malignant cutaneous melanoma is the deadliest form of skin cancer, and a majority of melanoma diagnoses are a result of exposure to ultraviolet (UV) radiation. UV radiation causes DNA damage, which if not repaired correctly via nucleotide excision repair (NER) can result in mutations and melanomagenesis. The melanocortin 1 receptor (MC1R) is a Gs protein coupled receptor located on melanocyte plasma membranes and is involved in protecting the skin from UV induced damage. MC1R signaling results in the activation of two protective pathways: 1) induction of eumelanin synthesis downstream of micropthalmia-associated transcription factor (MITF) and 2) acceleration of NER downstream of ataxia telangiectaseia mutated and Rad3 related (ATR). MC1R signaling, however, also promotes melanocyte proliferation, therefore, the activation of the MC1R pathway must be regulated. The overall hypothesis of this dissertation is that the pathways downstream of MC1R can be manipulated to protect against UV induced damage. Chapter 2 investigates the regulation of the MC1R neutral antagonist human β-defensin 3 (βD3). UV damage did not induce βD3 mRNA expression in ex vivo human skin explants. The induction of βD3 expression instead correlated with inflammatory cytokines including TNF. Chapter 3 investigates the interdependence and cross talk between the two protective pathways downstream of MC1R. We directly tested the effect of MITF on the acceleration of NER and the effect of ATR on the induction of eumelanin synthesis following MC1R activation. MITF was not required for the acceleration of NER as mediated by ATR, however, the induction of transcription of enzymes involved in eumelanin synthesis was dependent upon ATR kinase activity. Finally, Chapter 4 investigates the mechanism by which MC1R promoted proliferation and whether the two UV protective pathways downstream of MC1R could be selectively activated without the risk of melanocyte proliferation. MC1R signaling resulted in activation of the mechanistic target of rapamycin complex 1 (mTORC1), a major regulator of cell growth and proliferation. Inhibition of mTORC1 signaling via rapamycin prevented MC1R induced proliferation in vitro. Rapamycin, however, did not prevent MC1R induced eumelanin synthesis or the acceleration of NER in vitro or in vivo suggesting it is possible to selectively activate the beneficial signaling pathways without the risk of melanocyte proliferation. The results of this dissertation suggest that MC1R signaling could be augmented in individuals to prevent UV induced damage. Melanocortin 1 Receptor (MC1R) Beta-Defensing 3 (BD3) Mechanistic Target of Rapamycin (mTOR) Dermatology Digestive, Oral, and Skin Physiology Medical Cell Biology Medical Physiology Oncology Physiological Processes
20	CHRONIC PANCREATITIS, PAIN, AND ANXIETY IN AN ALCOHOL AND HIGH FAT MOUSE MODEL Clinkinbeard, Tiffanie 01 January 2016 (has links) Homeodynamic space (HDS) shrinks as vulnerability increases with aging and repeated damage to the cells. HDS is lost in alcoholic pancreatitis patients due to overconsumption of alcohol, smoking, and high fat diets. Etiologically relevant animal models for study of chronic pancreatitis (CP) are needed. In order to begin filling this gap a central purpose of this dissertation research was to examine relationships between the alcohol and high fat diet (AHF) and pancreatitis with attention to hypersensitivity and anxiety-like behaviors. The AHF diet induced pancreatitis described here etiologically mimics human risk factors of AHF consumption for advancement to alcoholic CP. In this study one group of mice was fed long term with a diet of high fat and alcohol for comparison with a group fed normal chow. Mice consumed a liquid diet containing 6% alcohol and a high fat supplement ad libitum over a period of five months. Each group was evaluated for heat and mechanical hypersensitivity, and histology indicative of CP. The association of pancreatitis pathology with anxiety has been understudied. Anxiety, like pain, is useful as a transient state but when anxiety is prolonged it is termed a disorder. Anxiety is often comorbid with pain and depression. Therefore, it is important to determine anxiety in mice with CP histology. This model was characterized for the interaction of pancreatitis histology, as well as persisting pain-, anxiety-, and fear-like behaviors. The AHF diet mice developed hypersensitivity, demonstrated anxiety-like behaviors, and showed concurrent histology consistent with CP. Nontransgenic mouse models where pancreatitis is induced only by a combination of ad libitum liquid food with added alcohol and lard supplementation do not currently exist, nor has an in-depth study of anxiety-like behaviors been conducted in this mouse model. This dissertation research addresses this knowledge gap. Pain Pancreatitis Mouse Model Anxiety Alcohol High Fat Fear Animals Behavioral Neurobiology Behavior and Behavior Mechanisms Cell Biology Digestive, Oral, and Skin Physiology Digestive System Digestive System Diseases Disease Modeling Gerontology Nervous System Physiology Public Health Substance Abuse and Addiction

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