Estudo da expressão das proteínas juncionais e dos fatores inflamatórios em pacientes com doença do refluxo gastroesofágico erosiva e não erosiva / Study of expressions of junctionals proteins and inflammatory factors in patients with gastro-oesophageal reflux disease and non-erosive reflux disease

Balbinotti, Silvana Sartori

07 July 2009

Pacientes com doença do refluxo não erosiva apresentam sintomas típicos causados pelo refluxo do conteúdo gástrico para o esôfago. Entretanto, estes pacientes não apresentam alterações de mucosa visualizadas à endoscopia. O objetivo deste estudo é caracterizar a expressão de moléculas relacionadas à junção celular (claudinas 1, 3 e 4), da proteína pró-inflamatória Cox-2, da população global de linfócitos (CD45), população de linfócitos T (CD3), linfócitos B (CD20) e natural killer (CD57) em portadores de esofagite de refluxo erosiva e não erosiva. O estudo verificou que quanto mais intensa e crônica a inflamação no epitélio escamoso esofágico, menor a expressão das proteínas juncionais (claudinas 1 e 4), não alterando a expressão da claudina 3. Em relação à Cox-2 o estudo mostra aumento de sua expressão na forma erosiva da doença. Em relação à população de linfócitos, não foi detectada diferença significativa / Patients with non-erosive reflux disease conditions show typical symptons caused by the reflux of the gastric content to the esophagus. However, these patients dont show any alteration on the mucous membrane visualized trhough endoscopy. The aim of this study is to characterize the molecule expression related to the cell junction (claudins 1 , 3 and 4)the Cox 2 pro-inflamatory protein, the general population of (CD45) lymphocytes ,the population of lymphocytes T (CD3),the B (CD20) lymphocytes and the(CD57) natural killer in patients with erosive and non-erosive reflux esophagitis. The study found that the more intense and chronic the inflamation is in the esophageal squamous epithelium, less junction protein expressios (claudins 1 and 4) were found, not altering the 3 expressions of claudin 3. Regarding Cox 2, the study shows increase in its expression in the erosive form of the disease. Regarding the population of lymphocytes, no significant difference was detected

Claudinas

Claudins

Cox-2

Cox-2

DRGE

DRNE

GERD

Immunohistochemestry

Imunohistoquímica

Intra-epithelial lymphocyte population

Junctional proteins

NERD

Proteínas juncionais

Estudo da expressão das proteínas juncionais e dos fatores inflamatórios em pacientes com doença do refluxo gastroesofágico erosiva e não erosiva / Study of expressions of junctionals proteins and inflammatory factors in patients with gastro-oesophageal reflux disease and non-erosive reflux disease

Silvana Sartori Balbinotti

07 July 2009

Pacientes com doença do refluxo não erosiva apresentam sintomas típicos causados pelo refluxo do conteúdo gástrico para o esôfago. Entretanto, estes pacientes não apresentam alterações de mucosa visualizadas à endoscopia. O objetivo deste estudo é caracterizar a expressão de moléculas relacionadas à junção celular (claudinas 1, 3 e 4), da proteína pró-inflamatória Cox-2, da população global de linfócitos (CD45), população de linfócitos T (CD3), linfócitos B (CD20) e natural killer (CD57) em portadores de esofagite de refluxo erosiva e não erosiva. O estudo verificou que quanto mais intensa e crônica a inflamação no epitélio escamoso esofágico, menor a expressão das proteínas juncionais (claudinas 1 e 4), não alterando a expressão da claudina 3. Em relação à Cox-2 o estudo mostra aumento de sua expressão na forma erosiva da doença. Em relação à população de linfócitos, não foi detectada diferença significativa / Patients with non-erosive reflux disease conditions show typical symptons caused by the reflux of the gastric content to the esophagus. However, these patients dont show any alteration on the mucous membrane visualized trhough endoscopy. The aim of this study is to characterize the molecule expression related to the cell junction (claudins 1 , 3 and 4)the Cox 2 pro-inflamatory protein, the general population of (CD45) lymphocytes ,the population of lymphocytes T (CD3),the B (CD20) lymphocytes and the(CD57) natural killer in patients with erosive and non-erosive reflux esophagitis. The study found that the more intense and chronic the inflamation is in the esophageal squamous epithelium, less junction protein expressios (claudins 1 and 4) were found, not altering the 3 expressions of claudin 3. Regarding Cox 2, the study shows increase in its expression in the erosive form of the disease. Regarding the population of lymphocytes, no significant difference was detected

Claudinas

Cox-2

DRGE

DRNE

Imunohistoquímica

Proteínas juncionais

Claudins

Cox-2

GERD

Immunohistochemestry

Intra-epithelial lymphocyte population

Junctional proteins

NERD

Cereal Induced Autoimmune Diabetes is Associated with Small Intestinal Inflammation, Downregulated Anti-Inflammatory Innate Immunity and Impaired Pancreatic Homeostasis

Patrick, Christopher

January 2014

Background: Intestinal inflammation elicited by environmental determinants including dietary proteins and microbes is implicated in type 1 diabetes (T1D) pathogenesis. Also, intrinsic pancreatic abnormalities could precede classic insulitis, contributing to T1D. Materials and Methods: Spontaneous rat T1D models were used for in situ analyses of gut and pancreas to explore novel disease pathways using immunohistochemistry and detailed morphometry, gene expression studies, and molecular screening analyses. Results: In BBdp rats, feeding a cereal diet stimulated T1D under germ-free or specific pathogen-free (SPF) conditions compared with a protective hydrolyzed casein (HC) diet. Cereal-induced T1D was paralleled by increased gut T cell infiltration and TH1-associated pro-inflammatory transcription. HC-fed rats displayed an increased number of anti-inflammatory CD163+ M2 macrophages compared with cereal-fed rats. Cereal-associated promotion of T1D in Lewis diabetes-prone (LEW-DP) rats, a different rat model, similarly featured gut T cell infiltration in conjunction with decreased immunoregulation. The Camp gene was induced in diet-protected HC-fed BBdp rats. Camp encodes the cathelicidin antimicrobial peptide (CAMP), a pleiotropic immunomodulatory host defence factor. Intestinal CAMP was enriched in CD163+ M2 macrophages and could represent a novel marker of these tolerogenic innate immune cells. CAMP expression was also discovered in pancreatic lymph nodes (PLN) and islets, indicating a novel role for this factor in target tissue homeostasis. There was a positive correlation between pancreatic CAMP and total islet number. Also, islet-associated CAMP+ cells were increased in rats with islet inflammation, suggesting upregulation in parallel with insulitis. Exogenous CAMP/LL-37 injections increased the abundance of T1D-protective probiotic bacteria and promoted islet neogenesis in BBdp rats. A prospective partial pancreatectomy (PPx) study was performed to obtain pre-diabetic pancreas biopsies from iii pre-insulitic BBdp rats. The number of endothelium-associated CD68+ macrophages was increased in pre-diabetic pancreata, indicating that perivascular inflammation was an early lesion in the animals. In addition, pre-diabetic pancreata featured enhanced regenerative Reg3a and Reg3b gene expression, indicating abnormal islet expansion preceding insulitis. Conclusions: Small intestinal inflammation paired with deficits in local immunoregulation parallels T1D development. CAMP represents a novel factor in T1D that could have several pleiotropic functions including regulation of commensal microbes, intestinal homeostasis, and pancreatic homeostasis. In addition, target tissue abnormalities precede insulitis and T1D. This research focused on the integrative biology of T1D pathogenesis in spontaneous rat models. This work provides a novel working model that incorporates key roles for gut lumen antigens, intestinal immunity, and the role of islets and altered regenerative capacity in T1D. This research could lead to new therapeutic opportunities for T1D treatment.

type 1 diabetes

pancreas

gastrointestinal tract

macrophages

innate immunity

adaptive immunity

cathelicidin

CD163

pancreatectomy

BBdp rat

diet

cereal

microbe

jejunum

islet

beta-cell

intra-epithelial lymphocyte

inflammation

environment

regulatory T cell