24 research outputs found
Immunologiska studier av modellsjukdomar i människa och hund
The studies presented in this thesis focus on human and canine models for autoimmune disease, with the main aim to gain new knowledge about disease mechanisms and to further evaluate the dog as a model for autoimmune disease. Autoimmune Polyendocrine Syndrome type 1 (APS-1) is a hereditary human multiorgan disease caused by mutations in the autoimmune regulator (AIRE) gene. Hallmarks of APS-1 are chronic mucocutaneous candidiasis caused by Candida albicans, together with the autoimmune endocrine disorders hypoparathyroidism and adrenocortical failure. Many human diseases have an equivalent disease in dogs. Because humans share environment, and in part life style with the dogs they provide an interesting model for further genetic studies. Immune responses to Candida albicans in APS-1 patients displayed an increased secretion of the proinflammatory cytokine IL-17A and similar results were also found in AIRE deficient mice. Anticytokine autoantibodies to IL-17A, IL-17F and IL-22 were detected in APS-1 patients, and a radioligand binding assay for measuring these autoantibodies was developed and evaluated. In the canine studies we investigated whether canine diabetes mellitus could serve as a model for human autoimmune diabetes mellitus. Furthermore, we investigated type I IFN responses in Nova Scotia duck tolling retriever dogs with a systemic autoimmune disease resembling human SLE. Four assays were used in search for signs of humoral autoimmunity in diabetic dogs. However, no evidence for a type 1 diabetes-like phenotype in dogs was found. Sera from Nova Scotia duck tolling retrievers suffering from steroid-responsive meningitis arteritis elicited an increased expression of IFN-inducible genes in the canine MDCK cell line. This suggests that these dogs have an IFN signature, as seen in human SLE
Immunologiska studier av modellsjukdomar i människa och hund
The studies presented in this thesis focus on human and canine models for autoimmune disease, with the main aim to gain new knowledge about disease mechanisms and to further evaluate the dog as a model for autoimmune disease. Autoimmune Polyendocrine Syndrome type 1 (APS-1) is a hereditary human multiorgan disease caused by mutations in the autoimmune regulator (AIRE) gene. Hallmarks of APS-1 are chronic mucocutaneous candidiasis caused by Candida albicans, together with the autoimmune endocrine disorders hypoparathyroidism and adrenocortical failure. Many human diseases have an equivalent disease in dogs. Because humans share environment, and in part life style with the dogs they provide an interesting model for further genetic studies. Immune responses to Candida albicans in APS-1 patients displayed an increased secretion of the proinflammatory cytokine IL-17A and similar results were also found in AIRE deficient mice. Anticytokine autoantibodies to IL-17A, IL-17F and IL-22 were detected in APS-1 patients, and a radioligand binding assay for measuring these autoantibodies was developed and evaluated. In the canine studies we investigated whether canine diabetes mellitus could serve as a model for human autoimmune diabetes mellitus. Furthermore, we investigated type I IFN responses in Nova Scotia duck tolling retriever dogs with a systemic autoimmune disease resembling human SLE. Four assays were used in search for signs of humoral autoimmunity in diabetic dogs. However, no evidence for a type 1 diabetes-like phenotype in dogs was found. Sera from Nova Scotia duck tolling retrievers suffering from steroid-responsive meningitis arteritis elicited an increased expression of IFN-inducible genes in the canine MDCK cell line. This suggests that these dogs have an IFN signature, as seen in human SLE
Immunologiska studier av modellsjukdomar i människa och hund
The studies presented in this thesis focus on human and canine models for autoimmune disease, with the main aim to gain new knowledge about disease mechanisms and to further evaluate the dog as a model for autoimmune disease. Autoimmune Polyendocrine Syndrome type 1 (APS-1) is a hereditary human multiorgan disease caused by mutations in the autoimmune regulator (AIRE) gene. Hallmarks of APS-1 are chronic mucocutaneous candidiasis caused by Candida albicans, together with the autoimmune endocrine disorders hypoparathyroidism and adrenocortical failure. Many human diseases have an equivalent disease in dogs. Because humans share environment, and in part life style with the dogs they provide an interesting model for further genetic studies. Immune responses to Candida albicans in APS-1 patients displayed an increased secretion of the proinflammatory cytokine IL-17A and similar results were also found in AIRE deficient mice. Anticytokine autoantibodies to IL-17A, IL-17F and IL-22 were detected in APS-1 patients, and a radioligand binding assay for measuring these autoantibodies was developed and evaluated. In the canine studies we investigated whether canine diabetes mellitus could serve as a model for human autoimmune diabetes mellitus. Furthermore, we investigated type I IFN responses in Nova Scotia duck tolling retriever dogs with a systemic autoimmune disease resembling human SLE. Four assays were used in search for signs of humoral autoimmunity in diabetic dogs. However, no evidence for a type 1 diabetes-like phenotype in dogs was found. Sera from Nova Scotia duck tolling retrievers suffering from steroid-responsive meningitis arteritis elicited an increased expression of IFN-inducible genes in the canine MDCK cell line. This suggests that these dogs have an IFN signature, as seen in human SLE
Diabetes Mellitus in Elkhounds Is Associated with Diestrus and Pregnancy
Background: Female Elkhounds are shown to be at increased risk for diabetes mellitus, and occurrence of diabetes during pregnancy has been described in several cases. Hypothesis: Onset of diabetes mellitus in Elkhounds is associated with diestrus. Animals: Sixty-three Elkhounds with diabetes mellitus and 26 healthy controls. Methods: Medical records from 63 Elkhounds with diabetes were reviewed and owners were contacted for follow-up information. Blood samples from the day of diagnosis were available for 26 dogs. Glucose, fructosamine, C-peptide, growth hormone (GH), insulin-like growth factor-1, progesterone, and glutamate decarboxylase isoform 65-autoantibodies were analyzed and compared with 26 healthy dogs. Logistic models were used to evaluate the association of clinical variables with the probability of diabetes and with permanent diabetes mellitus after ovariohysterectomy (OHE). Results: All dogs in the study were intact females and 7 dogs (11%) were pregnant at diagnosis. The 1st clinical signs of diabetes mellitus occurred at a median of 30 days (interquartile range [IQR], 3-45) after estrus, and diagnosis was made at a median of 46 days (IQR, 27-62) after estrus. Diabetes was associated with higher concentrations of GH and lower concentrations of progesterone compared with controls matched for time after estrus. Forty-six percent of dogs that underwent OHE recovered from diabetes with a lower probability of remission in dogs with higher glucose concentrations (odds ratio [OR], 1.2; P = .03) at diagnosis and longer time (weeks) from diagnosis to surgery (OR, 1.5; P = .05). Conclusions: Diabetes mellitus in Elkhounds develops mainly during diestrus and pregnancy. Immediate OHE improves the prognosis for remission of diabetes
Практикум по анатомии человека. Нервная система. Органы чувств. Эндокринные железы
УЧЕБНЫЕ ПОСОБИЯПРАКТИКУМЫАНАТОМИЯНЕРВНАЯ СИСТЕМА /АНАТОМИЯ И ГИСТОЛОГИЯЭНДОКРИННЫЕ ЖЕЛЕЗЫ /АНАТОМИЯ И ГИСТОЛОГИЯОРГАНЫ ЧУВСТВ /АНАТОМИЯ И ГИСТОЛОГИЯМОЗГ СПИННОЙ /АНАТОМИЯ И ГИСТОЛОГИЯМОЗГ РОМБОВИДНЫЙ /АНАТОМИЯ И ГИСТОЛОГИЯМОЗГ СРЕДНИЙ /АНАТОМИЯ И ГИСТОЛОГИЯМОЗГ ПРОМЕЖУТОЧНЫЙ /АНАТОМИЯ И ГИСТОЛОГИЯМОЗГ КОНЕЧНЫЙ /АНАТОМИЯ И ГИСТОЛОГИЯПРОВОДЯЩИЕ ПУТИ /АНАТОМИЯ И ГИСТОЛОГИЯНЕРВНАЯ СИСТЕМА ВЕГЕТАТИВНАЯ /АНАТОМИЯ И ГИСТОЛОГИЯСПИННОМОЗГОВЫЕ НЕРВЫ /АНАТОМИЯ И ГИСТОЛОГИЯПЛЕЧЕВОЕ СПЛЕТЕНИЕ /АНАТОМИЯ И ГИСТОЛОГИЯПОЯСНИЧНО-КРЕСТЦОВОЕ СПЛЕТЕНИЕ /АНАТОМИЯ И ГИСТОЛОГИЯШЕЙНОЕ СПЛЕТЕНИЕ /АНАТОМИЯ И ГИСТОЛОГИЯПрактикум включает цели, мотивационную характеристику изучения темы, методические рекомендации, дополнительную информацию, контрольные тестовые вопросы, клинически ориентированные ситуационные задачи, направленные на оптимизацию изучения анатомии нервной системы, органов чувств, эндокринных желез человека. Экзаменационные вопросы по представленным в практикуме разделам нацеливают студента на необходимый уровень требований и конечный результат изучения дисциплины. Подготовлен в соответствии с программой по анатомии человека для студентов высших медицинских учебных заведений, обучающихся по специальности "Лечебное дело", дополняет учебник и атлас по анатомии человека
Measuring autoantibodies against IL17F and IL-22 in autoimmune polyendocrine syndromme type I by radioligand binding assay using fusion proteins
Autoantibodies against interleukin (IL)-17A, IL-17F and IL-22 have recently been described in patients with autoimmune polyendocrine syndrome type I (APS I), and their presence is reported to be highly correlated with chronic mucocutaneous candidiasis (CMC). The aim of this study was to develop a robust high-throughput radioligand binding assays (RLBA) measuring IL-17F and IL-22 antibodies, to compare them with current enzyme-linked immunosorbent assays (ELISA) of IL-17F and IL-22 and, moreover, to correlate the presence of these antibodies with the presence of CMC. Interleukins are small molecules, which makes them difficult to express in vitro. To overcome this problem, they were fused as dimers, which proved to increase the efficiency of expression. A total of five RLBAs were developed based on IL-17F and IL-22 monomers and homo- or heterodimers. Analysing the presence of these autoantibodies in 25 Norwegian APS I patients revealed that the different RLBAs detected anti-IL-17F and anti-IL-22 with high specificity, using both homo- and heterodimers. The RLBAs based on dimer proteins are highly reproducible with low inter- and intravariation and have the advantages of high throughput and easy standardization compared to ELISA, thus proving excellent choices for the screening of IL-17F and IL-22 autoantibodies