Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-dependent diabetes mellitus (IDDM) is generally believed to be an autoimmune disease resulting from T-cell dysfunction that produces beta-cell damage, but it is conceivable that some forms of IDDM are not immunologically mediated. The effect of the expression of a foreign transgenic MHC class I antigen (H-2Kb), restricted to pancreatic islet beta-cells, was tested in vitro and in nude (athymic) mice to determine whether beta-cell dysfunction was due to non-immune mechanisms. The models used clearly excluded immune involvement in beta-cell damage. Fetal pancreas from transgenic and littermate control mice was maintained in organ culture for up to 18 days and insulin secretion into the medium assessed. For the initial 3-4 days in vitro, fetal control and transgenic pancreas secreted similar amounts of insulin, but thereafter insulin secretion by the transgenic tissue decreased in comparison with the controls. When the cultured pancreas was transplanted into nude mice, the transgenic issue produced smaller grafts than the control pancreas, but there was wide variation in graft size. Expression of H-2Kb antigens in beta-cells of nude transgenic mice also resulted in early-onset diabetes. The insulin content in the pancreas of young H-2Kb transgenic euthymic mice, (previously shown not to have insulitis), was reduced but glucagon content was normal. The reduction in in vivo insulin production was similar chronologically to the reduced insulin production by transgenic islets in vitro. These data confirm the non-immune loss of beta-cell function in MHC-transgenic mice and they may be a model for atypical Type I diabetes.
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PMID:Inherent beta-cell dysfunction induced by transgenic expression of allogeneic major histocompatibility complex class I antigen in islet cells. 166 46

Effective fuel metabolism is dependent on balances among exogenous and endogenous fuel availability, the glucagon/insulin ratio, and tissue insulin sensitivity. Diabetes mellitus results when imbalances occur. The resultant metabolic derangement is accompanied by abnormalities in carbohydrate, protein, and fat metabolism. The two most common forms of diabetes are insulin dependent (IDDM) and noninsulin dependent (NIDDM). IDDM is an autoimmune disease, characterized by insulinopenia and ketosis. NIDDM is related to impaired insulin secretion, defective tissue sensitivity, and abnormalities in glucose transporter proteins. This article describes normal fuel metabolism and traces the abnormal metabolic processes that lead to both IDDM and NIDDM.
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PMID:Normal fuel metabolism and alterations in diabetes mellitus. 184 Sep 66

Diabetes mellitus not infrequently coexists with hypo- and hyperthyroidism. Hyperthyroidism aggravates glucose intolerance. A review of this phenomenon reveals multiple mechanisms, which include increased hexose intestinal absorption, decreased responsiveness to insulin, and increased glucose production. Conflicting results are obtained when circulating insulin level is measured in thyrotoxicosis. The role of glucagon and alpha-cell sensitivity is unclear. Diabetes mellitus influences the assessment of thyrotoxicosis by falsely decreasing the blood levels of thyroxine (T4) and triiodothyronine (T3) during severely uncontrolled hyperglycemia. Hypothyroidism is found in about 3% of patients with insulin-dependent diabetes mellitus (IDDM). Moreover, 13-20% of IDDM patients have elevated blood thyrotropin levels and anti-thyroid antibodies. Hypothyroidism per se seems to ameliorate hyperglycemia. A subtype of IDDM shares similar immunogenetic features with familial autoimmune thyroiditis. Studies of IDDM probands who show a high prevalence of circulating thyroid antibodies reveal the presence of such antibodies in their first-degree relatives. Circulating islet-cell antibodies, detected in a majority of IDDM patients at the onset of their disease, tend to persist only in those patients with coexistent polyendocrine autoimmune disease, including thyroiditis. Similar human leukocyte antigen (HLA) locus types are associated with thyroiditis and IDDM, namely HLA-Dr3 and -Dr4.
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PMID:Diabetes mellitus and thyroid disease. 640 Jul 13

Insulin antibodies (IA) are detectable in the sera of most insulin-treated patients with diabetes mellitus. Antibodies to exogenous insulin sometimes cause clinical symptoms of insulin resistance, allergy, and local lipoatrophy. Although the frequency of these complications has diminished with the use of highly purified porcine insulin or recombinant human insulin, there are some patients with high titer of IA. Autoantibodies to insulin (IAA) are also described. IAA has been reported to be in association with both insulin-dependent diabetes mellitus (IDDM) and polyendocrine autoimmune disease. For many years these antibodies have been measured by radiobinding assay (RBA) in which the complexes are precipitated non-specifically by polyethylene glycol. In the present study we developed a rapid and quantitative enzyme-linked immunosorbent assay (ELISA) method for measuring IA and IAA using recombinant human insulin antigen. We applied this method to the samples obtained from patients with diabetes mellitus and autoimmune thyroid disease and then compared the results with those obtained from the RBA method. The calibration curve for ELISA was derived from the dilution curve of a single serum from a patient positive for insulin antibody, and the results were expressed arbitrarily as ELISA UNIT. The calibration curve was approximately linear on the log-log scale within the range of 0.1-2.0 at optical density (OD)450nm, (6.25-200 ELISA UNIT). The intra-assay (CV = 2.3-3.1%) and inter-assay (CV = 2.8-7.2%) precisions were acceptable. Recovery rate varied from 74.5% to 118.5% and dilution experiments showed good linearity. Specificity was demonstrated by substituting purified human IgG for the test serum and glucagon for insulin. Except for hemoglobin, coexisting substances in serum had almost no effect on ELISA. The range of ELISA UNIT (Mean +/- SD) of 83 normal sera was 12.7 +/- 4.6. Positivity for IA by ELISA (> normal Mean + 3SD) was 11 out of 58 (19.0%) and 26 out of 55 (47.3%) in patients with IDDM and with non-insulin-dependent diabetes mellitus (NIDDM) who were treated with insulin, respectively. Positivity for IAA by ELISA was 5 out of 173 (2.8%) and 1 out of 20 (5.0%) in patients with NIDDM without insulin therapy and hyperthyroidism due to Graves' disease, respectively. However, by RBA, we detected 4 other cases positive for IAA in NIDDM without insulin therapy and one case in Graves' disease. The present study demonstrates that the newly developed method of ELISA using recombinant human insulin antigen is clinically useful for measuring IA and IAA.
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PMID:[The measurement of insulin antibodies and insulin autoantibodies by enzyme-linked immunosorbent assay using recombinant human insulin antigen and its clinical application]. 795 8

We report a 28-year-old young male with MELAS syndrome (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes) presenting with two previous episodes of stroke-like manifestation, lactic acidosis and mitochondrial cardiomyopathy. He was also affected with insulin-dependent diabetes mellitus (IDDM), as diagnosed by the experience of diabetic ketoacidosis (DKA), and dependence on insulin therapy. On admission, the serum lactate level was found to be increased to 5.4 mmol/l, and plasma glucose level to 7.9 mmol/l with haemoglobin A1c 8.4%, while he was using insulin 26-30 units per day. Physical examination revealed a short stature male of height of 150 cm and weight of 49 kg. Mild mental retardation with bilateral sensorineural hearing impairment was observed. After glucagon stimulation, C-peptide levels rose from 0.46 nmol/l to 0.53 nmol/l, indicative of impaired insulin secretion. Anti-glutamate decarboxylase (anti-GAD) antibody was positive. In addition, human leucocyte associated antigen (HLA) typing showed DR3 and DR4, suggesting the strong contribution of autoimmunity to the pathogenesis of IDDM in this patient. Moreover, the result of a treadmill exercise test was positive due to inferior wall myocardial ischaemia. Cardiac catheterization and endomyocardial biopsy disclosed a normal coronary angiogram and confirmed the diagnosis of mitochondrial cardiomyopathy. Molecular genetic analysis of his family revealed a sporadic occurrence of mitochondrial DNA (mtDNA) mutation at base pair (bp) 3243. The degree of heteroplasmy of mtDNA mutation from a total of 19 passages of skin-derived fibroblasts from this patient showed a slightly downward trend. This extremely rare case of sporadic MELAS syndrome with autoimmune IDDM harbouring mtDNA mutation highlights the possible pathogenetic role of mtDNA mutations in autoimmune disease.
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PMID:Autoimmune IDDM in a sporadic MELAS patient with mitochondrial tRNA(Leu(UUR)) mutation. 982 17

Right classification of diabetes is important clinical issue. The aim of present study was to compare clinical, biochemical and immunological features, to analyze their practical use and to establish new decision tree which make the distinction between diabetes type 1, LADA, diabetes type 2 and MODY. We studied 97 not obese (mean BMI 26.3 +/- 4.9 kg/m2) patients aged 14 to 70 years, mean age 43 +/- 11.7 years, 53 women, 44 men. Mean duration of diabetes--2.3 +/- 4.3 years. We measured basal and stimulated C-peptide (6 minutes after 1 mg i.v. glucagon) (ELISA) and antibodies titers to glutamic acid decarboxylase--antiGAD65, tyrosine phosphatase-like molecule--IA2 and insulin--IAA (RIA). Autoimmune diabetes (LADA, type 1) was diagnosed with presence of one or more islet antigen antibodies. The highest frequencies had anti-GAD antibodies 33/97 (34%). The most complicated was to sort out group of patients with LADA. Comparison between this group and patients with diabetes type 2 have shown that BMI, co-existence of autoimmune disease, autoimmune markers and basal and stimulated C-peptide level measured at entry for the classification were useful in differentiation. Moreover we observed significantly lower C-peptide basal, stimulated and over basal level in group with MODY diabetes in comparison to diabetes type 2 patients. In the studied group were 5 patients with diabetes type 2 and obesity, in relatively young age. At the end there was one case of ADM (atypical diabetes mellitus). Clinical criteria for the classification of diabetes not always correlated with diagnosis. Autoimmune markers, basal and stimulated C-peptide were useful specially in differentiation between LADA and diabetes type 2 or diabetes type 1. Autoimmune diabetes co-existe with autoimmune disease. Proposed diagnostic scheme take for consideration presence of autoantibodies as well as C-peptide criteria.
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PMID:[Clinical, biochemical and immunological characteristic of diabetes type I, LADA, diabetes type II, and MODY patients]. 1268 30

Latent autoimmune diabetes in adults or type 1.5 diabetes is considered to be a T-cell-mediated autoimmune disease. However, identification of patients is based commonly on autoantibody (Ab) detection. To determine whether measuring T-cell reactivity to islet proteins compared with measuring Abs improves detection of autoimmune diabetes and how beta-cell function correlates with T-cell reactivity compared with Ab positivity, we assessed the T-cell proliferative responses and Ab responses (islet cell autoantibodies, insulin autoantibodies, insulinoma-associated protein-2 autoantibodies, and GAD Abs) to islet proteins of 36 phenotypic type 2 diabetic patients. To be considered Ab(+) or T-cell(+), patients were required to be positive for a minimum of two consecutive time points. beta-Cell function was measured with fasting and glucagon-stimulated C-peptide. Independent of T-cell reactivity, Ab(+) and Ab(-) patients had comparable fasting and glucagon-stimulated C-peptide. Independent of Ab status, T-cell(+) patients demonstrated significantly lower glucagon-stimulated (P < 0.003) C-peptide compared with T-cell(-) patients. These data suggest that measuring T-cell responses to multiple islet proteins in phenotypic type 2 diabetic patients improves identification of patients with autoimmune diabetes and delineates those who have a more severe beta-cell lesion compared with Ab assessment alone.
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PMID:T-cell responses to islet antigens improves detection of autoimmune diabetes and identifies patients with more severe beta-cell lesions in phenotypic type 2 diabetes. 1747 22

Diabetes mellitus type 1 is an autoimmune disease with a genetic predisposition that is triggered by environmental factors during early life. Epidemiological studies show that bisphenol A (BPA), an endocrine disruptor, has been detected in about 90% of all analyzed human urine samples. In this study, BPA was found to increase the severity of insulitis and the incidence of diabetes in female non obese diabetic (NOD) mice offspring after transmaternal exposure through the dams' drinking water (0, 0.1, 1, and 10mg/l). Both the severity of insulitis in the pancreatic islets at 11 weeks of age and the diabetes prevalence at 20 weeks were significantly increased for female offspring in the highest exposure group compared to the control group. Increased numbers of apoptotic cells, a reduction in tissue resident macrophages and an increase in regulatory T cells were observed in islets prior to insulitis development in transmaternally exposed offspring. The detectable apoptotic cells were identified as mostly glucagon producing alpha-cells but also tissue resident macrophages and beta-cells. In the local (pancreatic) lymph node neither regulatory T cell nor NKT cell populations were affected by maternal BPA exposure. Maternal BPA exposure may have induced systemic immune changes in offspring, as evidenced by alterations in LPS- and ConA-induced cytokine secretion in splenocytes. In conclusion, transmaternal BPA exposure, in utero and through lactation, accelerated the spontaneous diabetes development in NOD mice. This acceleration appeared to be related to early life modulatory effects on the immune system, resulting in adverse effects later in life.
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PMID:Transmaternal bisphenol A exposure accelerates diabetes type 1 development in NOD mice. 2418 31

Type-1 diabetes (T1D) is an autoimmune disease targeting insulin-producing beta cells, resulting in dependence on exogenous insulin. To date, significant efforts have been invested to develop immune-modulatory therapies for T1D treatment. Previously, IL-2 immunotherapy was demonstrated to prevent and reverse T1D at onset in the non-obese diabetic (NOD) mouse model, revealing potential as a therapy in early disease stage in humans. In the NOD model, IL-2 deficiency contributes to a loss of regulatory T cell function. This deficiency can be augmented with IL-2 or antibody bound to IL-2 (Ab/IL-2) therapy, resulting in regulatory T cell expansion and potentiation. However, an understanding of the mechanism by which reconstituted regulatory T cell function allows for reversal of diabetes after onset is not clearly understood. Here, we describe that Ab/IL-2 immunotherapy treatment, given at the time of diabetes onset in NOD mice, not only correlated with reversal of diabetes and expansion of Treg cells, but also demonstrated the ability to significantly increase beta cell proliferation. Proliferation appeared specific to Ab/IL-2 immunotherapy, as anti-CD3 therapy did not have a similar effect. Furthermore, to assess the effect of Ab/IL-2 immunotherapy well after the development of diabetes, we tested the effect of delaying treatment for 4 weeks after diabetes onset, when beta cells were virtually absent. At this late stage after diabetes onset, Ab/IL-2 treatment was not sufficient to reverse hyperglycemia. However, it did promote survival in the absence of exogenous insulin. Proliferation of beta cells could not account for this improvement as few beta cells remained. Rather, abnormal insulin and glucagon dual-expressing cells were the only insulin-expressing cells observed in islets from mice with established disease. Thus, these data suggest that in diabetic NOD mice, beta cells have an innate capacity for regeneration both early and late in disease, which is revealed through IL-2 immunotherapy.
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PMID:IL-2 immunotherapy reveals potential for innate beta cell regeneration in the non-obese diabetic mouse model of autoimmune diabetes. 2420 42

Glucagon-like peptide-1 (GLP-1) agonists are a class of drugs used for the treatment of type 2 diabetes mellitus. GLP-1 is released in response to meal intake; these classes of drugs enhance glucose-dependent insulin secretion and exhibit other antihyperglycemic effects following their release into the circulation from the gut. Psoriasis is a chronic skin condition affecting approximately 2% of the Western population. It is considered to be an autoimmune disease that involves the Th1 pathway and is associated with metabolic syndrome and its components, such as obesity, diabetes, and hypertension. We have reviewed reports in the literature that indicate a beneficial anti-inflammatory effect of GLP-1 in patients with diabetes or who have insulin resistance and psoriasis.
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PMID:Effect of glucagon-like peptide-1 receptor agonists in patients with psoriasis. 2515 10


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