Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Whether there is a diabetic osteopathy" or osteopathy in diabetes mellitus", is still unclear. Epidemiological studies show in part discrepant results: bone mass was diminished in some studies, unchanged in others--even more positive trends were reported. Increases in osteoporotic fractures were observed in smaller collectives whereas no general trends for fracturing bones were found in diabetics. There are many in part favouring, in part impairing factors to be taken into consideration: Diabetes mellitus type I is a disease including immune phenomena. As inflammation leads to bone loss (inflammation-mediated osteopenia = IMO), peak bone mass may be influenced by such a process. The lack of insulin-like growth factors may be decisive, too. Complications of diabetes mellitus include hypogonadism--this may be disadvantageous for the skeleton. Diabetic complications like retinopathy, neuropathy, and angiopathy may influence the fracture event independently from bone mass. On the other hand, diabetes mellitus type II may be somehow protected against bone loss: Increased adipose tissue in connection with the frequently seen overweight yields metabolically active steroid hormones, insulin related growth factors may stimulate bone formation (e.g. in Forestier's disease). Older diabetics do not show diminished life expectancy any more due to their regular medical care--whether this includes the risk of bone diseases, is not yet clear. It may be worth to further analyse these "positive" effects seen in bones of type II diabetics because they may be useful in osteoporosis even in non-diabetics.
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PMID:Diabetes mellitus and bone metabolism. 149 Jul

A 57-year-old white man manifested adrenal insufficiency, insulin-dependent diabetes mellitus reflected by diabetic ketosis, primary hypothyroidism, and primary hypogonadism on rapid withdrawal of glucocorticoid therapy of several years' duration for rheumatoid arthritis. Resumption and continuation of glucocorticoid therapy for six months resulted in remission of type I diabetes mellitus and hypogonadism, and a euthyroid state was achieved by replacement therapy with L-thyroxine.
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PMID:Onset of type I diabetes mellitus, hypothyroidism, and hypogonadism on withdrawal of glucocorticoid therapy and remission on its resumption in a patient with rheumatoid arthritis. 394 47

The most compelling case for autoimmune mediated hypogonadism occurs when ovarian failure is part of an autoimmune polyglandular syndrome (APS). In patients with the rare, recessively inherited type 1 APS (APS-1), characterized by the triad of chronic mucocutaneous moniliasis, hypoparathyroidism, and Addison's disease, primary amenorrhea (elevated pituitary gonadotropins) or oligomenorrhea and infertility are constant features. Ovarian failure is associated with autoantibodies to steroid hormone secreting cells in the adrenal cortex, Leydig cells of the testes, granulosa/thecal cells of the Graffian follicles, corpus luteum, and the syncytiotrophoblast of the placenta. These autoantibodies react with 3 P450 enzymes involved with steroidogenesis, namely, 21-hydroxylase (adrenal specific), 17 alpha-hydroxylase, and the side chain cleavage enzyme. Recently the 14 exon, APS-1 (autoimmune regulator or AIRE) gene has been cloned (chr. 21p22.3), and multiple mutants discovered. Parents who are obligatory heterozygotes for a single mutant gene lack clinical features of APS-1. They also do not develop APS-1 autoantibodies. Thus, hypogonadal patients without features of APS-1 are unlikely to have AIRE gene mutations. In the more common APS-2/3, characterized by combinations of autoimmune thyroid disease, immune mediated type 1 diabetes, vitiligo, pernicious anemia, and Addison's disease (type 2, not type 3), ovarian disease may be seen. In primary hypogonadism outside of the context of an APS, these autoantibodies are rare.
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PMID:Autoimmune hypogonadism as part of an autoimmune polyglandular syndrome. 1122 74

Several issues should be addressed when managing women with Turner's syndrome. Female sex hormone substitution should be offered to help prevent the increased morbidity seen in Turner's women, which consists of an increased risk of fractures and osteoporosis, and a clustering of diseases such as ischaemic heart disease, hypertension, stroke and type 2 diabetes, the latter entities being part of the insulin resistance syndrome. Furthermore, hypothyroidism is often seen, and the risk of type 1 diabetes may also be increased. Congenital malformations of the heart are frequently seen in Turner's syndrome, possibly increasing the risk of dissecting aorta aneurysm. Liver enzymes are often elevated and there may be an increased risk of liver cirrhosis. Mortality seems to be increased in Turner's syndrome, women with the "pure" 45,X karyotype being the most severely affected. In clinical practice, careful monitoring of glucose and bone metabolism, weight, thyroid function and blood pressure should be carried out. A cardiovascular risk profile should be determined and the patient informed of the risks and benefits of sex hormone replacement therapy. Sex hormone replacement therapy is highly recommended, although at present there are no longitudinal data documenting the long-term positive effect of sex steroid substitution. However, hypogonadism is expected to explain at least part of the decreased lifespan found in Turner's syndrome. Since general physicians only encounter these patients infrequently, it is recommended that the care and treatment of Turner's syndrome be centralized.
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PMID:Medical problems of adult Turner's syndrome. 1178 85

Polyglandular autoimmune syndromes (PAS) are rare polyendocrinopathies characterized by the failure of several endocrine glands as well as nonendocrine organs, caused by an immune-mediated destruction of endocrine tissues. This article summarizes extensive clinical, epidemiological, serological, and genetic data of a large collective of patients with PAS (n = 360). Since 1988, more than 15,000 adult patients with endocrine diseases have been screened at the endocrine center of the Mainz University, and 151 of 360 patients with PAS have regularly been followed. Type 1 diabetes, Graves' disease, Hashimoto thyroiditis, Addison's disease, vitiligo, alopecia, hypogonadism, and pernicious anemia were observed in 61%, 33%, 33%, 19%, 20%, 6%, 5%, and 5%, respectively. The most common disease combination was type 1 diabetes and autoimmune thyroid disease. In most patients, type 1 diabetes was the first manifestation of PAS (48%). The longest time intervals between manifestations of the first and second immune endocrinopathies occurred between type 1 diabetes and thyroid disease (13.3 +/- 11.8 yr) and between vitiligo and thyroid disease (16.3 +/- 13.3 yr), but a shorter time interval was observed between Addison's and thyroid diseases. Of the 471 patients with type 1 diabetes screened, 83 (17.6%) were positive for PAS. Subsequently, sera of 126 patients with PAS, 287 with type 1 diabetes, and 303 matched controls were compared for human leukocyte antigens. Patients with PAS had significantly higher frequencies of the human leukocyte antigens A24, A31, B8, B51, B62, DR3, and DR4 (relative risk, 2.35, 2.74, 2.47, 7.17, 2.22, 1.94, and 2.46) vs. controls, and for A31, B15, B52, B55, DR2, DR11, and DR13 (relative risk, 2.51, 7.96, 3.99, 5.36, 4.46, 2.89, and 3.26) vs. type 1 diabetes patients without PAS. In conclusion, patients with autoimmune endocrine disease should be followed on a regular basis. In subjects at risk for PAS, functional screening every 3 yr is warranted. If clinical disease is present, serological measurement of organ-specific antibodies should follow.
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PMID:Polyglandular autoimmune syndromes: immunogenetics and long-term follow-up. 1284 30

Autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy (APECED) is caused by mutations in the autoimmune regulator (AIRE) gene, which has a central function in maintaining immunological tolerance. A number of conditions with proven or likely autoimmune pathogenesis occur in APECED: hypoparathyroidism, adrenocortical insufficency, candidiasis, hypogonadism, type 1 diabetes, hypothyroidism, hypophysitis, hepatitis, malabsorption, nail dystrophy, enamel hypoplasia and keratopathy. It is not clear which factors are responsible for variation in clinical picture of APECED, but human leukocyte antigen (HLA) genotype may be important. The authors report the first description of a case of primary pulmonary hypertension (PPH) in patient with APECED, caused by R257X mutation in AIRE. The HLA genotype of the patient (DRB1*01/DRB1*11, DQB1*0301/DQB1*0501) has been previously reported as a predisposing factor to PPH. The findings from this study, provided that other similar cases are reported, suggest that immune deregulation plays a role in the pathogenesis of primary pulmonary hypertension.
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PMID:Fatal primary pulmonary hypertension in a 30-yr-old female with APECED syndrome. 1458 26

The occurrence of both autoimmune endocrinopathies and endocrinopathies caused by other reasons is called polyglandular autoimmune syndrome (PAS-syndrome). In a 34 years old man with weakness, weight loss and erectile dysfunction we found low cortisol caused by an autoimmune adrenalitis and low testosterone caused by a hypophysitis with impaired gonadotropin secretion. Thyroid autoantibodies and islet cell autoantibodies without any hormone deficiencies were further signs of a broad endocrine autoimmune syndrome. In the following 11 years the patient developed three autoimmune disorders: paradrenal glandular insufficiency, hypogonadism caused by hypophysitis, Diabetes mellitus type 1. In the same time several non endocrine autoimmune diseases became manifest: alopecia totalis, vitiligo, retrobulbar neuritis and keratoconjunctivitis.
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PMID:[Alopecia totalis, hypotension and erectile dysfunction in a 34 year old patient. Difficult clarification of a common cause]. 1580 Jul 77

Two hundred and seventy-three patients with thalassaemia major (TM) were followed in the Ferrara Thalassaemia Centre over a thirty-year period. Forty-two patients had insulin dependent diabetes mellitus (IDDM). The first case was diagnosed in 1973. The incidence of IDDM peaked in 1986 (3.9%), and it was 0.7% at the time of the study (March 1998). The prevalence of IDDM increased progressively over time, reaching 14.2% in 1998. Mean age at diagnosis of IDDM was 18.2 -/+ 3.6 years and this also rose significantly during the study period (p<0.01). Hypogonadism was present in 91% of patients with IDDM, hypothyroidism in 68%, hypoparathyroidism in 21%, and cardiopathy in 69%, all significantly more prevalent than in patients without IDDM. These complications appeared with the same frequency before and after the diagnosis of IDDM. Survival of patients with and without IDDM was similar and no difference in the primary cause of death was found between the two groups. Main risk factors associated with IDDM were poor compliance with desferioxamine (DFO) treatment (p<0.05%), advanced age at the start of intensive chelation therapy (p<0.001), liver cirrhosis or severe fibrosis (p<0.0001, odds ratio 9.5, CI 95% 2.8-32.6). Prevalence of impaired glucose tolerance (IGT) was highest in 1981, 1984, and 1985 when the incidence of IDDM was increasing; in 1995 the prevalence of IGT in patients aged 16-20 years was lower in comparison with that observed in 1975 (17% vs. 59%, p<0.01). Risk factors associated with IGT were: male sex (p<0.05), poor compliance with DFO therapy (p<0.05) and liver iron concentration 4 times above the normal value. In conclusion, our longitudinal study confirms that the incidence of IDDM and prevalence of IGT have been decreasing over the course of the last decade, appearing at a more advanced age, although some differences have not reached statistical significance. Iron overload and liver disease were the main associated risk factors, while positive family history for diabetes did not influence glucose metabolism in our patients.
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PMID:Diabetes mellitus and impaired glucose tolerance in thalassaemia major: incidence, prevalence, risk factors and survival in patients followed in the Ferrara Center. 1646 13

Hypogonadotropism is a common feature of uncontrolled diabetes, for which the ultimate mechanism remains to be elucidated. Kisspeptins, ligands of G protein-coupled receptor 54 (GPR54) encoded by the KiSS-1 gene, have recently emerged as major gatekeepers of the gonadotropic axis. Alteration in the hypothalamic KiSS-1 system has been reported in adverse metabolic conditions linked to suppressed gonadotropins, such as undernutrition. However, its potential contribution to defective gonadotropin secretion in diabetes has not been evaluated. We report herein analyses of luteinizing hormone (LH) responses to kisspeptin and hypothalamic expression of the KiSS-1 gene in streptozotocin (STZ)-induced diabetic male rats. In addition, functional studies involving kisspeptin replacement or continuous administration of leptin and insulin to diabetic male rats are presented. Kisspeptin administration evoked robust LH and testosterone bursts and enhanced postgonadectomy LH concentrations, despite prevailing attenuation of gonadotropic axis in diabetic animals. In addition, hypothalamic KiSS-1 mRNA levels were unambiguously decreased in diabetic male rats, and the postorchidectomy rise in KiSS-1 mRNA was severely blunted. Repeated administration of kisspeptin to diabetic rats evoked persistent LH and testosterone responses and partially rescued prostate and testis weights. In addition, central infusion of leptin, but not insulin, was sufficient to normalize hypothalamic KiSS-1 mRNA levels, as well as LH and testosterone concentrations. In summary, we provide evidence for altered expression of the hypothalamic KiSS-1 system in a model of uncontrolled diabetes. This observation, together with the ability of exogenous kisspeptin to rescue defective LH responses in diabetic rats, unravel the physiopathological implication, and potential therapeutic intervention, of the KiSS-1 system in altered gonadotropin secretion of type 1 diabetes.
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PMID:Expression of hypothalamic KiSS-1 system and rescue of defective gonadotropic responses by kisspeptin in streptozotocin-induced diabetic male rats. 1693 10

Recent work shows a high prevalence of low testosterone and inappropriately low luteinizing hormone (LH) and follicle stimulating hormone (FSH) concentrations in type 2 diabetes. This syndrome of hypogonadotrophic hypogonadism (HH) is associated with obesity in patients with type 2 diabetes. However, the duration of diabetes or HbA1c are not related to HH. Furthermore, recent data show that HH is not associated with type 1 diabetes. C-reactive protein concentrations have been shown to be elevated in patients with HH and are inversely related to plasma testosterone concentrations. This inverse relationship between plasma free testosterone and C- reactive protein concentrations in patients with type 2 diabetes suggests that inflammation may play an important role in the pathogenesis of this syndrome. This is of interest since inflammatory mechanisms may have a cardinal role in the pathogenesis of insulin resistance. It is also relevant that in the mouse, deletion of the insulin receptor in neurons leads to HH in addition to a state of systemic insulin resistance. It has also been shown that insulin facilitates the secretion of gonadotrophin releasing hormone (GnRH) from neuronal cell cultures. Thus, HH may be the result of insulin resistance at the level of the GnRH secreting neuron. Low testosterone concentrations are also related to an increase in total and regional adiposity. This review discusses these issues and attempts to make the syndrome relevant as a clinical entity. Clinical trials are required to determine whether testosterone replacement alleviates insulin resistance and inflammation. In addition, low testosterone levels are associated with an increase in cardiovascular events. Testosterone therapy may therefore, reduce cardiovascular risk. This important aspect requires further investigation.
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PMID:Hypogonadotrophic hypogonadism in type 2 diabetes. 1882 Dec 86


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