Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report a 36-year-old man with proximal dominant muscle weakness, thymic tumor, diabetes mellitus, hypokalemia, and increased levels of plasma ACTH and cortisol. The diagnosis of carcinoid tumor was made on the basis of pathological findings in the biopsied specimen of the thymic tumor. The proximal muscle weakness was considered to be due to steroid myopathy resulting from the overproduction of cortisol from the adrenal glands induced by the ectopic ACTH secreted by the thymic carcinoid tumor. Although thymoma in frequently associated with myasthenia gravis, we should also consider carcinoid tumors in patients with a thymic tumor presenting with a proximal muscle weakness.
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PMID:[A patient with an ACTH-releasing thymic carcinoid tumor presenting with proximal muscle weakness]. 959 30

The pertinent literature on the prevalence, clinical manifestations and pathogenic mechanisms of sleep apnoea (SA) in endocrine diseases, namely acromegaly, Cushing syndrome, hypothyroidism and diabetes mellitus was reviewed. An increased prevalence is well documented in patients with active and treated acromegaly. While most authors report peripheral obstruction, due to hypertrophy of tongue and pharyngeal tissues, to be the cause of SA in acromegaly, some findings argue for a role of hormone-induced changes of central respiratory control. SA is also more common in hypothyroidism, especially when myxedema is present. The associated edema and myopathy appear to be of pathogenic importance. Thyroxin substitution is frequently effective for the treatment of SA but nCPAP can be necessary initially and in some patients even after remission of clinical signs of hypothyroidism. In Cushing disease and syndrome, parapharyngeal fat accumulation can cause SA, but no epidemiological information is available. In non insulin dependent diabetes (NIDDM), obesity is the common risk factor for both, nocturnal hypoxia and insulin resistance. In IDDM, the development of autonomic neuropathy may predispose to SA. Where treatment of the underlying endocrine disease is unable cure the associated SA, nCPAP is usually the treatment of first choice. More prospective studies are clearly needed to establish prevalences and resolve the controversies regarding pathogenesis.
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PMID:Sleep apnoea in endocrine diseases. 961 23

This study examined the changes in PKC isozyme activity, content, and cellular distribution in rat gastrocnemius and soleus muscles prior to any evidence of neural degeneration or impaired skeletal muscle function, during the onset of streptozocin-induced (STZ) and genetic diabetes mellitus (DM). PKC activity was increased more in the particulate than in the soluble fractions of the soleus and gastrocnemius muscles obtained from rats treated with STZ and the gastrocnemius muscle obtained from BB-Wor diabetic rats (D rats). The predominant constitutive PKC isozymes in the skeletal muscles obtained from the STZ-treated and D rats were PKCalpha >> PKCepsilon > PKCdelta as determined by Western immunoblot assay. The content of each PKC isozyme did not differ between the soleus and gastrocnemius muscles of the control Sprague-Dawley rats for the STZ-treated rats and the BB Wor diabetic resistant (DR) rats. Moreover, the PKC isozyme content did not differ in the soluble fraction of D or STZ rats when compared to their corresponding control animals. PKCdelta increased more than PKCalpha or PKCepsilon in the particulate fraction of gastrocnemius and soleus muscles when obtained from either D or STZ rats. Since similar changes in skeletal muscle PKC isozyme profiles occurred independent of the duration of the diabetes and thereby the degree of nerve degeneration, insulin resistance, and the model of DM tested, we conclude that changes in skeletal muscle PKC precede the skeletal muscle myopathy of DM.
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PMID:Protein kinase C isozymes in skeletal muscles during the early stage of genetic and streptozocin diabetes. 971 84

The A-to-G mutation at position 8344 in the transfer RNAlysine mitochondrial DNA gene is associated mostly with the myoclonic epilepsy and ragged red fibers syndrome. We describe a five-generation family with this mutation and 19 affected members with a variant neurologic syndrome of ataxia, myopathy, hearing loss, and neuropathy. Along with axial lipomas and diabetes mellitus, hypertension is a frequent somatic feature, suggesting that mitochondrial mutations may contribute to hypertension in these patients.
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PMID:Expanding the phenotype of the 8344 transfer RNAlysine mitochondrial DNA mutation. 981 78

The serum pyruvate and lactate levels were studied after exercise on a bicycle ergometer in a family of diabetes mellitus (DM) associated with a mutation at nucleotide 3243 in the mitochondrial gene. A 56-year-old Japanese woman with the mutation at a percentage of 5% in the blood had insulin-dependent DM and sensory hearing loss without muscle symptoms. Her serum lactate and pyruvate levels increased markedly during and after exercise on a bicycle ergometer. Two of her sons were found to have the same mutation at a percentage of 17% and 18%, respectively. Her 26-year-old son was found to have borderline DM after oral glucose loading, although he showed no abnormalities of the metabolism of pyruvate and lactate. Her 31-year-old son showed no abnormalities after oral glucose loading and after exercise on a bicycle ergometer. Although the same mutation causes more severe MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes), little is known about whether these diabetic patients are subclinically involved with myopathy. The noninvasive ergometer exercise with determination of serum pyruvate and lactate may be useful in evaluating the severity of myopathy in these patients.
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PMID:[Exercises on a bicycle ergometer in a family of diabetes mellitus associated with a mutation of mitochondrial DNA]. 986 17

Virtually all cells in humans depend on mitochondrial oxidative phosphorylation to generate energy, accounting for the remarkable diversity of clinical disorders associated with mitochondrial DNA mutations. However, certain tissues are particularly susceptible to mitochondrial dysfunction, resulting in recognizable clinical syndromes. Mitochondrial DNA mutations have been linked to seizures, strokes, optic atrophy, neuropathy, myopathy, cardiomyopathy, sensorineural hearing loss, diabetes mellitus, and other clinical features. Mitochondrial DNA mutations also may play an important role in aging, as well as in common age-related neurodegenerative disorders such as Parkinson's disease. Therefore, it is becoming increasingly important for clinicians to recognize the clinical syndromes suggestive of a mitochondrial disorder, and to understand the unique features of mitochondrial genetics that complicate diagnosis and genetic counseling.
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PMID:Mitochondrial disorders: clinical and genetic features. 1007 67

When whole body insulin-stimulated glucose disposal rate is measured in man applying the euglycaemic, hyperinsulinaemic clamp technique it has been shown that approximately 75% of glucose is taken up by skeletal muscle. After the initial transport step, glucose is rapidly phosphorylated to glucose-6-phosphate and routed into the major pathways of either glucose storage as glycogen or the glycolytic/tricarboxylic acid pathway. Glucose uptake in skeletal muscle involves-the activity of specific glucose transporters and hexokinases, whereas, phosphofructokinase and glycogen synthase hold critical roles in glucose oxidation/glycolysis and glucose storage, respectively. Glucose transporters and glycogen synthase activities are directly and acutely stimulated by insulin whereas the activities of hexokinases and phosphofructokinase may primarily be allosterically regulated. The aim of the review is to discuss our present knowledge of the activities and gene expression of hexokinase II (HKII), phosphofructokinase (PFK) and glycogen synthase (GS) in human skeletal muscle in states of altered insulin-stimulated glucose metabolism. My own experimental studies have comprised patients with disorders characterized by insulin resistance like non-insulin-dependent diabetes mellitus (NIDDM) and insulin-dependent diabetes mellitus (IDDM) before and after therapeutic interventions, patients with microvascular angina and patients with severe insulin resistant diabetes mellitus and congenital muscle fiber type disproportion myopathy as well as athletes who are in a state of improved insulin sensitivity. By applying the glucose insulin clamp method in combination with nuclear magnetic resonance 31P spectroscopy to normoglycaemic or hyperglycaemic insulin resistant subjects impairment of insulin-stimulated glucose transport and/or phosphorylation in skeletal muscle has been shown. In states characterized by insulin resistance but normoglycaemia, the activity of HKII measured in needle revealed any genetic variability that contributes to explain the decreased muscle levels of GS mRNA or the decreased activity and activation of muscle GS in NIDDM patients and their glucose tolerant but insulin resistant relatives. Thus, the causes of impaired insulin-stimulated glycogen synthesis of skeletal muscle in normoglycaemic insulin resistant subjects are likely to be found in the insulin signalling network proximal to the GS protein. In insulin resistant diabetic patients the impact of these yet unknown abnormalities may be accentuated by the prevailing hyperglycaemia and hyperlipidaemia. Endurance training in young healthy subjects results in improved insulin-stimulated glucose disposal rates, predominantly due to an increased glycogen synthesis rate in muscle, which is paralleled by an increased total GS activity, increased GS mRNA levels and enhanced insulin-stimulated activation of GS. These changes are probably due to local contraction-dependent mechanisms. Likewise, one-legged exercise training has been reported to increase the basal concentration of muscle GS mRNA in NIDDM patients to a level similar to that seen in control subjects although insulin-stimulated glucose disposal rates remain reduced in NIDDM patients. In the insulin resistant states examined so far, basal and insulin-stimulated glucose oxidation rate at the whole body level and PFK activity in muscle are normal. In parallel, no changes have been found in skeletal muscle levels of PFK mRNA and immunoreactive protein in NIDDM or IDDM patients. In endurance trained subjects insulin-stimulated whole body glucose oxidation rate is often increased. However, depending on the intensity and frequency, physical exercise may induce an increased, a decreased or an unaltered level of muscle PFK activity. In athletes the muscle PFK mRNA is similar to what is found in sedentary subjects whereas the immunoreactive PFK protein concentration is decreased.
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PMID:Studies of gene expression and activity of hexokinase, phosphofructokinase and glycogen synthase in human skeletal muscle in states of altered insulin-stimulated glucose metabolism. 1008 51

25 years old pregnant women with dysrtophia musculorum progresiva was observed in The Ludwik Rydygier Medical University in Bydgoszcz (Poland). Pre-term activity of uterus and diabetes gravidarum were complicated pregnancy. In 36 week of pregnancy forceps operation was make of obstetric indications and maternal myopathy.
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PMID:[Pregnancy and labor in patients with myopathy]. 1022 73

We analyzed mitochondrial DNA (mtDNA) from 7 patients in four families with adult onset limb-girdle type mitochondrial myopathy to clarify their genetic background. The patients, 2 men and 5 women, showed common clinical features, characterized by isolated skeletal myopathy, high serum creatine kinase level, ragged-red fibers and cytochrome c oxidase-defective fibers. Analysis of muscle biopsy specimens indicated that cytochrome c oxidase activity was decreased relative to that of citrate synthase in 5 of the 7 patients. Southern blotting and direct sequence analyses showed an A-to-G homoplasmic transition at np8291 and intergenic COII/tRNA (Lys) 9bp deletion in all patients. This substitution was detected in only 2 of 600 control individuals including healthy subjects and patients with other neuromuscular disorders; these 2 individuals had diabetes mellitus and myotonic dystrophy, respectively. Consequently, the mtDNA transition at np8291 was a rare polymorphism. However, the 7 patients we studied had identical clinical, pathological, biochemical, and genetic features. Therefore, limb-girdle type mitochondrial myopathy with this rare polymorphism may form a subgroup of adult onset mitochondrial myopathy.
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PMID:Adult onset limb-girdle type mitochondrial myopathy with a mitochondrial DNA np8291 A-to-G substitution. 1031 90

Out of 90 Portuguese patients with mitochondrial cytopathy, six harbored the A3243G mutation in the mtDNA tRNA(Leu(UUR)) gene ('MELAS mutation'). They had heterogeneous clinical features, including myopathy with stroke-like episodes, progressive external ophthalmoparesis, diabetes mellitus, and subacute encephalopathy. Histochemical and biochemical analyses of muscle biopsies showed abundant ragged-red fibers reacting positively with the cytochrome oxidase stain, and decreased respiratory chain enzyme activities. On average, the proportion of mutated mtDNA was 67% (20-88%) in tissues from patients and 21% (0-49%) in blood from 20 maternal relatives. The proportion of mutated mitochondrial genomes in muscle did not correlate with clinical presentation or duration of disease. This study, the first in Portuguese patients, confirms the frequent occurrence of the A3243G mutation in patients with mitochondrial diseases, and emphasises the usefulness of genetic testing in reaching a correct diagnosis.
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PMID:The mitochondrial DNA A3243G mutation in Portugal: clinical and molecular studies in 5 families. 1037 Oct 79


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