Gene/Protein
Disease
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Target Concepts:
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Query: UMLS:C0152025 (
polyneuropathy
)
7,862
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Diabetes mellitus induces a decrease in Na/K ATPase activity in man and animals, and this decrease plays a role in the development of diabetic neuropathy. Na/K ATPase is encoded by various genes, of which the
ATP1
A1 gene is expressed predominantly in peripheral nerves and in erythrocytes. To investigate whether a polymorphism in the Na/K ATPase genes could explain the predisposition of some patients with insulin-dependent diabetes mellitus (IDDM) to develop
polyneuropathy
, a restriction fragment length polymorphism (RFLP) of the
ATP1
A1 gene was studied together with erythrocyte Na/K ATPase activity in 81 Caucasian patients with more than 10 years' duration of IDDM. Associations with diabetic neuropathy, retinopathy and nephropathy were sought. Digestion of the first intron of the
ATP1
A1 gene by the Bgl II restriction enzyme revealed a dimorphic allelism. Frequency of the restricted allele was 0.18 in this selected series (however, it was 0.10 in representative samples of IDDM patients and of normal subjects in our area). Mean erythrocyte Na/K ATPase activity was lower in diabetic patients than in 42 control subjects (292 +/- 10, vs 402 +/- 13 nmol Pi.mg protein-1.h-1, p < 0.0001) and was not related to HbA1c value or to diabetes duration. It was lower in the group of the 28 patients bearing the restricted allele (241 +/- 10 vs 319 +/- 11 nmol Pi.mg protein-1.h-1, p < 0.0001). Neuropathy was absent in 50 patients, mild in 15 and severe in 16. When classified accordingly the three groups of patients did not differ with respect to sex, age and duration of diabetes. The respective frequency of the restricted allele among the groups was 10, 73 and 81%, (p < 0.0001) and mean erythrocyte Na/K ATPase activity was respectively: 322 +/- 10.7 nmol Pi.mg protein-1.h-1, 268 +/- 15 and 229 +/- 17, (p < 0.001). A borderline association between renal status or retinal status and repartition of polymorphism and a borderline correlation between renal status and Na/K ATPase activity were found, but significance disappeared after checking for the presence or absence of neuropathy. IDDM patients bearing the
ATP1
A1 variant detected by Bgl II RFLP are much more frequently affected by neuropathy (relative risk 6.5, with 95% CI 3.3-13). Identification of this risk factor may help to prevent this complication. It is suggested that the restricted allele is in linkage disequilibrium with a genomic mutation allowing diabetes to induce a greater impairment of Na/K ATPase activity which could in turn favour the development of neuropathy.
...
PMID:Association of diabetic neuropathy with Na/K ATPase gene polymorphism. 916 17
A genetic predisposition to develop a
polyneuropathy
in case of diabetes seems to exist. Some ethnic groups such as North Africans are prone to develop a diabetic
polyneuropathy
. To identify this predisposition could help in targeting a preventive treatment. We have observed that red cell Na/K ATPase activity was lower among diabetic patients than controls and even lower when diabetic neuropathy was present. Now an impaired NA/K ATPase activity has been implicated in the pathogenesis of diabetic neuropathy and ethnic differences in this enzyme activity have been demonstrated. For these reasons, we have compared red cell Na/K ATPase activity of European and North African individuals with or without diabetes and in case of diabetes with or without neuropathy. Among European subjects, Na/K ATPase activity was higher in 46 control subjects than in 84 insulin-dependent diabetic patients (405 +/- 16 nmol.mg Prot-1h-1 versus 282 +/- 10 p. < 0.05) and in the diabetic group Na/K ATPase activity was lower in the patients presenting with neuropathy (242 +/- 19 versus 323 +/- 12 p. < 0.05). The mean red cell Na/K ATPase activity was lower in 16 North African control subjects than in their European counterparts (296 +/- 26 p. < 0.05). The same observation was made when comparing 24 North Africans insulin dependent diabetic patients to the European diabetics (246 +/- 20 p. < 0.05). A low Na/K ATPase activity appears to be a risk marker of diabetic neuropathy. It could explain the propensity of North African patients to develop this diabetic complication. A restriction polymorphism exist on the first intron of the
ATP1
A1 gene coding for the ATPase alpha 1 isoform. This isoform is preponderent in the nervous tissue and exclusive in red cells. Among European diabetic individuals, the presence of the restricted allele is strongly associated to diabetic neuropathy, confering a relative risk of 6.5 (95%, confidence interval 3.3-13). The restricted allele is associated to a lower Na/K ATPase activity but only among diabetic patients and not in control subjects. This fact suggests an interaction between genetic factors (the restriction polymorphism of
ATP1
A1 gene) and environmental factors (diabetes) to induce a decrease in Na/K ATPase activity which in turn could favor the development of diabetic neuropathy. Among North African individuals the impairement of Na/K ATPase activity is not explained by the presence of this polymorphism. Other genetic factors remain to be identified.
...
PMID:[Genetic factors, Na K ATPase activity and neuropathy in diabetics]. 961 1
