Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Neonatal diabetes mellitus (NDM) is defined as hyperglycaemia occurring in the first few weeks of life. It can be either transient (TNDM) or permanent (PNDM), and until recently, little was known about the condition. A cohort of 30 infants with a history of TNDM has been studied, and findings have suggested that NDM does not have the same aetiology as classical type 1 childhood diabetes. Uniparental isodisomy of chromosome 6 and an unbalanced duplication of paternal chromosome 6 have both been described as a genetic basis for TNDM in over 75% of the cases. In addition, cerebellar hypoplasia and Walcott-Rallison syndrome have been associated with PNDM, suggesting an autosomal recessive inheritance pattern; furthermore, a mutation in the gene insulin promoter factor 1 has been identified as a cause of pancreatic agenesis in PNDM. In the long term, TNDM may reduce beta cell functional capacity and present a predisposition to type 2 diabetes mellitus.
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PMID:Neonatal diabetes: new insights into aetiology and implications. 1089 36

Neonatal diabetes mellitus (NDM) is defined as hyperglycemia occurring in the first few weeks of life. It can be either transient (TNDM) or permanent (PNDM). A 25 days old newborn was brought to the hospital with restlessness, respiratory depression and cyanosis. He was born at term with a birth weight of 2,000 g. There was no consanguinity between his parents. His physical examination findings were as follows: Weight and height were under 3th percentile, he was hypoactive and dehydrated. Serum glucose level was 800 mg/dl; C-peptide was 0.41 ng/ml. Upon investigation for dyslipidemia in association with his neonatal diabetes, hyperchylomicronemia was found both in the patient and his father. Pancreatitis, anemia and cholestasis were also observed. Insulin treatment was started for his diabetes together with a special diet for dyslipidemia. At the end of 28 months of follow-up, dyslipidemia has resolved but the need for insulin therapy was still existing. However, TNDM was considered in differential diagnosis because he was small for gestational age (SGA) at birth and his symptoms had started at the 25th day of the neonatal period. Delayed recovery from insulin dependency brought out the possibility of PNDM. Furthermore, neonatal diabetes combined with hypechylomicronemia is a rare clinical picture. Reported cases of NDM with different clinical evaluation will help to better understanding of this disorder.
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PMID:Neonatal diabetes with hyperchylomicronemia. 1255 65

Neonatal diabetes can either remit and hence be transient or else may be permanent. These two phenotypes were considered to be genetically distinct. Abnormalities of 6q24 are the commonest cause of transient neonatal diabetes (TNDM). Mutations in KCNJ11, which encodes Kir6.2, the pore-forming subunit of the ATP-sensitive potassium channel (K(ATP)), are the commonest cause of permanent neonatal diabetes (PNDM). In addition to diabetes, some KCNJ11 mutations also result in marked developmental delay and epilepsy. These mutations are more severe on functional characterization. We investigated whether mutations in KCNJ11 could also give rise to TNDM. We identified the three novel heterozygous mutations (G53S, G53R, I182V) in three of 11 probands with clinically defined TNDM, who did not have chromosome 6q24 abnormalities. The mutations co-segregated with diabetes within families and were not found in 100 controls. All probands had insulin-treated diabetes diagnosed in the first 4 months and went into remission by 7-14 months. Functional characterization of the TNDM associated mutations was performed by expressing the mutated Kir6.2 with SUR1 in Xenopus laevis oocytes. All three heterozygous mutations resulted in a reduction in the sensitivity to ATP when compared with wild-type (IC(50) approximately 30 versus approximately 7 microM, P-value for is all <0.01); however, this was less profoundly reduced than with the PNDM associated mutations. In conclusion, mutations in KCNJ11 are the first genetic cause for remitting as well as permanent diabetes. This suggests that a fixed ion channel abnormality can result in a fluctuating glycaemic phenotype. The multiple phenotypes associated with activating KCNJ11 mutations may reflect their severity in vitro.
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PMID:Relapsing diabetes can result from moderately activating mutations in KCNJ11. 1571 50

Permanent neonatal diabetes (PNDM) is diagnosed in the first three months of life and is a major management problem as patients require lifelong insulin injections. Recently, activating mutations in the KCNJ11 gene which encodes the Kir6.2 subunit of the KATP channels in the pancreatic beta-cells were found to be an important cause of PNDM. The mutated KATP channels do not close in the presence of adenosine triphosphate (ATP) so the beta-cell membrane is hyperpolarized and insulin secretion does not occur. Some patients have DEND syndrome (developmental delay, epilepsy and neonatal diabetes) with the neurological features arising from mutated KATP channels in muscle, nerve and brain. Defining a genetic aetiology has not only given insights into clinical classification and disease mechanism, but has also influenced treatment. Sulphonylureas, by binding the sulphonylurea receptor, can close the KATP channel. This has led to patients who were insulin-dependent being able to discontinue insulin injections and achieve excellent control with sulphonylurea tablets. In this article we discuss the work that established Kir6.2 mutations as a common cause of neonatal diabetes, the clinical features, the underlying mechanism and the impact on patient treatment.
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PMID:Mutations in the Kir6.2 subunit of the KATP channel and permanent neonatal diabetes: new insights and new treatment. 1601 17

Neonatal diabetes mellitus (DM) is by definition diagnosed within the first 3 months of life and can be either transient (TNDM) or permanent (PNDM). Recently, activating mutations in the KCNJ11 gene, which encodes the Kir6.2 subunit of the K(ATP) channel, have been identified as a cause of TNDM, the main cause of PNDM, and the cause of a new syndrome: developmental delay, epilepsy and neonatal diabetes. Patients with neonatal DM are normally dependent on life-long insulin injections, but patients with neonatal DM due to a KCNJ11 mutation are able to achieve control with sulphonylurea tablets. The mutations are predominantly spontaneous but have also been described as due to autosomal dominant inheritance and paternal mosaicism. Mutations at codon 201 and 59 are thus far the most prevalent. Because mutated K(ATP) channels do not close in response to ATP, the beta-cell membrane is hyperpolarised and insulin secretion does not occur. Mutated K(ATP) channels in muscle, nerve and brain are responsible for the neurological symptoms.
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PMID:[From gene to disease; neonatal diabetes mellitus and the KCNJ11 gene]. 1637 17

Transient (TNDM) and Permanent (PNDM) Neonatal Diabetes Mellitus are rare conditions occurring in 1:400,000-500,000 live births. In TNDM growth retarded infants develop diabetes in the first few weeks of life only to go into remission in a few months with possible relapse to a permanent diabetes state usually around adolescence or as adults. We believe that pancreatic dysfunction in this condition is maintained throughout life with relapse initiated at times of metabolic stress such as puberty or pregnancy. In PNDM, insulin secretory failure occurs in the late fetal or early post-natal period. A number of conditions are associated with PNDM, some of which have been elucidated at the molecular levels Among those, the very recently elucidated mutations in KCNJ11 gene, encoding the Kir6.2 subunit of the pancreatic KATP channel involved in regulation of insulin secretion accounts for one third to a half of the PNDM cases.
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PMID:Neonatal Diabetes Mellitus -- genetic aspects 2004. 1642 5

Heterozygous mutations in the human Kir6.2 gene (KCNJ11), the pore-forming subunit of the ATP-sensitive K(+) channel (K(ATP) channel), are a common cause of neonatal diabetes. We identified a novel KCNJ11 mutation, R50Q, that causes permanent neonatal diabetes (PNDM) without neurological problems. We investigated the functional effects this mutation and another at the same residue (R50P) that led to PNDM in association with developmental delay. Wild-type or mutant Kir6.2/SUR1 channels were examined by heterologous expression in Xenopus oocytes. Both mutations increased resting whole-cell currents through homomeric and heterozygous K(ATP) channels by reducing channel inhibition by ATP, an effect that was larger in the presence of Mg(2+). However the magnitude of the reduction in ATP sensitivity (and the increase in the whole-cell current) was substantially larger for the R50P mutation. This is consistent with the more severe phenotype. Single-R50P channel kinetics (in the absence of ATP) did not differ from wild type, indicating that the mutation primarily affects ATP binding and/or transduction. This supports the idea that R50 lies in the ATP-binding site of Kir6.2. The sulfonylurea tolbutamide blocked heterozygous R50Q (89%) and R50P (84%) channels only slightly less than wild-type channels (98%), suggesting that sulfonylurea therapy may be of benefit for patients with either mutation.
Diabetes 2006 Jun
PMID:Mutations at the same residue (R50) of Kir6.2 (KCNJ11) that cause neonatal diabetes produce different functional effects. 1673 33

Transient (TNDM) and Permanent (PNDM) Neonatal Diabetes Mellitus are rare conditions occurring in 1:300,000-400,000 live births. TNDM infants develop diabetes in the first few weeks of life but go into remission in a few months, with possible relapse to a permanent diabetes state usually around adolescence or as adults. The pancreatic dysfunction in this condition may be maintained throughout life, with relapse initiated at times of metabolic stress such as puberty or pregnancy. In PNDM, insulin secretory failure occurs in the late fetal or early post-natal period and does not go into remission. Patients with TNDM are more likely to have intrauterine growth retardation and less likely to develop ketoacidosis than patients with PNDM. In TNDM, patients are younger at the diagnosis of diabetes and have lower initial insulin requirements. Considerable overlap occurs between the two groups, so that TNDM cannot be distinguished from PNDM based on clinical features. Very early onset diabetes mellitus seems to be unrelated to autoimmunity in most instances. A number of conditions are associated with PNDM, some of which have been elucidated at the molecular level. Among these, the very recently elucidated mutations in the KCNJ11 and ABCC8 genes, encoding the Kir6.2 and SUR1 subunit of the pancreatic KATP channel involved in regulation of insulin secretion, account for one third to half of the PNDM cases. Molecular analysis of chromosome 6 anomalies (found in more than 60% in TNDM), and the KCNJ11 and ABCC8 genes encoding Kir6.2 and SUR1, provides a tool to identify TNDM from PNDM in the neonatal period. This analysis also has potentially important therapeutic consequences leading to transfer some patients, those with mutations in KCNJ11 and ABCC8 genes, from insulin therapy to sulfonylureas. Recurrent diabetes is common in patients with "transient" neonatal diabetes mellitus and, consequently, prolonged follow-up is imperative. Realizing how difficult it is to take care of a child of this age with diabetes mellitus should prompt clinicians to transfer these children to specialized centers. Insulin therapy and high caloric intake are the basis of the treatment. Insulin pump may offer an interesting therapeutic tool in this age group in experienced hands.
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PMID:Neonatal diabetes mellitus: a disease linked to multiple mechanisms. 1734 54

There are two major forms of diabetes: type 1 and type 2. However, monogenic diabetes, associated with severe beta-cell dysfunction or with severe resistance to insulin action, is diagnosed with increasing frequency by genetic testing. The list of such forms of diabetes includes MODY, mitochondrial diabetes, permanent neonatal diabetes (PNDM) and transient neonatal diabetes, familial lipodystrophies and some others. These rare forms constitute probably at least a few per cent of all diabetes cases seen in diabetic clinics. The identification of the molecular background of specific forms of diabetes gives new insight into the underlying aetiology. This knowledge helps to optimize treatment in specific clinical situations. The proper differential diagnosis also helps to predict the progress of diabetes in affected individuals and defines the prognosis in the family. For example, in patients with MODY2 because of glucokinase mutations who have very mild diabetes characterized by modest fasting, hyperglycaemia diet is frequently sufficient. Some other forms of monogenic diabetes associated with impaired function of the beta-cell, such as MODY3 and PNDM linked to mutations in Kir6.2 and SUR1 genes, can be successfully managed by sulphonylurea agents. Although the examples of pharmacogenetics seem to be less spectacular in rare syndromes of insulin resistance, those patients can also benefit from genetic testing. In this paper, the aetiology of some monogenic diabetes forms is reviewed together with the clinical aspects of management of the affected individuals.
Diabetes Obes Metab 2008 Aug
PMID:Monogenic diabetes: implications for therapy of rare types of disease. 1748 43

Heterozygous activating mutations in the KCNJ11 gene encoding the pore-forming Kir6.2 subunit of the pancreatic beta cell K(ATP) channel are the most common cause of permanent neonatal diabetes (PNDM). Patients with PNDM due to a heterozygous activating mutation in the ABCC8 gene encoding the SUR1 regulatory subunit of the K(ATP) channel have recently been reported. We studied a cohort of 59 patients with permanent diabetes who received a diagnosis before 6 mo of age and who did not have a KCNJ11 mutation. ABCC8 gene mutations were identified in 16 of 59 patients and included 8 patients with heterozygous de novo mutations. A recessive mode of inheritance was observed in eight patients with homozygous, mosaic, or compound heterozygous mutations. Functional studies of selected mutations showed a reduced response to ATP consistent with an activating mutation that results in reduced insulin secretion. A novel mutational mechanism was observed in which a heterozygous activating mutation resulted in PNDM only when a second, loss-of-function mutation was also present.
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PMID:Permanent neonatal diabetes caused by dominant, recessive, or compound heterozygous SUR1 mutations with opposite functional effects. 1766 86


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