ABCC8 p.Asp1396Tyr
Predicted by SNAP2: | A: D (66%), C: D (66%), E: N (93%), F: D (75%), G: D (71%), H: D (71%), I: D (75%), K: D (80%), L: D (71%), M: D (71%), N: D (63%), P: D (75%), Q: D (59%), R: D (75%), S: D (63%), T: D (63%), V: D (75%), W: D (80%), Y: D (66%), |
Predicted by PROVEAN: | A: D, C: D, E: D, F: D, G: D, H: D, I: D, K: D, L: D, M: D, N: D, P: D, Q: D, R: D, S: D, T: D, V: D, W: D, Y: D, |
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[hide] Lasting 18F-DOPA PET uptake after clinical remissi... Horm Res Paediatr. 2011;76(4):286-90. Epub 2011 Sep 7. Yorifuji T, Hosokawa Y, Fujimaru R, Kawakita R, Doi H, Matsumoto T, Nishibori H, Masue M
Lasting 18F-DOPA PET uptake after clinical remission of the focal form of congenital hyperinsulinism.
Horm Res Paediatr. 2011;76(4):286-90. Epub 2011 Sep 7., [PMID:21912073]
Abstract [show]
BACKGROUND: Positron emission tomography (PET) using (18)F-DOPA is a useful tool for detecting the focal forms of congenital hyperinsulinism. (18)F-DOPA is taken up by aromatic L-amino acid decarboxylase in pancreatic beta-cells. However, the role of this enzyme in insulin secretion is unknown. SUBJECTS AND METHODS: A Japanese boy who presented with symptomatic hyperinsulinemic hypoglycemia at the age of 2 days and spontaneous resolution at 1 year and 10 months was subjected to mutational analysis and repeated (18)F-DOPA PET scans. RESULTS: Mutational analysis revealed a paternally inherited monoallelic mutation, c.4186G>T (p.D1396Y), in the ABCC8 gene, and an (18)F-DOPA PET scan revealed focal uptake in the body of the pancreas. The patient was successfully treated with frequent feeding. A follow-up PET scan revealed virtually identical uptake to that observed previously. However, in the arterial stimulation-venous sampling procedure, no significant insulin release was observed. He was placed on a normal diet, and no hypoglycemia recurrence was observed. CONCLUSION: This case demonstrates two important findings. Firstly, the uptake of (18)F-DOPA does not correlate with the insulin-secreting capacity of the lesion. Secondly, clinical remission could be a functional process not necessarily accompanied by the apoptotic death of abnormal beta-cells.
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No. Sentence Comment
1 Results: Mutational analysis revealed a paternally inherited monoallelic mutation, c.4186G1T (p.D1396Y), in the ABCC8 gene, and an 18 F-DOPA PET scan revealed focal uptake in the body of the pancreas.
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ABCC8 p.Asp1396Tyr 21912073:1:96
status: NEW29 A diagnosis of congenital hyperinsulinism was made, and mutational analysis using DNA extracted from peripheral blood leukocytes revealed a pa- ternallyinheritedheterozygousmutation,c.4186G1T(p.D1396Y), in the ABCC8 gene.
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ABCC8 p.Asp1396Tyr 21912073:29:194
status: NEW[hide] Molecular and clinical analysis of Japanese patien... J Clin Endocrinol Metab. 2011 Jan;96(1):E141-5. Epub 2010 Oct 13. Yorifuji T, Kawakita R, Nagai S, Sugimine A, Doi H, Nomura A, Masue M, Nishibori H, Yoshizawa A, Okamoto S, Doi R, Uemoto S, Nagasaka H
Molecular and clinical analysis of Japanese patients with persistent congenital hyperinsulinism: predominance of paternally inherited monoallelic mutations in the KATP channel genes.
J Clin Endocrinol Metab. 2011 Jan;96(1):E141-5. Epub 2010 Oct 13., [PMID:20943781]
Abstract [show]
BACKGROUND: Preoperative identification of the focal form of congenital hyperinsulinism is important for avoiding unnecessary subtotal pancreatectomy. However, neither the incidence nor the histological spectrum of the disease is known for Japanese patients. AIMS: The aim of the study was to elucidate the molecular and histological spectrum of congenital hyperinsulinism in Japan. SUBJECTS: Thirty-six Japanese infants with persistent congenital hyperinsulinism were included in the study. METHODS: All exons of the ATP-sensitive potassium channel (K(ATP) channel) genes (KCNJ11 and ABCC8), the GCK gene, and exons 6 and 7 and 10-12 of the GLUD1 gene were amplified from genomic DNA and directly sequenced. In patients with K(ATP) channel mutations, the parental origin of each mutation was determined, and the results were compared with the histological findings of surgically treated patients. In one of the patients with scattered lesions, islets were sampled by laser capture microdissection for mutational analysis. RESULTS: Mutations were identified in 24 patients (66.7%): five in GLUD1 and 19 in the K(ATP) channel genes. Sixteen had a paternally derived, monoallelic K(ATP) channel mutation predictive of the focal form. In 10 patients who underwent pancreatectomy, the molecular diagnosis correctly predicted the histology, more accurately than [18F]-3,4-dihydroxyphenylalanine positron emission tomography scans. Three patients showed focal lesions that occupied larger areas of the pancreas. Preferential loss of the maternal allele was observed in these islets. CONCLUSION: The majority of the Japanese patients with K(ATP) channel hyperinsulinism (84.2%) demonstrated paternally inherited monoallelic mutations that accurately predicted the presence of the focal form.
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76 Parental origin 1 F 9 months 38 ͓2.1͔ 4.8 ͓33͔ 83 ͓49͔ GLUD1 c.661CϾT p.R221C yes ND F, D 2 M 7 months 30 ͓1.7͔ 3 ͓21͔ 132 ͓77͔ GLUD1 c.797AϾG p.Y266C yes ND F, D 3 F 3 months 29 ͓1.6͔ 4 ͓28͔ 246 ͓144͔ GLUD1 c.1336GϾA p.G446S Yes ND F, D 4 M 10 months Ͻ45 ͓2.5͔ 7.7 ͓53͔ 154 ͓90͔ GLUD1 c.1229AϾG p.N410S No ND F, D 5 M 0 d 10 ͓0.6͔ 10 ͓69͔ 250 ͓147͔ GLUD1 c.1229AϾC p.N410T Yes ND F, D 6a F 2 d 31 ͓1.7͔ 30.2 ͓210͔ 78 ͓46͔ ABCC8 c.382GϾA c.3748CϾT p.E128K p.R1250X Yes, Yes Biparental 7 M 2 d 5 ͓0.3͔ 7.5 ͓52͔ 131 ͓77͔ ABCC8 c.2506CϾT c.4575_4587del13 p.R836X p.M1524Mfs1539X Yes, No Biparental F, O 8 M 0 d Ͻ45 ͓2.5͔ 11 ͓76͔ 58 ͓34͔ ABCC8 c.4516GϾA p.E1506K Yes Mat F, D 9a F 1 month Ͻ20 ͓1.1͔ 42.4 ͓294͔ NA ABCC8 c.2506CϾT p.R836X Yes Pat 10a M 2 d 10 ͓0.56͔ 23.5 ͓163͔ NA ABCC8 c.4412-13GϾA - Yes Pat 11a F 0 d 33 ͓1.8͔ 46.6 ͓324͔ 79 ͓46͔ ABCC8 c.3745GϾT p.V1249F No Pat 12a F 3 months 20 ͓1.1͔ 5.16 ͓36͔ 78 ͓46͔ ABCC8 c.2992CϾT p.R998X Yes Pat 13a F 0 d 23 ͓1.3͔ 101 ͓701͔ 45 ͓24͔ ABCC8 c.4608 ϩ 1GϾA - No Pat 14a M 0 d 22 ͓1.2͔ 22.7 ͓158͔ 75 ͓44͔ ABCC8 c.2992CϾT p.R998X Yes Pat 15a M 5 months 33 ͓1.8͔ 5.42 ͓38͔ NA ABCC8 c.2992CϾT p.R998X Yes Pat 16a M 0 d 28 ͓1.6͔ 38.7 ͓269͔ 66 ͓39͔ ABCC8 c.331GϾA p.G111R Yes Pat 17 F 2 months 15 ͓0.8͔ 9.9 ͓69͔ 90 ͓53͔ ABCC8 c.61_62insG p.V21Gfs88X No Pat F, O 18 M 0 d 19.6 ͓1.1͔ 44 ͓306͔ 79 ͓46͔ ABCC8 c.2506CϾT p.R836X Yes Pat F, O 19 F 7 months 35 ͓1.9͔ 11.2 ͓78͔ 97 ͓57͔ ABCC8 c.2506CϾT p.R836X Yes Pat F, O 20 M 4 months Ͻ45 ͓2.5͔ 7.5 ͓52͔ 84 ͓49͔ ABCC8 c.3928_3929insG p.A1310Gfs1405X No Pat F, O 21 M 2 d 38 ͓2.1͔ 3.4 ͓24͔ 91 ͓53͔ ABCC8 c.4186GϾT p.D1396Y No Pat F 22 F 0 d 9 ͓0.5͔ 22 ͓153͔ NA ABCC8 c.2506CϾT p.R836X Yes Pat F, O 23 M 2 d 0 ͓0͔ 17.3 ͓120͔ 317 ͓186͔ ABCC8 c.4412-13GϾA - Yes Pat F, D 24a M 0 d 33 ͓1.8͔ 21.9 ͓152͔ 75 ͓44͔ KCNJ11 c.637GϾA p.A213T No Pat The clinical data are those at the initial presentation.
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ABCC8 p.Asp1396Tyr 20943781:76:2470
status: NEW