ABCC8 p.Gly296Arg
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PMID: 22562119
[PubMed]
Lin YW et al: "Compound heterozygous mutations in the SUR1 (ABCC 8) subunit of pancreatic K(ATP) channels cause neonatal diabetes by perturbing the coupling between Kir6.2 and SUR1 subunits."
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8
Here, we report a case of diabetes in a 7-mo old child with compound heterozygous mutations in ABCC8 (SUR1[A30V] and SUR1[G296R]).
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ABCC8 p.Gly296Arg 22562119:8:122
status: NEW11 Experiments on excised inside-out patches also reveal a slight increase in activity, manifested as an enhancement in stimulation by MgADP in channels expressing the compound heterozygous mutations or homozygous G296R mutation.
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ABCC8 p.Gly296Arg 22562119:11:211
status: NEW12 In addition, the IC50 for ATP inhibition of homomeric A30V channels was increased ~6-fold, and was increased ~3-fold for both heteromeric A30V + WT channels or compound heterozygous (A30V + G296R) channels.
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ABCC8 p.Gly296Arg 22562119:12:190
status: NEW32 Direct sequencing of his DNA revealed two mutations in the ABCC8 gene c.886 G > A (G296R) and c.89 C > T (A30V), the first of which is maternally derived and the second is paternally derived.
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ABCC8 p.Gly296Arg 22562119:32:83
status: NEW41 As shown in Figure 1A, neither heteromeric single mutant channels ([A30V + WT], referred to as hetA30V and [G296R + WT], referred to as hetG296R) nor compound heterozygous channels ([A30V + G296R]) exhibited significantly different maximum 86 Rb+ efflux rates in the presence of metabolic inhibitors.
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ABCC8 p.Gly296Arg 22562119:41:108
status: NEWX
ABCC8 p.Gly296Arg 22562119:41:190
status: NEW53 k2,basal /k2,MI calculated from WT, het A30V, het G296R and SUR1[A30V + G296R] are 0.07 &#b1; 0.005, 0.08 &#b1; 0.01, 0.1 &#b1; 0.01 and 0.16 &#b1; 0.01 (n = 4-9).
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ABCC8 p.Gly296Arg 22562119:53:72
status: NEW56 Homozygous G296R channels exhibit a slightly right-shifted dose-response, but homozygous A30V channels exhibit a marked and significantly right-shifted ATP sensitivity (Fig. 4B).
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ABCC8 p.Gly296Arg 22562119:56:11
status: NEW57 In the heteromeric case, mimicking the disease condition, hetG296R channels are not markedly different from WT, but hetA30V and compound heterozygous A30V + G296R channels both exhibit a significant rightward shift when compared with WT channels (Fig. 4C).
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ABCC8 p.Gly296Arg 22562119:57:157
status: NEW64 A30V and G296R mutants are located at the TMD0 and the cytosolic linker region (L0) of SUR1 3 (Fig. 2).
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ABCC8 p.Gly296Arg 22562119:64:9
status: NEW66 Here we characterized the sensitivity to MgADP activation, as well as inhibitory ATP sensitivity (without Mg2+ ), of homomeric A30V channels (labeled as homA30V), homomeric G296R channels (labeled as homG296R), hetA30V, hetG296R and compound heterozygous channels [A30V + G296R].8,18,19 Representative recordings of channel response to MgADP from WT and compound heterozygous mutants are shown in Figure 3A and summary results are shown in Figure 3B.
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ABCC8 p.Gly296Arg 22562119:66:173
status: NEWX
ABCC8 p.Gly296Arg 22562119:66:272
status: NEW67 Homomeric G296R channels exhibit dramatically increased MgADP activity, while homomeric A30V channels show no significant enhancement (Fig. 3B).
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ABCC8 p.Gly296Arg 22562119:67:10
status: NEW75 The red filled circles indicate the predicted positions for A30V at the N terminus of its 1st transmembrane domain (TMD0) and G296R at the L0 linker region before TMD1 domain.
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ABCC8 p.Gly296Arg 22562119:75:126
status: NEW79 Representative inside-out patch clamp recordings of WT and A30V + G296R in different MgATP and MgADP concentrations (A).
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ABCC8 p.Gly296Arg 22562119:79:66
status: NEW81 (B) Relative channel currents in 0.1 mM MgATP and plus 0.5 mM MgADP for WT, homA30V, homG296R, hetA30V, hetG296R and compound heterozygous [A30V + G296R] channels as indicated.
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ABCC8 p.Gly296Arg 22562119:81:147
status: NEW85 Interestingly, the G296R variant was identified as a rare variant in whole exome sequencing of over 1,000 individuals (http://evs.
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ABCC8 p.Gly296Arg 22562119:85:19
status: NEW90 Although the standard definition of neonatal diabetes refers to diabetes presenting in the first 6 mo of life,20 not uncommonly, like in our case, presentation is beyond this age, prompting some to propose to replace the term "neonatal diabetes mellitus" with "diabetes mellitus of infancy".21 Each ABCC8 mutation carried by this child makes a unique contribution to enhancement of channel activity, resulting in marked stimulation of basal Rb efflux only in the compound heterozygous case (Fig. 1B and C), and explaining the presentation of the disease in the proband, as well as the responsivity to sulfonylureas.22,23 The G296R mutation is inherited from the Figure 4.
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ABCC8 p.Gly296Arg 22562119:90:625
status: NEW92 (A) Representative currents recorded by inside-out excised patch-clamp technique from COSm6 cells expressing WT, homA30V, homG296R and [A30V + G296R] at +50 mV pipette potential. Patches were exposed to different concentrations of Mg-free ATP as indicated.
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ABCC8 p.Gly296Arg 22562119:92:143
status: NEW96 Fitted K1/2 for WT, homA30V and homG296R channels are 9.65, 53.31 and 28.11 (in bc;M) and the Hill coefficients are 1.22, 1.04 and 1.19, respectively. (C) The fitted K1/2 for WT, hetA30V, hetG296R and [A30V + G296R] are 9.65, 25.75, 12.75 and 25.45 (in bc;M) and the Hill coefficients are 1.22, 1.28, 1.29 and 1.23, respectively. from the child and both parents.
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ABCC8 p.Gly296Arg 22562119:96:212
status: NEW98 Two mutations were found in ABCC8 in the proband: c.886 G > A, predicted to cause a G296R amino acid change, was maternally transmitted, and c.89 C > T, predicted to cause A30V amino acid change, was paternally transmitted.
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ABCC8 p.Gly296Arg 22562119:98:84
status: NEW125 (A) Representative currents recorded by inside-out excised patch-clamp technique from COSm6 cells expressing WT and [A30V + G296R] at +50 mV pipette potential. Patches were exposed to different concentrations of glibenclamide as indicated (free Mg-nucleotide).
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ABCC8 p.Gly296Arg 22562119:125:124
status: NEW