TY - JOUR
T1 - Permanent Neonatal Diabetes Caused by Glucokinase Deficiency
T2 - Inborn Error of the Glucose-Insulin Signaling Pathway
AU - Njølstad, Pål R.
AU - Sagen, Jørn V.
AU - Bjørkhaug, Lise
AU - Odili, Stella
AU - Shehadeh, Naim
AU - Bakry, Doua
AU - Sarici, S. Umit
AU - Alpay, Faruk
AU - Molnes, Janne
AU - Molven, Anders
AU - Søvik, Oddmund
AU - Matschinsky, Franz M.
PY - 2003/11
Y1 - 2003/11
N2 - Neonatal diabetes can be either permanent or transient. We have recently shown that permanent neonatal diabetes can result from complete deficiency of glucokinase activity. Here we report three new cases of glucokinase-related permanent neonatal diabetes. The probands had intrauterine growth retardation (birth weight < 1,900 g) and insulin-treated diabetes from birth (diagnosis within the first week of life). One of the subjects was homozygous for the missense mutation Ala378Val (A378V), which is an inactivating mutation with an activity index of only 0.2% of wild-type glucokinase activity. The second subject was homozygous for a mutation in the splice donor site of exon 8 (intervening sequence 8 [IVS8] + 2T → G), which is predicted to lead to the synthesis of an inactive protein. The third subject (second cousin of subject 2) was a compound heterozygote with one allele having the splice-site mutation IVS8 + 2T → G and the other the missense mutation Gly264Ser (G264S), a mutation with an activity index of 86% of normal activity. The five subjects with permanent neonatal diabetes due to glucokinase deficiency identified to date are characterized by intrauterine growth retardation, permanent insulin-requiring diabetes from the first day of life, and hyperglycemia in both parents. Autosomal recessive inheritance and enzyme deficiency are features typical for an inborn error of metabolism, which occurred in the glucose-insulin signaling pathway in these subjects.
AB - Neonatal diabetes can be either permanent or transient. We have recently shown that permanent neonatal diabetes can result from complete deficiency of glucokinase activity. Here we report three new cases of glucokinase-related permanent neonatal diabetes. The probands had intrauterine growth retardation (birth weight < 1,900 g) and insulin-treated diabetes from birth (diagnosis within the first week of life). One of the subjects was homozygous for the missense mutation Ala378Val (A378V), which is an inactivating mutation with an activity index of only 0.2% of wild-type glucokinase activity. The second subject was homozygous for a mutation in the splice donor site of exon 8 (intervening sequence 8 [IVS8] + 2T → G), which is predicted to lead to the synthesis of an inactive protein. The third subject (second cousin of subject 2) was a compound heterozygote with one allele having the splice-site mutation IVS8 + 2T → G and the other the missense mutation Gly264Ser (G264S), a mutation with an activity index of 86% of normal activity. The five subjects with permanent neonatal diabetes due to glucokinase deficiency identified to date are characterized by intrauterine growth retardation, permanent insulin-requiring diabetes from the first day of life, and hyperglycemia in both parents. Autosomal recessive inheritance and enzyme deficiency are features typical for an inborn error of metabolism, which occurred in the glucose-insulin signaling pathway in these subjects.
UR - http://www.scopus.com/inward/record.url?scp=10744222821&partnerID=8YFLogxK
U2 - 10.2337/diabetes.52.11.2854
DO - 10.2337/diabetes.52.11.2854
M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???
C2 - 14578306
AN - SCOPUS:10744222821
SN - 0012-1797
VL - 52
SP - 2854
EP - 2860
JO - Diabetes
JF - Diabetes
IS - 11
ER -