Hypoinsulinaemic, hypoketotic hypoglycaemia due to mosaic genetic activation of PI3-kinase.
European journal of endocrinology 2017 ; 177: 175-186.
Leiter SM, Parker VER, Welters A, Knox R, Rocha N, Clark G, Payne F, Lotta L, Harris J, Guerrero-Fernández J, González-Casado I, García-Miñaur S, Gordo G, Wareham N, Martínez-Glez V, Allison M, O'Rahilly S, Barroso I, Meissner T, Davies S, Hussain K, Temple K, Barreda-Bonis AC, Kummer S, Semple RK
DOI : 10.1530/EJE-17-0132
PubMed ID : 28566443
PMCID : PMC5488397
URL : https://eje.bioscientifica.com/view/journals/eje/177/2/EJE-17-0132.xml
Abstract
Genetic activation of the insulin signal-transducing kinase causes syndromic hypoketotic hypoglycaemia without elevated insulin. Mosaic activating mutations in class 1A phospatidylinositol-3-kinase (PI3K), upstream from AKT2 in insulin signalling, are known to cause segmental overgrowth, but the metabolic consequences have not been systematically reported. We assess the metabolic phenotype of 22 patients with mosaic activating mutations affecting PI3K, thereby providing new insight into the metabolic function of this complex node in insulin signal transduction.
Three patients with megalencephaly, diffuse asymmetric overgrowth, hypoketotic, hypoinsulinaemic hypoglycaemia and no mutation underwent further genetic, clinical and metabolic investigation. Signalling in dermal fibroblasts from one patient and efficacy of the mTOR inhibitor Sirolimus on pathway activation were examined. Finally, the metabolic profile of a cohort of 19 further patients with mosaic activating mutations in PI3K was assessed.
In the first three patients, mosaic mutations in (p.Gly118Asp or p.Glu726Lys) or (p.Gly373Arg) were found. In different tissue samples available from one patient, the p.Glu726Lys mutation was present at burdens from 24% to 42%, with the highest level in the liver. Dermal fibroblasts showed increased basal AKT phosphorylation which was potently suppressed by Sirolimus. Nineteen further patients with mosaic mutations in had neither clinical nor biochemical evidence of hypoglycaemia.
Mosaic mutations activating class 1A PI3K cause severe non-ketotic hypoglycaemia in a subset of patients, with the metabolic phenotype presumably related to the extent of mosaicism within the liver. mTOR or PI3K inhibitors offer the prospect for future therapy.