TY - JOUR
T1 - Understanding the Role of GLUT2 in Dysglycemia Associated with Fanconi–Bickel Syndrome
AU - Sharari, Sanaa
AU - Kabeer, Basirudeen
AU - Mohammed, Idris
AU - Haris, Basma
AU - Pavlovski, Igor
AU - Hawari, Iman
AU - Bhat, Ajaz Ahmad
AU - Toufiq, Mohammed
AU - Tomei, Sara
AU - Mathew, Rebecca
AU - Syed, Najeeb
AU - Nisar, Sabah
AU - Maacha, Selma
AU - Grivel, Jean Charles
AU - Chaussabel, Damien
AU - Ericsson, Johan
AU - Hussain, Khalid
N1 - Publisher Copyright:
© 2022 by the authors.
PY - 2022/9
Y1 - 2022/9
N2 - Fanconi–Bickel Syndrome (FBS) is a rare disorder of carbohydrate metabolism that is characterized by the accumulation of glycogen mainly in the liver. It is inherited in an autosomal recessive manner due to mutations in the SLC2A2 gene. SLC2A2 encodes for the glucose transporter GLUT2 and is expressed in tissues that are involved in glucose homeostasis. The molecular mechanisms of dysglycemia in FBS are still not clearly understood. In this study, we report two cases of FBS with classical phenotypes of FBS associated with dysglycemia. Genomic DNA was extracted and analyzed by whole-genome and Sanger sequencing, and patient PBMCs were used for molecular analysis. One patient had an exonic SLC2A2 mutation (c.1093C>T in exon 9, R365X), while the other patient had a novel intronic SLC2A2 mutation (c.613-7T>G). Surprisingly, the exonic mutation resulted in the overexpression of dysfunctional GLUT2, resulting in the dysregulated expression of other glucose transporters. The intronic mutation did not affect the coding sequence of GLUT2, its expression, or glucose transport activity. However, it was associated with the expression of miRNAs correlated with type 1 diabetes mellitus, with a particular significant overexpression of hsa-miR-29a-3p implicated in insulin production and secretion. Our findings suggest that SLC2A2 mutations cause dysglycemia in FBS either by a direct effect on GLUT2 expression and/or activity or, indirectly, by the dysregulated expression of miRNAs implicated in glucose homeostasis.
AB - Fanconi–Bickel Syndrome (FBS) is a rare disorder of carbohydrate metabolism that is characterized by the accumulation of glycogen mainly in the liver. It is inherited in an autosomal recessive manner due to mutations in the SLC2A2 gene. SLC2A2 encodes for the glucose transporter GLUT2 and is expressed in tissues that are involved in glucose homeostasis. The molecular mechanisms of dysglycemia in FBS are still not clearly understood. In this study, we report two cases of FBS with classical phenotypes of FBS associated with dysglycemia. Genomic DNA was extracted and analyzed by whole-genome and Sanger sequencing, and patient PBMCs were used for molecular analysis. One patient had an exonic SLC2A2 mutation (c.1093C>T in exon 9, R365X), while the other patient had a novel intronic SLC2A2 mutation (c.613-7T>G). Surprisingly, the exonic mutation resulted in the overexpression of dysfunctional GLUT2, resulting in the dysregulated expression of other glucose transporters. The intronic mutation did not affect the coding sequence of GLUT2, its expression, or glucose transport activity. However, it was associated with the expression of miRNAs correlated with type 1 diabetes mellitus, with a particular significant overexpression of hsa-miR-29a-3p implicated in insulin production and secretion. Our findings suggest that SLC2A2 mutations cause dysglycemia in FBS either by a direct effect on GLUT2 expression and/or activity or, indirectly, by the dysregulated expression of miRNAs implicated in glucose homeostasis.
KW - Fanconi–Bickel syndrome (FBS)
KW - PBMCs (peripheral blood mononuclear cells)
KW - dysglycemia
KW - glucose transporter 2 (GLUT2)
KW - miRNAs
UR - http://www.scopus.com/inward/record.url?scp=85138612440&partnerID=8YFLogxK
U2 - 10.3390/biomedicines10092114
DO - 10.3390/biomedicines10092114
M3 - Article
AN - SCOPUS:85138612440
SN - 2227-9059
VL - 10
JO - Biomedicines
JF - Biomedicines
IS - 9
M1 - 2114
ER -