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lüll Neutrophil stress and apoptosis underlie myeloid dysfunction in glycogen storage disease type Ib Kim SY; Jun HS; Mead PA; Mansfield BC; Chou JYBlood 2008[Jun]; 111 (12): 5704-11Glycogen storage disease type Ib (GSD-Ib) is caused by a deficiency in the glucose-6-phosphate (G6P) transporter (G6PT) that works with a liver/kidney/intestine-restricted glucose-6-phosphatase-alpha (G6Pase-alpha) to maintain glucose homeostasis between meals. Clinically, GSD-Ib patients manifest disturbed glucose homeostasis and neutrophil dysfunctions but the cause of the latter is unclear. Neutrophils express the ubiquitously expressed G6PT and G6Pase-beta that together transport G6P into the endoplasmic reticulum (ER) lumen and hydrolyze it to glucose. Because we expected G6PT-deficient neutrophils to be unable to produce endogenous glucose, we hypothesized this would lead to ER stress and increased apoptosis. Using GSD-Ib mice, we showed that GSD-Ib neutrophils exhibited increased production of ER chaperones and oxidative stress, consistent with ER stress, increased annexin V binding and caspase-3 activation, consistent with an increased rate of apoptosis. Bax activation, mitochondrial release of proapoptotic effectors, and caspase-9 activation demonstrated the involvement of the intrinsic mitochondrial pathway in these processes. The results demonstrate that G6P translocation and hydrolysis are required for normal neutrophil functions and support the hypothesis that neutrophil dysfunction in GSD-Ib is due, at least in part, to ER stress and increased apoptosis.|Animals[MESH]|Antiporters/genetics/metabolism[MESH]|Apoptosis/*physiology[MESH]|Caspase 9/metabolism[MESH]|Endoplasmic Reticulum/metabolism/pathology[MESH]|Glucose-6-Phosphate/metabolism[MESH]|Glucose/metabolism[MESH]|Glycogen Storage Disease Type I/*metabolism/pathology[MESH]|Mice[MESH]|Mice, Mutant Strains[MESH]|Mitochondria/metabolism[MESH]|Monosaccharide Transport Proteins/genetics/metabolism[MESH]|Neutrophils/*metabolism/*pathology[MESH]|Oxidative Stress/*physiology[MESH]|Reactive Oxygen Species/metabolism[MESH]|bcl-2-Associated X Protein/metabolism[MESH] |