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AIM:To generate thalassemia-specific integration-free induced pluripotent stem cells ( iPSC) and to detect their ability of differentiation into hematopoietic precursors .METHODS:The plasmids pEB-C5 and pEB-Tg were transfected into the fibroblast cells from hemoglobin Bart ’ s hydrops fetalis ’ s skin by the method of nuclear transfection to reprogramm the cells into iPSC .The ability of the iPSC to differentiate into 3-germ layer cells was determined .The iPSC were cocultured with mouse OP 9 cells to differentiate into hematopoietic precursors and the hematopoietic precursor specific antigens were detected .RESULTS:The integration-free iPSC from hemoglobin Bart ’ s hydrops fetalis ’ s skin fibroblasts were successfully derived, and had the ability to differentiate into 3 germ layers.When cocultured with OP9 cells for 9 d, the positive rate of hematopoietic progenitor cell marker CD 34 was 18.7%, and the CD34 and CD45 double positive rate was 12.2%.CONCLUSION:Hemoglobin Bart ’ s hydrops fetalis ’ s skin fibroblasts can be successfully induced into “in-tegration-free” iPSC.This cell line has the ability to differentiate into 3 germ layers , and can be differentiated into hemato-poietic precursors when cocultured with OP 9 cells.
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Objective To investigate the acid α glucosidase(GAA)gene mutations and clinical features of a Chinese patient exhibiting signs and symptoms of infantile glycogen storage disease type Ⅱ(GSD Ⅱ). Methods Clinical features of the patient were reviewed,and GAA activity in the patient's and her parents' whole leukocytes were measured. GAA coding regions were amplified by polymerase chain reaction(PCR),and analyzed by direct DNA sequencing. Results The patient showed feeding difficulties,generalized hypotonia and weakness starting at 2 months of age. Cardiomegaly and cardiomyopathy were found at 4 months. She died of cardiorespiratory failure at the age of 6 months. GAA activity in leukocytes was low in the patient(17.3% of the median normal range). Genotyping revealed the patient was a heterozygote for a novel nonsense mutation p.W738X and a previously reported nonsense mutation p.E888X. The reported pseudodeficiency allele c.1726G > A;2065G > Awas found in the patient and her mother. Conclusions Correct diagnosis was made for this patient by combination of GAA activity assay and genetic analysis. From the clinical course,this patient should be classified as infantile type of GSD Ⅱ,suggesting that the novel mutation p.W738X may have a damaging effect on the function of GAA. Pseudodeficiency allele found in this family highlights the importance of genetic analysis of GAA when performing diagnosis and prenatal diagnosis for the affected families,as this allele causes low GAA activity in normal individuals.