Two iPSC lines generated from the bone marrow of a relapsed/refractory AML patient display normal karyotypes and myeloid differentiation potential

Two iPSC lines generated from the bone marrow of a relapsed/refractory AML patient display normal karyotypes and myeloid differentiation potential

Using iPSCs to study cancer has been complicated by the fact that many cancer cells are difficult to reprogram, which has been attributed to the genomic abnormalities present. Acute Myeloid Leukemia (AML) is a complex disease that presents with various types of genomic aberrations that affect progno...

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Veröffentlicht in:Stem cell research 2019-12, Vol.41, p.101587-101587, Article 101587
Hauptverfasser: Yamasaki, Amanda E., King, Nicholas E., Matsui, Hiroko, Jepsen, Kristen, Panopoulos, Athanasia D.
Format: Artikel
Sprache:eng
Schlagworte:
Acute Myeloid Leukemia
Bone marrow cells
Disease modeling
Induced pluripotent stem cells
Reprogramming
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Zusammenfassung:Using iPSCs to study cancer has been complicated by the fact that many cancer cells are difficult to reprogram, which has been attributed to the genomic abnormalities present. Acute Myeloid Leukemia (AML) is a complex disease that presents with various types of genomic aberrations that affect prognosis. Here we reprogrammed CD34+ cells from an AML patient containing a rare der(7)t(7;13) translocation associated with poor prognosis, who had relapsed and was refractory to current treatments. The generated AML-iPSCs displayed normal karyotypes and myeloid differentiation potential. These findings have implications for modeling and treating AML disease.
ISSN:1873-5061
1876-7753
DOI:10.1016/j.scr.2019.101587