BACKGROUND AND OBJECTIVES: Myeloid leukemia of Down's syndrome (ML-DS) has characteristic biological features (e.g. expression of the truncated GATA1s), which are different from those of non-DS childhood acute myeloid leukemias (AML). The objective of this study was to investigate factors predisposing to the development of ML-DS. DESIGN AND METHODS: We analyzed 134 bone marrow specimens from 64 children with ML-DS and non-DS AML during chemotherapy and 7 specimens from DS children with- out leukemia,who did not receive any chemotherapy,The specimens were analyzed by multiparameter flow cytometry and quantitative reverse transcriptase polymerase chain reaction for transcription factors involved in hematopoiesis. RESULTS: Samples taken from children with ML-DS in complete remission during chemotherapy aberrantly expressed CD56 (NCAM) at the surface of monocytic and granulocytic cells. Compared to non-DS AML cases,children with ML-DS had a statistically significant higher proportion of CD56+ cells in the CD33+ fraction: 71%+/-6% vs. 4%+/-1% (p<0.00001). A significant decrease of the amount of CD33+/CD56+ cells was observed during and after maintenance therapy. An increased number of CD33+/CD56+ cells was also present (>85%) in children with DS who did not receive chemotherapy, but showed a left-shift (due to infection), compared with DS children without left-shift (<10% CD33+/CD56+ cells). Within the CD33+/CD56+ fraction, RUNX1 was overexpressed more than 5-fold (p<0.02) compared to CD33+/CD56- cells, whereas there were no differences regarding GATA1, SPI1, ERG or ETS-2 levels. INTERPRETATION AND CONCLUSIONS: The combined overexpression of RUNX1 and NCAM during stress hematopoiesis in children with DS might be a key factor in the development of overt leukemia and/or in the growth advantage of the malignant GATA1s clone in ML- DS.
BACKGROUND AND OBJECTIVES:Myeloid leukemia of Down's syndrome (ML-DS) has characteristic biological features (e.g. expression of the truncated GATA1s), which are different from those of non-DS childhood acute myeloid leukemias (AML). The objective of this study was to investigate factors predisposing to the development of ML-DS. DESIGN AND METHODS: We analyzed 134 bone marrow specimens from 64 children with ML-DS and non-DS AML during chemotherapy and 7 specimens from DS children with- out leukemia,who did not receive any chemotherapy,The specimens were analyzed by multiparameter flow cytometry and quantitative reverse transcriptase polymerase chain reaction for transcription factors involved in hematopoiesis. RESULTS: Samples taken from children with ML-DS in complete remission during chemotherapy aberrantly expressed CD56 (NCAM) at the surface of monocytic and granulocytic cells. Compared to non-DS AML cases,children with ML-DS had a statistically significant higher proportion of CD56+ cells in the CD33+ fraction: 71%+/-6% vs. 4%+/-1% (p<0.00001). A significant decrease of the amount of CD33+/CD56+ cells was observed during and after maintenance therapy. An increased number of CD33+/CD56+ cells was also present (>85%) in children with DS who did not receive chemotherapy, but showed a left-shift (due to infection), compared with DS children without left-shift (<10% CD33+/CD56+ cells). Within the CD33+/CD56+ fraction, RUNX1 was overexpressed more than 5-fold (p<0.02) compared to CD33+/CD56- cells, whereas there were no differences regarding GATA1, SPI1, ERG or ETS-2 levels. INTERPRETATION AND CONCLUSIONS: The combined overexpression of RUNX1 and NCAM during stress hematopoiesis in children with DS might be a key factor in the development of overt leukemia and/or in the growth advantage of the malignant GATA1s clone in ML- DS.
Authors: Elena Varotto; Eleonora Munaretto; Francesca Stefanachi; Fiammetta Della Torre; Barbara Buldini Journal: Front Pediatr Date: 2022-09-28 Impact factor: 3.569
Authors: Maite Mendioroz; Catherine Do; Xiaoling Jiang; Chunhong Liu; Huferesh K Darbary; Charles F Lang; John Lin; Anna Thomas; Sayeda Abu-Amero; Philip Stanier; Alexis Temkin; Alexander Yale; Meng-Min Liu; Yang Li; Martha Salas; Kristi Kerkel; George Capone; Wayne Silverman; Y Eugene Yu; Gudrun Moore; Jerzy Wegiel; Benjamin Tycko Journal: Genome Biol Date: 2015-11-25 Impact factor: 13.583