![Prospective isolation of human BM populations highly enriched in BFU-E and CFU-E activity. (A) Left: Clonogenic capacity of flow-sorted CMP, MEP, and GMP from purified, BM-derived CD34+ cells from TD DBA patients (n = 5) and age-matched controls (CON, n = 4). Right: Abnormal erythroid colonies, which we termed erythroid clusters, are observed exclusively in DBA cultures. (B) EP populations arising downstream of MEP (defined by flow cytometry as Lin−CD34+CD38+CD45RA−CD123−) were characterized by their expression of CD71, CD41a, CD36, and CD105. (C) CD71+CD41a−CD105−CD36− (n = 6) and CD71+CD41a−CD105+CD36+ (n = 5) subpopulations were sorted into complete methylcellulose containing cytokines supportive of erythroid and myeloid development. GMPs were sorted concurrently as a control. Hematopoietic colonies were identified and scored as described in supplemental Materials and methods. (D) Single-cell clonogenic assays of Lin−CD34+CD38+CD45RA−CD123−CD71+CD41a−CD105−CD36− cells (EEP; n = 5) and Lin−CD34+CD38+CD45RA−CD123−CD71+CD41a−CD105+CD36+ cells (LEP; n = 3). The percentage single-cell clonogenicity is defined as % of wells in which a colony grew following flow sorting of 1 cell per well. (E) May-Grünwald Giemsa staining of flow-sorted EEP and LEP from control adult BM. (F) Proliferative capacity of flow-sorted EEP and LEP in a longitudinal liquid culture (Protocol B; supplemental Materials and methods) assessed by cell counting (n = 4). Cells on day 11 were erythroblasts (ie, CD34−CD71+GlyA+CD14−CD11b−CD41a−). (G) Concurrent cell-cycle analysis on day 11 shows a higher number of erythroblasts derived from EEP in S phase with fewer in G0/1 compared with erythroblasts derived from LEP (P < .05). (H) Flow-sorted EEP and LEP derived from control adult BM were cultured in the presence of erythropoietin, IL-3, IL-6, and stem cell factor (Protocol A; supplemental Materials and methods). Three days later, flow-cytometric analysis showed that EEP acquired expression of CD105 and CD36, whereas LEP gained higher expression of CD105 and CD36 (blue dots = day 0; green dots = day 3). Plots shown are representative of 2 independent experiments. (I) Messenger RNA expression levels of CD36, GATA-1, and GATA-2 determined by quantitative real-time PCR in purified GMP, MEP, EEP, LEP, and erythroblasts (Lin−CD34−CD36hiCD71+GlyA+ erythroblasts [EB]), derived from 3 control BM samples. Transcript levels are normalized to GAPDH and expressed relative to the corresponding gene expression in MEP. As expected, GMPs do not express CD36 and GATA-1 but express a low level of GATA-2. Data are shown as mean ± SEM. *P < .05. CON, controls; NS, not significant.](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/125/16/10.1182_blood-2014-10-608042/4/2553f1.jpeg?Expires=1720362619&Signature=XKRYoGmqRMYvV~XPykHJMqQtVouYC7gz75tAk4LGizVDWsMUKECosBwO-2INWr6XmzsxoWskzV8dCsRJsbf3r~WHrKZJcRa-Euqo90pT4CDpeO72EGQ~Zy5Rngm4azuiDJhuqmd4sBwQGqFfOyQMIx78y8eGb3dDzIeA5x9BefuYAER8f1XI6flSrkawapGTZcwb~5COsewsvY4XEil2BJzP53IAW3DlmYlOQjD6f4WdQ6WTY1dhzSZzpG9AQ2H2UNn12IfyCO4jN~CHWlEO9FVnww08T7Hg0K8av6qJbWYSQg3NUme52PPdb7jhpqrFRcA6M3qJ-alw2CSWHqgXrg__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
Prospective isolation of human BM populations highly enriched in BFU-E and CFU-E activity. (A) Left: Clonogenic capacity of flow-sorted CMP, MEP, and GMP from purified, BM-derived CD34+ cells from TD DBA patients (n = 5) and age-matched controls (CON, n = 4). Right: Abnormal erythroid colonies, which we termed erythroid clusters, are observed exclusively in DBA cultures. (B) EP populations arising downstream of MEP (defined by flow cytometry as Lin−CD34+CD38+CD45RA−CD123−) were characterized by their expression of CD71, CD41a, CD36, and CD105. (C) CD71+CD41a−CD105−CD36− (n = 6) and CD71+CD41a−CD105+CD36+ (n = 5) subpopulations were sorted into complete methylcellulose containing cytokines supportive of erythroid and myeloid development. GMPs were sorted concurrently as a control. Hematopoietic colonies were identified and scored as described in supplemental Materials and methods. (D) Single-cell clonogenic assays of Lin−CD34+CD38+CD45RA−CD123−CD71+CD41a−CD105−CD36− cells (EEP; n = 5) and Lin−CD34+CD38+CD45RA−CD123−CD71+CD41a−CD105+CD36+ cells (LEP; n = 3). The percentage single-cell clonogenicity is defined as % of wells in which a colony grew following flow sorting of 1 cell per well. (E) May-Grünwald Giemsa staining of flow-sorted EEP and LEP from control adult BM. (F) Proliferative capacity of flow-sorted EEP and LEP in a longitudinal liquid culture (Protocol B; supplemental Materials and methods) assessed by cell counting (n = 4). Cells on day 11 were erythroblasts (ie, CD34−CD71+GlyA+CD14−CD11b−CD41a−). (G) Concurrent cell-cycle analysis on day 11 shows a higher number of erythroblasts derived from EEP in S phase with fewer in G0/1 compared with erythroblasts derived from LEP (P < .05). (H) Flow-sorted EEP and LEP derived from control adult BM were cultured in the presence of erythropoietin, IL-3, IL-6, and stem cell factor (Protocol A; supplemental Materials and methods). Three days later, flow-cytometric analysis showed that EEP acquired expression of CD105 and CD36, whereas LEP gained higher expression of CD105 and CD36 (blue dots = day 0; green dots = day 3). Plots shown are representative of 2 independent experiments. (I) Messenger RNA expression levels of CD36, GATA-1, and GATA-2 determined by quantitative real-time PCR in purified GMP, MEP, EEP, LEP, and erythroblasts (Lin−CD34−CD36hiCD71+GlyA+ erythroblasts [EB]), derived from 3 control BM samples. Transcript levels are normalized to GAPDH and expressed relative to the corresponding gene expression in MEP. As expected, GMPs do not express CD36 and GATA-1 but express a low level of GATA-2. Data are shown as mean ± SEM. *P < .05. CON, controls; NS, not significant.
