Targeted gene deletion demonstrates that the cell adhesion molecule ICAM-4 is critical for erythroblastic island formation

Lee, Gloria; Lo, Annie; Short, Sarah A.; Mankelow, Tosti J.; Spring, Frances A.; Parsons, Stephen; Yazdanbakhsh, Karina; Mohandas, Narla; Anstee, David J.; Chasis, Joel Anne

doi:10.1182/blood-2006-03-006759

Cited by 118 publications

(118 citation statements)

References 40 publications

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“…6 Thus, c-Maf and Palladin are important for erythroblastic islands in the embryonic stage, but their importance in the adult stage is still unconfirmed. However, a previous study found that ICAM-4 is critical for erythroblastic island formation in adult marrow, 41 but the role of ICAM-4 in the embryonic stage has been left for future study. Overall, previous studies and our results indicate that there might be different mechanisms or regulation processes or both between fetal liver and adult marrow/spleen erythroblastic island formation and maintenance.…”

Section: Discussionmentioning

confidence: 99%

c-Maf plays a crucial role for the definitive erythropoiesis that accompanies erythroblastic island formation in the fetal liver

Kusakabe

Hasegawa²,

Hamada³

et al. 2011

Blood

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Section: Discussionmentioning

confidence: 99%

c-Maf plays a crucial role for the definitive erythropoiesis that accompanies erythroblastic island formation in the fetal liver

Kusakabe

Hasegawa²,

Hamada³

et al. 2011

Blood

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“…However, our data predict that the expression and/or interaction of key adhesion molecules on the surfaces of the red cells and macrophages may be sensitive to oxygen tension. It will therefore be interesting to determine whether adhesion molecules known to mediate macrophage-erythroblast interactions, such as ICAM-4 and ␣ 5 -integrin 33 or ␣ 4 -integrin and VCAM-1, 34 are altered in their expression or activity by changes in oxygen tension.…”

Section: Discussionmentioning

confidence: 99%

Hypoxic stress underlies defects in erythroblast islands in the Rb-null mouse

Dibling¹,

Macleod

2007

Blood

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Definitive erythropoiesis occurs in islands composed of a central macrophage in contact with differentiating erythroblasts. Erythroid maturation including enucleation can also occur in the absence of macrophages both in vivo and in vitro. We reported previously that loss of Rb induces cell-autonomous defects in red cell maturation under stress conditions, while other reports have suggested that the failure of Rb-null erythroblasts to enucleate is due to defects in associated macrophages. Here we show that erythropoietic islands are disrupted by hypoxic stress, such as occurs in the Rb-null fetal liver, that Rb ؊/؊ macrophages are competent for erythropoietic island formation in the absence of exogenous stress and that enucleation defects persist in Rb-null erythroblasts irrespective of macrophage function.

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“…[9][10][11][12] However, macrophage colony-stimulating factor (M-CSF)-deficient op/op mice and CSFR -/-mice, which display reduced F4/80 tissue-resident macrophages, are characterized by hypocellularity of the bone marrow and reduced erythroid burst-forming units (BFU-E), 13 which indicates a major effect of macrophages on HSPC. In addition, erythroblast proliferation in bone marrow was unchanged in myeloablated mice and the ratios between the different stages during erythroblast maturation were comparable.…”

Section: Introductionmentioning

confidence: 99%

CD14+ cells from peripheral blood positively regulate hematopoietic stem and progenitor cell survival resulting in increased erythroid yield

et al. 2015

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© F e r r a t a S t o r t i F o u n d a t i o nIn this study we showed that human PBMC-derived CD14 + Methods Cell sortingCD3, CD19, CD14 and CD34 MicroBeads (Miltenyi Biotec; Bergisch Gladbach, Germany) were used for magnetic-activated cell sorting (MACS) from PBMC (manufacturer's protocol). Prior to sorting, monocytes/macrophages were purified from PBMC by counterflow centrifugal elutriation (JE-6B Beckman-Coulter centrifuge, Beckman Instruments Inc.; Palo Alto, CA, USA). Monocyte/macrophage subsets and hematopoietic precursors were sorted on a FACS-Aria II/III (BD Biosciences; Oxford, UK). Cell cultureHuman cells were cultured in StemSpan (Stem Cell Technologies; Grenoble, France) supplemented with stem cell factor (SCF; supernatant equivalent to 100 ng/mL), erythropoietin (2 U/mL, ProSpec; East Brunswick, NJ, USA), dexamethasone (1 μM, Sigma; St. Louis, MO, USA) and cholesterol-rich lipids (40 μg/mL, Sigma) as described elsewhere.14,15 Informed consent was given in accordance with the Declaration of Helsinki and Dutch national and Sanquin internal ethic boards. Conditioned media were collected from CD14 + cells cultured for 2 days at 5-10x10 6 cells/8 mL, filtered (0.22 μm) and stored at 4°C. Isolated CD34 + cells were cultured with conditioned media diluted 1:2 with fresh culture medium. The media were replenished every 2 days. Co-culture experiments CD34+ cells were co-cultured with purified hematopoietic effector cells using ratios found in PBMC (1:100 CD14 Transwell assays CD14+ and CD34 + cells were seeded into transwells (0.4 µm polyester membrane, Corning; NY, USA) with CD34 + cells inside the transwell and CD14 + cells in the well (at a ratio of 1:100). Cells were analyzed after 2-8 days on the flow cytometer. Colony assaysColony assays were started with freshly purified, sorted, or cultured cells mixed with methacult (Medium ColonyGel ™ Cell Systems; Troisdorf, Germany). After 14 days, total colony numbers and colony-forming units were manually scored twice using a wide-field microscope (Axiovert 200M, Carl Zeiss Inc.; Thornwood, NY, USA). Proliferation assays CD34+ cells were washed in phosphate-buffered saline (PBS) supplemented with 0.1% bovine serum albumin (BSA, Sigma; PSA). Cells were labeled with 0.5 μM carboxyfluoroscein succinimidyl ester (CFSE, Molecular Probes; Leiden, The Netherlands) for 8 min with gentle shaking at 37°C. Cells were washed in 1% PSA and cultured with or without CD14+ cells (at a ratio of 1:100) for 2 days. CFSE dilution was measured by flow cytometry. Flow cytometryCells were washed in PBS and re-suspended in 1% PSA. Cells were incubated with primary antibodies for 30 min at 4°C, washed in PBS and measured on a FACS Canto II or LSR Fortessa (both BD Biosciences) and analyzed using FlowJo software (FlowJo v7.6.4/v10; Ashland, OR, USA). The antibodies are detailed in the Online Supplementary Methods. For apoptosis experiments, cells were stained in 100 μL binding buffer with annexin V-APC (BD Biosciences; 1:200) at 4°C. After 30 min, 100 μL binding buffer and...

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Targeted gene deletion demonstrates that the cell adhesion molecule ICAM-4 is critical for erythroblastic island formation

Cited by 118 publications

References 40 publications

c-Maf plays a crucial role for the definitive erythropoiesis that accompanies erythroblastic island formation in the fetal liver

c-Maf plays a crucial role for the definitive erythropoiesis that accompanies erythroblastic island formation in the fetal liver

Hypoxic stress underlies defects in erythroblast islands in the Rb-null mouse

CD14+ cells from peripheral blood positively regulate hematopoietic stem and progenitor cell survival resulting in increased erythroid yield

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