Deciphering erythroblastic islands in mice and humans during development and stress
NIDDK - National Institute of Diabetes and Digestive and Kidney Diseases
About This Grant
(PLEASE KEEP IN WORD, DO NOT PDF) Terminal differentiation of erythroid cells occurs in the erythroid-specific niches. The most studied erythroid niche is the erythroblastic island (EBI), which comprises a central macrophage surrounded by developing erythroblasts. While studies over the past decades have identified many genes that are functionally important for EBI, the field faces major caveats. Current knowledge of EBI is predominantly derived from studies of in vitro reconstitution of mixed cell populations that do not recapitulate in vivo niches. In addition, the EBI compositions in human hematopoietic tissues are unknown. In this project, we aim to uncover the anatomy, composition, and functions of EBIs in mice and humans using unbiased approaches through multiple spatial mapping technologies. Through spatial transcriptomic studies, we revealed a higher positive spatial correlation between erythroid cells and C1q+ macrophages than with other macrophages, suggesting that C1q+ macrophages are likely the EBI macrophages in mice. This strong positive correlation between C1q+ macrophages and erythroid cells was also observed in newborn bone marrow and adult spleen under physiologic and stress conditions. We applied the same technologies to human hematopoietic tissues. In contrast to mice, we did not observe a strong positive correlation between erythroid cells and C1q+ or other macrophages in the human hematopoietic tissues. Instead, there is a strong association between erythroid progenitors and maturing erythroid cells. This erythroid self-assembled EBI structure was recapitulated in a human induced pluripotent stem cell (iPSC)-derived bone marrow organoid model. Furthermore, we identified ICAM4 as a critical erythroid surface protein that maintains erythroid-centered EBIs in humans. These preliminary studies uncover unique erythroid niches in mice and humans. Based on this evidence, we hypothesize that mouse and human EBIs have distinct structures and molecular features that help sustain terminal erythropoiesis. In this project, we propose to investigate the composition of macrophage-centered EBIs and the mechanisms of C1q in EBI macrophages in hematopoietic tissues in mice. The same approaches will be used to study ICAM4 and erythroid self-assembled EBIs in humans. Furthermore, EBI responses and their molecular mechanisms under stress and disease conditions in mice and humans will also be investigated. The success of this project will not only advance the understanding of red cell biology but also offer invaluable insights into hematopoiesis as a whole.
Grant Summary
Deciphering erythroblastic islands in mice and humans during development and stress is a NIDDK - National Institute of Diabetes and Digestive and Kidney Diseases grant providing up to $680K for university, nonprofit, healthcare org. Applications are due 2030-01-31 (open). Check eligibility and apply with FindGrants.
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Up to $680K
2030-01-31
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Deciphering erythroblastic islands in mice and humans during development and stress: Frequently Asked Questions
Who is eligible for the Deciphering erythroblastic islands in mice and humans during development and stress?
Deciphering erythroblastic islands in mice and humans during development and stress is offered by NIDDK - National Institute of Diabetes and Digestive and Kidney Diseases and is generally open to university, nonprofit, healthcare org. It is open to organizations nationwide unless the funder specifies otherwise. Review the specific eligibility terms before applying, since funders set their own requirements around organization type, location, and the population or project being served.
How much funding does the Deciphering erythroblastic islands in mice and humans during development and stress provide?
Deciphering erythroblastic islands in mice and humans during development and stress provides up to $680K per award from NIDDK - National Institute of Diabetes and Digestive and Kidney Diseases. Actual award sizes depend on the scope of your project, available program funds, and the number of applicants, so build a budget that reflects realistic, allowable costs rather than the maximum figure.
When is the Deciphering erythroblastic islands in mice and humans during development and stress deadline?
Applications for Deciphering erythroblastic islands in mice and humans during development and stress are due 2030-01-31 (open). Because deadlines can change, verify the date with the funder, NIDDK - National Institute of Diabetes and Digestive and Kidney Diseases, and give yourself enough time to prepare a complete, competitive application before the close date.
How do you apply for the Deciphering erythroblastic islands in mice and humans during development and stress?
To apply for Deciphering erythroblastic islands in mice and humans during development and stress, confirm your eligibility, gather the required documents, and prepare a narrative and budget that address the funder's priorities. FindGrants guides you step by step and can draft each section, then exports a submission-ready application pack for this grant from NIDDK - National Institute of Diabetes and Digestive and Kidney Diseases.