The role of notch modulation in spatially defined hematopoiesis
About This Grant
Abstract Hematopoietic stem cell (HSC) transplantation is a potent therapeutic strategy for the treatment of many blood disorders. Therefore, the development of methods for deriving large quantities of HSCs is a major focus in regenerative medicine. Unlike HSCs, human induced pluripotent stem cells (hiPSCs) can be grown indefinitely. Despite hiPSCs being an extremely scalable source, HSCs derived from hiPSCs using current protocols are largely devoid of long-term blood reconstitution potential. These shortcomings are suggestive of knowledge gaps surrounding HSC biology. In the Camargo lab we leveraged our in-vivo barcoding mouse model to show definitively that HSCs arise from both intraembryonic (aorta) and extraembryonic (umbilical and vitelline arteries) sites during native hematopoiesis, and that these sites play differential roles in blood production. Our findings suggest for the first time that umbilical and vitelline (UV) artery HSCs are more short-lived than aortic HSCs, and that the UV artery engages potently in embryonic lymphopoiesis. By performing single cell RNA-seq on murine blood producing endothelial cells, I observed differential NOTCH signaling strength and the presence of NOTCH inhibitors GPR183 and DLK1 in the aorta and UV arteries respectively. While it is vastly appreciated that a transient reduction in NOTCH signaling strength is required for hematopoiesis to occur, no study has detailed differential mechanisms of NOTCH inhibition at spatially distinct HSC-producing sites. Cross-referencing this site-specific data with scRNA-seq on a commonly used hiPSC hematopoietic differentiation protocol, I identified for the first time the exclusive prevalence of the UV-like hemogenic endothelium in vitro. To develop methods of producing long-lived HSCs with adult-like lymphoid potential, we plan to study the Notch pathway as a regulator of site-specific hematopoiesis and modulate NOTCH signaling strength to produce more aortic-like hemogenic endothelium from hiPSCs. From this preliminary data, we hypothesize that differential NOTCH signaling strength is crucial for producing distinct hematopoietic programs in the UV arteries and the aorta. To test this central hypothesis, we plan to pursue the following specific aims: (1) characterize the role of GPR183 in aortic hematopoiesis through murine loss of function studies, (2) describe the role of DLK1 in UV hematopoiesis by murine loss of function, and (3) determine the function of DLK1 in controlling the hiPSC spatial hematopoietic program. From these experiments we expect to elucidate the role of these NOTCH inhibitors in spatially defined hematopoiesis. By leveraging our site-specific scRNA-seq dataset, we are uniquely positioned to produce methods of deriving aortic-like blood cells. These novel blood populations have the potential to revolutionize the therapeutics landscape.
Grant Summary
The role of notch modulation in spatially defined hematopoiesis is a NHLBI - National Heart Lung and Blood Institute grant providing up to $44K for university, nonprofit, healthcare org. Applications are due 2029-01-31 (open). Check eligibility and apply with FindGrants.
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Up to $44K
2029-01-31
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The role of notch modulation in spatially defined hematopoiesis: Frequently Asked Questions
Who is eligible for the The role of notch modulation in spatially defined hematopoiesis?
The role of notch modulation in spatially defined hematopoiesis is offered by NHLBI - National Heart Lung and Blood Institute 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 The role of notch modulation in spatially defined hematopoiesis provide?
The role of notch modulation in spatially defined hematopoiesis provides up to $44K per award from NHLBI - National Heart Lung and Blood Institute. 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 The role of notch modulation in spatially defined hematopoiesis deadline?
Applications for The role of notch modulation in spatially defined hematopoiesis are due 2029-01-31 (open). Because deadlines can change, verify the date with the funder, NHLBI - National Heart Lung and Blood Institute, and give yourself enough time to prepare a complete, competitive application before the close date.
How do you apply for the The role of notch modulation in spatially defined hematopoiesis?
To apply for The role of notch modulation in spatially defined hematopoiesis, 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 NHLBI - National Heart Lung and Blood Institute.