Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis
About This Grant
Project Summary Mutations that reduce or alter the activity of repressive chromatin modifiers are frequent causes of neurodevelopmental disorders. The inaccessibility of the developing and the dynamic nature of neurogenesis so far have prevented an adequate understanding of how molecular pathologies arise downstream of the loss of specific chromatin regulators. This knowledge gap represents a hurdle for developing therapeutic interventions for neurodevelopmental disease. This proposal aims to combine targeted protein depletion with highly efficient directed differentiation regimens for human pluripotent stem cells to dissect gene regulatory functions of the autism-associated chromatin repressor EHMT1 during human cortical neurogenesis. Based on the extensive characterization of a novel, multipurpose (degradation/immunoprecipitation/visualization) degron allele, we hypothesize that interactions with cell type-specific co-factors allow EHMT1 to control the expression of stage- specific target genes during neurogenesis, resulting in the accumulation of molecular alterations and cortical neuron (CN) dysfunction when EHMT1 is lost from early development onwards. To systematically test this hypothesis, we will first determine whether molecular alterations caused by EHMT1 deficiency from earlier stages of neurogenesis onwards accumulate in CNs and to what degree dysregulated gene loci and CN function remain responsive to restoring physiological EHMT1 levels (Aim 1). We will then combine genomics, proteomics, and genetic approaches to identify how EHMT1, together with candidate recruiters and co-factors, regulates distinct gene loci at specific stages of cortical neurogenesis (Aim 2). Finally, we will expand our degron approach to dissect the functional interplay of different autism-associated H3K9 methylation regulators during human neurogenesis to identify interactions between these proteins that could be clinically exploited (Aim 3). Our experiments will determine currently unknown gene regulatory functions of disease-associated chromatin repressors at critical stages of human cortical neurogenesis. By generating mechanistic insight into how deficiencies of EHMT1 and other H3K9 methylation regulators introduce molecular pathologies in CNs, we anticipate revealing new opportunities for therapeutic interventions with specific neurodevelopmental diseases.
Grant Summary
Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis is a NIMH - National Institute of Mental Health grant providing up to $801K for university, nonprofit, healthcare org. Applications are due 2030-12-31 (open). Check eligibility and apply with FindGrants.
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How to Apply
Up to $801K
2030-12-31
- 1Confirm your organization is eligible for Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis from NIMH - National Institute of Mental Health, checking organization type, location, and any population or project requirements.
- 2Gather the required documents and information, including your organization details, project plan, and budget figures.
- 3Draft your application narrative and budget addressing the funder's priorities and review criteria. FindGrants can draft each section for you to review and edit.
- 4Review every section against the requirements checklist, then export a submission-ready application pack and submit it to NIMH - National Institute of Mental Health before the deadline.
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Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis: Frequently Asked Questions
Who is eligible for the Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis?
Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis is offered by NIMH - National Institute of Mental Health 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 Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis provide?
Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis provides up to $801K per award from NIMH - National Institute of Mental Health. 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 Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis deadline?
Applications for Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis are due 2030-12-31 (open). Because deadlines can change, verify the date with the funder, NIMH - National Institute of Mental Health, and give yourself enough time to prepare a complete, competitive application before the close date.
How do you apply for the Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis?
To apply for Transcriptional control by autism associated H3K9 methylation regulators during human neurogenesis, 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 NIMH - National Institute of Mental Health.