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DISCOVERY OF DIABETES-RELEVANT BETA CELL ENHANCERS THROUGH 4D ENHANCER MAPPING, INTEGRATIVE ANALYSIS, AND LARGE-SCALE CRISPRI PERTURBATION SCREENS

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OFHHD: Enhancers are essential regulatory elements that together with transcription factors (TFs) instruct cell- type specific transcriptional programs during development, tissue homeostasis and regeneration. Initiatives such as the ENCODE project, revealed tens of thousands putative enhancers based on linear proximity, using criteria like chromatin accessibility, TF binding, and histone modifications such as H3K27ac. However, a main challenge of uncovering functional enhancers and assigning them to target genes lies in the complexity of the 3D chromatin organization, which can influence enhancer specificity and activity. Using an advanced chromosome conformation capture assay, we recently captured the dynamic rewiring of 3D enhancer networks during mouse somatic cell reprogramming and discovered multi-connected enhancers that we named “3D enhancer hubs”. Here we extend the 3D mapping approach to human primary islets, and compare islets from healthy and type 2 diabetes (T2D) donors to assemble a 4D atlas to capture the rewiring of 3D enhancer network in disease progression. At the same time, we plan to compare the enhancer network in adult islets to earlier stages of development by using human pluripotent stem cells (hPSCs) to generate early β cells and their developmental precursors. Utilizing these 4D genomic data, we will computationally nominate core β-cell specific enhancers relevant to β cell development, function, and T2D, and then interrogate these putative enhancers through large-scale CRISPRi mediated perturbation screens using hPSC-β cells. Enhancers identified from the screening effort will be further validated in an established human β cell line and primary human islet β cells. This proposal addresses a critical gap in the 4DN initiative, that is how to translate 3D genomics data into functional data with respect to gene expression in the context of human health. Successful completion of our aims will establish a paradigm for the discovery and interrogation of functional enhancers that instruct transcriptional programs specific to a cell type of interest, reveal unique insights into their mechanisms of action, and identify enhancers with relevance to human development and disease. For instance, uncovering functional enhancers could assist the identification of noncoding causal variants identified in genome-wide association studies.

   December 3rd, 2020 at 12:59am

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title 
DISCOVERY OF DIABETES-RELEVANT BETA CELL ENHANCERS THROUGH 4D ENHANCER MAPPING, INTEGRATIVE ANALYSIS, AND LARGE-SCALE CRISPRI PERTURBATION SCREENS
end_date 
2025-06-30
project 
4DN
center_title 
OFHHD - Huangfu
name 
1U01DK128852-01
pi 
no view permissions
pi_name 
Danwei Huangfu
start_date 
2020-09-15
url 
https://reporter.nih.gov/project-details/10117708
viewing_group 
4DN