AI Article Synopsis
- The human brain consists of various cell types that can change due to health conditions, highlighting the need for better methods to study these differences.
- Current DNA methylation-based techniques for analyzing brain cell diversity are limited in their application, prompting the development of a new hierarchical modeling approach.
- This innovative method has been successfully tested on both normal and diseased brain tissues, offering insights into cell composition and epigenetic states in conditions like Alzheimer's and schizophrenia.
Article Abstract
Introduction: The human brain comprises heterogeneous cell types whose composition can be altered with physiological and pathological conditions. New approaches to discern the diversity and distribution of brain cells associated with neurological conditions would significantly advance the study of brain-related pathophysiology and neuroscience. Unlike single-nuclei approaches, DNA methylation-based deconvolution does not require special sample handling or processing, is cost-effective, and easily scales to large study designs. Existing DNA methylation-based methods for brain cell deconvolution are limited in the number of cell types deconvolved.
Methods: Using DNA methylation profiles of the top cell-type-specific differentially methylated CpGs, we employed a hierarchical modeling approach to deconvolve GABAergic neurons, glutamatergic neurons, astrocytes, microglial cells, oligodendrocytes, endothelial cells, and stromal cells.
Results: We demonstrate the utility of our method by applying it to data on normal tissues from various brain regions and in aging and diseased tissues, including Alzheimer's disease, autism, Huntington's disease, epilepsy, and schizophrenia.
Discussion: We expect that the ability to determine the cellular composition in the brain using only DNA from bulk samples will accelerate understanding brain cell type composition and cell-type-specific epigenetic states in normal and diseased brain tissues.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10315586 | PMC |
| http://dx.doi.org/10.3389/fnins.2023.1198243 | DOI Listing |
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