Spatial and single-cell profiling of the metabolome, transcriptome and epigenome of the aging mouse liver
Authors
- C. Nikopoulou
- N. Kleinenkuhnen
- S. Parekh
- T. Sandoval
- C. Ziegenhain
- F. Schneider
- P. Giavalisco
- K.F. Donahue
- A.J. Vesting
- M. Kirchner
- M. Bozukova
- C. Vossen
- J. Altmüller
- T. Wunderlich
- R. Sandberg
- V. Kondylis
- A. Tresch
- P. Tessarz
Journal
- Nature Aging
Citation
- Nat Aging 3 (11): 1430-1445
Abstract
Tissues within an organism and even cell types within a tissue can age with different velocities. However, it is unclear whether cells of one type experience different aging trajectories within a tissue depending on their spatial location. Here, we used spatial transcriptomics in combination with single-cell ATAC-seq and RNA-seq, lipidomics and functional assays to address how cells in the male murine liver are affected by age-related changes in the microenvironment. Integration of the datasets revealed zonation-specific and age-related changes in metabolic states, the epigenome and transcriptome. The epigenome changed in a zonation-dependent manner and functionally, periportal hepatocytes were characterized by decreased mitochondrial fitness, whereas pericentral hepatocytes accumulated large lipid droplets. Together, we provide evidence that changing microenvironments within a tissue exert strong influences on their resident cells that can shape epigenetic, metabolic and phenotypic outputs.