Age-related matrix stiffening epigenetically regulates α-Klotho expression and compromises chondrocyte integrity.
Hirotaka IijimaGabrielle GilmerKai WangAllison C BeanYuchen HeHang LinWan-Yee TangDaniel LamontChia TaiAkira ItoJeffrey J JonesChristopher H EvansFabrisia AmbrosioPublished in: Nature communications (2023)
Extracellular matrix stiffening is a quintessential feature of cartilage aging, a leading cause of knee osteoarthritis. Yet, the downstream molecular and cellular consequences of age-related biophysical alterations are poorly understood. Here, we show that epigenetic regulation of α-Klotho represents a novel mechanosensitive mechanism by which the aged extracellular matrix influences chondrocyte physiology. Using mass spectrometry proteomics followed by a series of genetic and pharmacological manipulations, we discovered that increased matrix stiffness drove Klotho promoter methylation, downregulated Klotho gene expression, and accelerated chondrocyte senescence in vitro. In contrast, exposing aged chondrocytes to a soft matrix restored a more youthful phenotype in vitro and enhanced cartilage integrity in vivo. Our findings demonstrate that age-related alterations in extracellular matrix biophysical properties initiate pathogenic mechanotransductive signaling that promotes Klotho promoter methylation and compromises cellular health. These findings are likely to have broad implications even beyond cartilage for the field of aging research.
Keyphrases
- extracellular matrix
- dna methylation
- gene expression
- knee osteoarthritis
- mass spectrometry
- genome wide
- transcription factor
- public health
- healthcare
- machine learning
- magnetic resonance
- liquid chromatography
- high resolution
- endothelial cells
- high performance liquid chromatography
- deep learning
- oxidative stress
- computed tomography
- risk assessment
- single molecule