Endplate remodeling: a key indicator of cigarette smoke exposure-induced intervertebral disc degeneration in a male rat model.

Recent clinical studies have established a strong association between cigarette smoking and degenerative disc disease. Both in vitro and in vivo research indicated that cigarette smoke disrupts cellular homeostasis in the intervertebral disc (IVD), leading to spatiotemporal remodeling of the extracellular matrix, with a notable reduction in solute diffusivity within the cartilage endplate (CEP). As the CEP serves as a critical mechanical barrier and solute diffusion pathway for the IVD, both roles can be compromised by pathological changes in the tissue. This underscores the need for a more comprehensive examination of endplate remodeling during IVD degeneration, particularly in the context of cigarette smoking and cessation. The objective of this study was to perform a quantitative analysis of the structure-material property relationship changes in the endplate at tissue and cellular levels to determine how endplate mineralization progresses during IVD degeneration in the context of cigarette smoke exposure and cessation, using our previously developed Sprague-Dawley rat model. Our results indicate that cigarette smoke exposure-induced endplate remodeling is characterized by a higher CEP histological grade, increased aberrant CEP calcification level, and elevated bony endplate surface flatness score, all of which correlated with an accelerated chondrocyte cell life cycle. Smoke cessation alone was insufficient to reverse the mineralization progression in the endplate. Principal component analysis further identified alterations in endplate morphometry at the tissue level and disruptions in the chondrocyte life cycle at cellular level as key markers of degenerative remodeling. These findings establish endplate remodeling as a key indicator of smoke exposure-induced IVD degeneration and inform the development of novel therapeutic strategies aimed at preserving or improving disc health.