Frontiers in pharmacology

Disrupting daily body clocks slows tooth repair and changes protein patterns during late healing in injured mouse teeth

Updated

Abstract

Chronic circadian rhythm disruption (CRD) consistently reduced newly formed dentine area following dental pulp injury.

  • CRD produced a behavioral phenotype with reduced locomotor activity and increased anxiety-like behavior in male BALB/c mice.
  • Histological analysis showed a typical reparative pattern after dental pulp injury, but CRD compromised the differentiation of odontoblast-like cells and mineral deposition.
  • Proteomic profiling revealed extensive remodeling of the dental proteome, highlighting injury- and CRD-dependent molecular changes.
  • 204 proteins were identified as injury-specific, 128 as CRD-specific, and 86 as co-regulated, categorizing responses into different regulatory modules.
  • The findings suggest that circadian misalignment may impair dentine regenerative capacity and alter the dental proteome.

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