SP1/CTR1 mediated oxidative stress-induced cuproptosis in intervertebral disk degeneration

Abstract: Intervertebral disk degeneration (IDD) is the primary pathology responsible for lower back pain. Oxidative stress-induced cell death plays a fundamental role in IDD pathogenesis. Cuproptosis is a recently discovered form of programmed cell death dependent on copper availability. Whether cuproptosis is involved in IDD progression remains unknown. Herein, we established in vitro and in vivo models to investigate the presence of cuproptosis in IDD and the mechanisms by which oxidative stress interacts with copper… Show more

“…[8,9] Several studies have suggested that bioactive materials could attenuate IVDD by inhibiting cellular senescence without causing cell death. [10,11] Mitochondrial dysfunction and consequent redox imbalance are shared hallmarks of cellular senescence and IVDD, yet translational solutions to address these issues are limited. [12][13][14] Thus, developing more bioavailable senomorphics with mitochondrion-targeted or redox-modulating properties for IVDD treatment would be prudent.…”

PGC1α‐Inducing Senomorphic Nanotherapeutics Functionalized with NKG2D‐Overexpressing Cell Membranes for Intervertebral Disc Degeneration

“…[8,9] Several studies have suggested that bioactive materials could attenuate IVDD by inhibiting cellular senescence without causing cell death. [10,11] Mitochondrial dysfunction and consequent redox imbalance are shared hallmarks of cellular senescence and IVDD, yet translational solutions to address these issues are limited. [12][13][14] Thus, developing more bioavailable senomorphics with mitochondrion-targeted or redox-modulating properties for IVDD treatment would be prudent.…”

PGC1α‐Inducing Senomorphic Nanotherapeutics Functionalized with NKG2D‐Overexpressing Cell Membranes for Intervertebral Disc Degeneration