Regulatory role of cathepsin L in induction of nuclear laminopathy in Alzheimer's disease.
Md Imamul IslamPandian NagakannanTetiana ShcholokFabio ContuSabine MaiBenedict C AlbensiMarc R Del BigioJun-Feng WangMd Golam SharoarRiqiang YanIl-Seon ParkEftekhar EftekharpourPublished in: Aging cell (2021)
Experimental and clinical therapies in the field of Alzheimer's disease (AD) have focused on elimination of extracellular amyloid beta aggregates or prevention of cytoplasmic neuronal fibrillary tangles formation, yet these approaches have been generally ineffective. Interruption of nuclear lamina integrity, or laminopathy, is a newly identified concept in AD pathophysiology. Unraveling the molecular players in the induction of nuclear lamina damage may lead to identification of new therapies. Here, using 3xTg and APP/PS1 mouse models of AD, and in vitro model of amyloid beta42 (Aβ42) toxicity in primary neuronal cultures and SH-SY5Y neuroblastoma cells, we have uncovered a key role for cathepsin L in the induction of nuclear lamina damage. The applicability of our findings to AD pathophysiology was validated in brain autopsy samples from patients. We report that upregulation of cathepsin L is an important process in the induction of nuclear lamina damage, shown by lamin B1 cleavage, and is associated with epigenetic modifications in AD pathophysiology. More importantly, pharmacological targeting and genetic knock out of cathepsin L mitigated Aβ42 induced lamin B1 degradation and downstream structural and molecular changes. Affirming these findings, overexpression of cathepsin L alone was sufficient to induce lamin B1 cleavage. The proteolytic activity of cathepsin L on lamin B1 was confirmed using mass spectrometry. Our research identifies cathepsin L as a newly identified lamin B1 protease and mediator of laminopathy observed in AD. These results uncover a new aspect in the pathophysiology of AD that can be pharmacologically prevented, raising hope for potential therapeutic interventions.
Keyphrases
- oxidative stress
- mass spectrometry
- gene expression
- cell proliferation
- ejection fraction
- dna methylation
- newly diagnosed
- transcription factor
- genome wide
- cognitive decline
- cerebral ischemia
- physical activity
- white matter
- poor prognosis
- multiple sclerosis
- dna binding
- blood brain barrier
- cell cycle arrest
- chronic kidney disease
- copy number
- peritoneal dialysis
- solid phase extraction