Cell-Permeable
PROTAC Degraders against KEAP1 Efficiently
Suppress Hepatic Stellate Cell Activation through the Antioxidant
and Anti-Inflammatory Pathway
posted on 2022-12-07, 21:06authored byFengqin Wang, Ying Zhan, Manman Li, Lidan Wang, Austin Zheng, Changbai Liu, Hu Wang, Tao Wang
Accumulating evidence indicates that oxidative stress
and inflammation
are involved in the physiopathology of liver fibrogenesis. Nuclear
factor erythroid 2-related factor 2 (Nrf2) is a key transcription
factor, which regulates the expression of redox regulators to establish
cellular redox homeostasis. The Nrf2 modulator can serve as a primary
cellular defense against the cytotoxic effects of oxidative stress.
We designed a chimeric Keap1–Keap1 peptide (KKP1) based on
the proteolysis-targeting chimera technology. The KKP1 peptide not
only can efficiently penetrate into the rat hepatic stellate cell
line (HSC-T6) cells but also can induce Keap1 protein degradation
by the ubiquitination–proteasome degradation pathway, which
releases Nrf2 and promotes the transcriptional activity of the Nrf2/antioxidant
response element pathway. It then activates the protein expression
of the downstream antioxidant factors, the glutamate-cysteine ligase
catalytic subunit and heme oxygenase-1 (HO-1). Finally, Keap1 protein
degradation inhibits the nuclear factor-kappaB inflammatory signal
pathway, the downstream inflammatory factor tumor necrosis factor
alpha, and the interleukin-1beta protein expression and further inhibits
the expression of the fibrosis biomarker gene. The current research
suggests that our designed KKP1 may provide a new avenue for the future
treatment of liver fibrosis.