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Effects of Herpud1 in Methamphetamine-induced Neuronal Apoptosis
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Introduction:
Methamphetamine (METH) is an illicit psychoactive substance
that can damage various organs in the body, especially the nervous system. We hypothesized
that expression of homocysteine-inducible endoplasmic reticulum-resident with
ubiquitin-like domain member 1 (Herpud1) protein would alleviate the induction of
apoptosis following METH administration.
Methods:
To test this hypothesis, we analysed the changes in Herpud1 expression and
apoptosis in PC12 cells under different concentrations and exposure times of METH.
Moreover, we examined the effects of Herpud1 knockdown on METH-induced neuronal
apoptosis. Flow cytometry and Western blot analyses were used to evaluate apoptosis
levels and the expression of apoptotic markers (cleaved caspase-3) in PC12 cells following
Herpud1 knockdown by synthetic small interfering RNA (siRNA).
Results:
Our results showed that Herpud1 expression was upregulated in PC12 cells following
METH treatment, while endoplasmic reticulum stress (ERS) and apoptosis were
also increased. Conversely, Herpud1 knockdown reduced METH-induced ERS and
apoptosis levels in vitro.
Conclusions:
These results suggest that Herpud1 plays an essential role in METH-induced
neuronal ERS and apoptosis and may represent a potential therapeutic gene target
in METH-induced neurotoxicity.
Bentham Science Publishers Ltd.
Title: Effects of Herpud1 in Methamphetamine-induced Neuronal Apoptosis
Description:
Introduction:
Methamphetamine (METH) is an illicit psychoactive substance
that can damage various organs in the body, especially the nervous system.
We hypothesized
that expression of homocysteine-inducible endoplasmic reticulum-resident with
ubiquitin-like domain member 1 (Herpud1) protein would alleviate the induction of
apoptosis following METH administration.
Methods:
To test this hypothesis, we analysed the changes in Herpud1 expression and
apoptosis in PC12 cells under different concentrations and exposure times of METH.
Moreover, we examined the effects of Herpud1 knockdown on METH-induced neuronal
apoptosis.
Flow cytometry and Western blot analyses were used to evaluate apoptosis
levels and the expression of apoptotic markers (cleaved caspase-3) in PC12 cells following
Herpud1 knockdown by synthetic small interfering RNA (siRNA).
Results:
Our results showed that Herpud1 expression was upregulated in PC12 cells following
METH treatment, while endoplasmic reticulum stress (ERS) and apoptosis were
also increased.
Conversely, Herpud1 knockdown reduced METH-induced ERS and
apoptosis levels in vitro.
Conclusions:
These results suggest that Herpud1 plays an essential role in METH-induced
neuronal ERS and apoptosis and may represent a potential therapeutic gene target
in METH-induced neurotoxicity.
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