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Valproate Mediated Proteasome Dysfunctions Induce Apoptosis
Date Issued
2024-01-01
Author(s)
Kinger, Sumit
Jagtap, Yuvraj Anandrao
Dubey, Ankur Rakesh
Kumar, Prashant
Choudhary, Akash
Karmakar, Surojit
Lal, Girdhari
Prajapti, Vijay Kumar
Jha, Hem Chandra
Gutti, Ravi Kumar
Mishra, Amit
DOI
10.1002/adtp.202300421
Abstract
Several studies suggest Valproate's (VPA) therapeutic use in treating seizures, epilepsy, and bipolar disorder. Valproate is a class I histone deacetylases (HDACs) inhibitor and an attractive chemotherapeutic agent for targeting cancer. Few reports suggest that Valproate can suppress cell growth and cell differentiation and is linked with anti-tumor activity. However, Valproate-associated anti-tumoral function and intracellular signaling cascade-mediated anti-cellular proliferation activities still need to be better understood. This current study suggests that Valproate can elevate proteasomal dysfunctions, resulting in misfolded protein accumulation and abnormal mitochondrial functions that successively induce apoptosis. Present findings indicate that treatment of Valproate inhibits Proteasome activities and also aggravates accumulation of expanded polyglutamine proteins and other proteasomal substrates. Overall, the aggregation of aberrant proteins and mitochondrial dysfunctions are observed, such as cytochrome c release, and disturbed mitochondrial membrane potential. Treatment of Valproate induces apoptotic morphological changes and cell death. These observations suggest that Valproate can cause mitochondrial abnormalities associated with apoptosis. These findings can provide new possible insights and suggest molecular approaches for developing better and specific Proteasome inhibitors that can be better useful with other anti-tumor drugs for treatment of cancer and other complex diseases.