AI Article Synopsis
- Bcl-2 is an anti-apoptotic protein that often overexpresses in various human cancers, contributing to evasion of cell death.
- Synthetic glucocorticoids like dexamethasone are used in chemotherapy for lymphoid cancers but Bcl-2-expressing cells resist their effects, showing both pro- and anti-apoptotic responses.
- Research indicates that manipulating intracellular potassium levels can enhance the lethality of glucocorticoids on these resistant cells by altering mitochondrial membrane potential, suggesting treatment duration with dexamethasone is vital for inducing cell death.
Article Abstract
Bcl-2 is an anti-apoptotic protein that promotes cell survival and resistance to cell death. Predictably, Bcl-2 as well as other anti-apoptotic Bcl-2 family members have been found to be overexpressed in a variety of human cancers. Approaches to overcome apoptotic resistance afforded by Bcl-2 in cells include anti-sense oligonucleotides, drugs that inhibit Bcl-2 function, and BH3 mimics have not been universally effective; thus, the need to understand the underlying mechanism of this resistance is vital. Glucocorticoids are stress hormones that act through their cognate receptors to control the transcription of numerous target genes, and in turn regulate a diverse array of biological processes. Synthetic glucocorticoids, such as dexamethasone, are prescribed in many chemotherapy protocols for neoplasms of lymphoid origin based on their ability to inhibit lymphocyte proliferation and promote apoptosis. However, lymphoid cells expressing Bcl-2 are resistant to glucocorticoid-induced cell death. We observed both pro- and anti-apoptotic characteristics in lymphoid cells expressing Bcl-2 following glucocorticoid treatment. These cells exhibited a profound change in their intracellular ionic composition, but a limited apoptotic ion flux and the absence of cell death. Provocatively, mimicking the loss of intracellular potassium using a low dose of a microbial toxin that acts as a potassium ionophore in combination with dexamethasone overcame the resistance afforded by Bcl-2 and killed the cells. Extending our study using other potassium ionophores revealed that direct depolarization of the mitochondria membrane potential coupled with prior treatment with glucocorticoids is the key mechanism for activating the cell death program and bypassing the resistance afforded by Bcl-2 in lymphoid cells. Finally, we show that the duration of dexamethasone pre-treatment is critical for regulating distinct genes and signaling pathways that sensitize the cells to die.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9767920 | PMC |
| http://dx.doi.org/10.1038/s41420-022-01285-x | DOI Listing |
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