Abstract
Previously, we have found that cancer cells survived from 5-Aminolevulinic acid-mediated photodynamic therapy (ALA-PDT) have abnormal mitochondrial function and suppressed cellular invasiveness. Here we report that both the mRNA expression level and enzymatic activity of histone deacetylase (HDAC) were elevated in the PDT-derived variants with dysfunctional mitochondria. The activated HDAC deacetylated histone H3 and further resulted in the reduced migration and invasion, which correlated with the reduced expression of the invasion-related genes, matrix metalloproteinase 9 (MMP9), paternally expressed gene 1 (PEG1), and miR-355, the intronic miRNA. Using chromatin immunoprecipitation, we further demonstrate the reduced amount of acetylated histone H3 on the promoter regions of MMP9 and PEG1, supporting the down-regulation of these two genes in PDT-derived variants. These results indicate that HDAC activation induced by mitochondrial dysfunction could modulate the cellular invasiveness and its related gene expression. This argument was further verified in the 51-10 cybrid cells with the 4977 bp mtDNA deletion and A375 ρ0 cells with depleted mitochondria. These results indicate that mitochondrial dysfunction might suppress tumor invasion through modulating histone acetylation.
Highlights
Results and DiscussionThe mitochondrial dysfunction in 51-10 cells is attributed to the 4977 bp mtDNA deletion (approximately 85%)
We have found that cancer cells survived from 5-Aminolevulinic acid-mediated photodynamic therapy (ALA-PDT) have abnormal mitochondrial function and suppressed cellular invasiveness
PDT-Derived A375 Variants Contain Elevated histone deacetylase (HDAC) (Histone Deacetylase) Activity and Previously we have shown that A375/6A5 variants, derived from human melanoma A375 cells under consecutive photodynamic treatment, have reduced mitochondrial function and cell migration and invasiveness [7]
Summary
The mitochondrial dysfunction in 51-10 cells is attributed to the 4977 bp mtDNA deletion (approximately 85%) In these two cell lines, mitochondrial dysfunction was induced by a different mode of treatment; they all have reduced histone acetylation and further result in the suppressed cellular migration/invasion and expression of MMP9, PEG1, and miR-335. In this regard, we argue that mitochondria might play an important role in modulating the expression of invasion-related genes through histone acetylation. Expression of MMP9 (B) and PEG1 (C) was determined. β-actin served as loading control. *, p < 0.05; ***, p < 0.001
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