Austocystin D, a natural compound produced by fungi, has been recognised for its cytotoxic effects and anticancer activity in various cell types.
It exhibits potent activity even in cells that express proteins associated with multidrug resistance, attracting significant global research interest. Austocystin D promotes cell death by damaging their DNA, a process which might be dependent on cytochrome P450 (CYP) oxygenase enzymes.
Notably, austocystin D has shown significant activity against cancer cells with increased CYP expression. However, the specific role and function of the CYP2J2 enzyme in the cytotoxicity of austocystin D remain to be determined.
Against this backdrop, a team of researchers from the Tokyo University of Science in Japan has successfully unveiled the mechanism of action of austocystin D involving CYP2J2.
The research team included Ms. Yukiko Kojima and Professor Mahito Sadaie, both from the Department of Applied Biological Science, Faculty of Science and Technology, Tokyo University of Science, Japan, among others. They employed an innovative research approach that combined genetic silencing techniques with growth inhibition assays in cell line models.
Their pioneering findings were published online in the journal Cancer Science.
Initially, the researchers utilised data from the Japanese Foundation for Cancer Research 39 to analyse the correlation between austocystin D sensitivity and CYP expression in cancer cells.
By analysing gene markers in these cells, they found that the expression of one particular CYP gene, namely CYP2J2, positively correlated with sensitivity to austocystin D. Furthermore, Sadaie and his team validated their findings through correlation studies, using 11 human osteosarcoma (OS)-bone cancer cell lines, which confirmed the association between CYP2J2 expression levels and austocystin D sensitivity.
To unravel the underlying mechanism of action of austocystin D, the researchers employed U-2 OS cells, which express elevated levels of CYP2J2. They observed that the U-2 OS cells treated with austocystin D exhibited significant DNA damage, whereas HOS (bone cancer) cells with lower expression of CYP2J2 were less sensitive to the compound. Prof. Sadaie credits the unified efforts of the researchers for the discovery of the CYP2J2 mechanism and shares, "This research work was a collaborative project involving the Department of Applied Biological Science, Tokyo University of Science, and Dr. Ishikawa's team from Kyoto University, Dr. Shin-ya’s team from the National Institute of Advanced Industrial Science and Technology, and the teams of Dr. Dan and Dr. Tomida from the Japanese Foundation for Cancer Research, Japan."
Furthermore, the researchers conducted a series of experiments to analyse the effects of overexpression and depletion of CYP2J2 on austocystin D-mediated cytotoxicity. Their results confirmed that overexpression of CYP2J2 enhanced the cytotoxic effects of austocystin D, while its depletion resulted in reduced sensitivity to austocystin D and significantly less cytotoxicity in cancer cells.
To further understand the gene sets involved in mediating the functions of CYP2J2, the team utilised CRISPR-Cas9 technology. They identified POR and PGRMC1 as two prominent genes that regulate CYP2J2 and induced the cytotoxicity of austocystin D. Additionally, genomic sequencing data revealed that lysine acetyltransferase 7 (KAT7) upregulated and promoted the transcription of CYP2J2.
These findings provide crucial evidence supporting the CYP2J2-dependent cytotoxic activity of austocystin D.
“We are hopeful that our novel findings on austocystin D and its association with CYP2J2 can lead to the development of safe and effective therapeutic agents for patients with cancer, especially those with high CYP2J2 expression levels,” says Prof. Sadaie, outlining the potential applications of their research.
In summary, the natural fungal compound austocystin D holds the potential to become a game-changing drug in the fight against cancer.
Source: Tokyo University of Science
We are an independent charity and are not backed by a large company or society. We raise every penny ourselves to improve the standards of cancer care through education. You can help us continue our work to address inequalities in cancer care by making a donation.
Any donation, however small, contributes directly towards the costs of creating and sharing free oncology education.
Together we can get better outcomes for patients by tackling global inequalities in access to the results of cancer research.
Thank you for your support.