Abstract
Tumor suppression by the extracts of Azadirachta indica (neem) works via anti-proliferation, cell cycle arrest, and apoptosis, demonstrated previously using cancer cell lines and live animal models. However, very little is known about the molecular targets and pathways that neem extracts and their associated compounds act through. Here, we address this using a genome-wide functional pooled shRNA screen on head and neck squamous cell carcinoma cell lines treated with crude neem leaf extracts, known for their anti-tumorigenic activity. We analyzed differences in global clonal sizes of the shRNA-infected cells cultured under no treatment and treatment with neem leaf extract conditions, assayed using next-generation sequencing. We found 225 genes affected the cancer cell growth in the shRNA-infected cells treated with neem extract. Pathway enrichment analyses of whole-genome gene expression data from cells temporally treated with neem extract revealed important roles played by the TGF-β pathway and HSF-1-related gene network. Our results indicate that neem extract affects various important molecular signaling pathways in head and neck cancer cells, some of which may be therapeutic targets for this devastating tumor.
Highlights
Ethnobotanical databases have been widely explored for understanding the historical background, phytochemical and medicinal properties of plants (Schuler, 2004; Abo, FredJaiyesimi & Jaiyesimi, 2008; Sujarwo et al, 2016)
To precisely clarify the mode of molecular actions of the neem leaf extract in a time-dependent manner, we investigated the changes in mRNA expression levels of all genes during the neem treatment compared to the steady state (24 h time-course), as well as their behaviors during the following rescue periods (24 h time-course)
Expression of 28 genes was altered upon treatment with neem leaf extract, and could not be rescued after withdrawal of the neem leaf treatment
Summary
Ethnobotanical databases have been widely explored for understanding the historical background, phytochemical and medicinal properties of plants (Schuler, 2004; Abo, FredJaiyesimi & Jaiyesimi, 2008; Sujarwo et al, 2016). Functional genomics screen with pooled shRNA library and gene expression profiling with extracts of Azadirachta indica identify potential pathways for therapeutic targets in head and neck squamous cell carcinoma. The emergence of genome-wide tools and techniques has opened up new avenues to pursue research through systematic studies on cancer drug target discovery using neem-derived metabolites. Use of pooled genome-wide libraries of short hairpin RNA (shRNA) coupled with next-generation sequencing offers higher sensitivity and a broader, dynamic range to screen for biological activity with the potential to identify pathways for drug actions through network-based approaches (Erler & Linding, 2010; Erler & Linding, 2012)
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