Glyphosate-Induced Metabolic and Immune Modulation in Hepatoma Cells: Identification of Key Genes as Diagnostic and Therapeutic Targets Using an In Silico Systems Biology Approach
Divya Mishra

TL;DR
This study uses in silico methods to identify key genes affected by glyphosate in liver cancer cells, offering potential biomarkers for diagnosis and treatment.
Contribution
The study identifies novel hub genes linked to glyphosate-induced metabolic and immune changes in hepatoma cells.
Findings
Glyphosate exposure upregulates genes involved in glucose metabolism and stress responses.
Downregulated genes are associated with lipid metabolism and immune regulation pathways.
Hub genes show strong diagnostic potential for glyphosate exposure in liver cancer cells.
Abstract
Glyphosate, one of the most widely used herbicides worldwide, has raised significant concerns regarding its potential involvement in hepatotoxicity and molecular changes associated with liver cancer biology. These concerns highlight the need to better understand its underlying molecular mechanisms in hepatoma cells. Emerging evidence suggests that glyphosate exposure may increase the risk of liver cancer and chronic liver disease. However, the precise molecular alterations and promising biomarkers associated with glyphosate-induced hepatic toxicity and disease remain largely unexplored. In this study, an RNA-Seq-based in silico systems biology approach was employed to elucidate glyphosate-induced differential transcriptional profiling in hepatoma cells. This analysis revealed significant transcriptional profiling characterized by the upregulated hub genes ATF3, JUNB, ALDOA, FOSB,…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsPesticide and Herbicide Environmental Studies · Weed Control and Herbicide Applications · Folate and B Vitamins Research
