Arsenic is a toxic metal, which ultimately leads to cell apoptosis. ERK is considered a key transcriptional regulator of arsenic‑induced apoptosis. Due to a few controversial issues about arsenic‑mediated extracellular signal‑regulated MAP kinases (ERK) signaling, a meta‑analysis was performed. Subgroup analyses demonstrated that high doses (≥2 µmol/l) of arsenic increased the expression of Ras, ERK, ERK1, ERK2, phosphorylated (p)‑ERK, p‑ERK1, and p‑ERK2, while low doses (<2 µmol/l) decreased the expression of Ras, ERK1, p‑ERK, and p‑ERK2 when compared to control groups. Long term exposure (>24 h) to arsenic led to inhibition of expression of ERK1, p‑ERK1, and p‑ERK2, whereas short‑term exposure (≤24 h) triggered the expression of ERK1, ERK2, p‑ERK, p‑ERK1, and p‑ERK2. Furthermore, normal cells exposed to arsenic exhibited higher production levels of Ras and p‑ERK. Conversely, exposure of cancer cells to arsenic showed a lower level of production of Ras and p‑ERK as well as higher level of p‑ERK1 and p‑ERK2 as compared to control group. Short‑term exposure of normal cells to high doses of arsenic may promote ERK signaling pathway. In contrast, long‑term exposure of cancer cells to low doses of arsenic may inhibit ERK signaling pathway. This study may be helpful in providing a theoretical basis for the diverging result of arsenic adverse effects on one hand and therapeutic mechanisms on the other concerning arsenic‑induced apoptosis.
Keywords: arsenic; extracellular signal-regulated MAP kinases; bidirectional effect; apoptosis; meta-analysis.