Abstract
Benzene, a commonly used chemical, has been confirmed to specifically affect the hematopoietic system as well as overall human health. PTP4A3 is overexpressed in leukemia cells and is related to cell proliferation. We previously found that HIF-1alpha was involved in benzene toxicity and PTP4A3 may be the target gene of HIF-1alpha via ChIP-seq. The aim of this study is to confirm the relationship between HIF-1alpha and PTP4A3 in benzene toxicity, as well as the function of PTP4A3 on cell toxicity induced by 1,4-benzoquinone (1,4-BQ). Our results indicate that HIF-1alpha could regulate PTP4A3 with in vivo and in vitro experiments. A cell line with suppressed PTP4A3 was established to investigate the function of PTP4A3 in 1,4-BQ toxicity in vitro. The results revealed that cell proliferation inhibition was more aggravated in PTP4A3 low-expression cells than in the control cells after 1,4-BQ treatment. The relative oxygen species (ROS) significantly increased in cells with inhibited PTP4A3, while the rise was inferior to the control cells at the 20 μM 1,4-BQ group. An increase in DNA damage was seen in PTP4A3 down-regulated cells at the 10 μM 1,4-BQ group, whereas the results reversed at the concentration of 20 μM. Moreover, the apoptosis rate increased higher in down-regulated PTP4A3 cells after 1,4-BQ exposure. In addition, PI3K/AKT pathway was significantly restrained in cells with inhibited PTP4A3 after 1,4-BQ treatment. Our results indicate that HIF-1alpha may regulate PTP4A3 to be involved in benzene toxicity. Inhibition of PTP4A3 could aggravate cell proliferation suppression and apoptosis by regulating PI3K/AKT pathway after 1,4-BQ treatment.
Highlights
Benzene is widespread in industry and living environments
We found that PTP4A3 was one of the target genes of level of PTP4A3 declined significantly in mouse bone marrow cells in the benzene-exposed groups
We found that PTP4A3, as a target gene of HIF-1alpha, participated in benzene hematopoiesis damage
Summary
Benzene is widespread in industry and living environments. Long-term exposure to benzene results in hematologic damage, which is mainly displayed by the decrease in all three kinds of blood cell in circulating blood. Reduction in the three cell types is regarded as the result of aplastic anemia, myelodysplastic syndromes or acute myelocytic leukemia (AML) [1,2,3]. In China, millions of workers are exposed to benzene in their workspace. The exact mechanism of benzene toxicity is unknown. It is important to explore the mechanism, so effective measures could be carried out to protect workers exposed to benzene
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