The therapeutic effects of the natural antioxidant mangiferin (a xanthonoid and potent oxygen free radical scavenger), which is widely distributed in mango fruit, against CdCl(2)-induced toxicity in human renal glomerulus endothelial cells (HRGEC) were investigated. The viability of HREGCs that were treated with CdCl(2) (25 µ mol) and co-treated with mangiferin (75 µ mol) for 24 h was measured by crystal violet dye. The exposure of human glomerulus renal endothelial cells to cadmium promotes a polarized apical secretion of IL-6 and IL-8, two pivotal proinflammatory cytokines known to play a significant role in renal inflammation. Proinflammatory cytokine secretion by human renal glomerulus endothelial cells could be the result of cadmium-induced IL-6 secretion via an NF-κB-dependent pathway. However, IL-8 secretion involves the phosphor-JNK phospho-p38 signaling pathway. The results of the current study reveal that mangiferin could prevent both cadmium-induced IL-6 and IL-8 secretion by human glomerulus endothelial cells and be used to prevent renal inflammation.
Background
Deoxynivalenol (DON) is a trichothecene mycotoxin with demonstrated cytotoxicity in several cell lines and animals, primarily owing to inflammation and reactive oxygen species accumulation. Ruscogenin (RGN), a steroidal sapogenin of Radix
Ophiopogon japonicus
, has significant anti-thrombotic/anti-inflammatory effects.
Objective:
The aim of this study was to assess the protective role of RGN against DON-induced oxidative stress, which occurs through the nuclear factor erythroid 2-related factor 2 (Nrf2) pathway and is regulated by phosphoinositide 3-kinases/protein kinase B (PI3K/AKT).
Methods:
The effects were examined using the HepG2 cell line. RGN and DON were suspended in serum-free medium. Cells were seeded onto plates, and then RGN, DON, or both were added over 24 h in triplicates for each group.
Results:
RGN conferred protection against DON-exhibited cytotoxicity against HepG2 cells. RGN pretreatment downregulated the expression of DON-induced TNF-α and COX-2 and the formation of reactive oxygen species in a dose-dependent manner. RGN upregulated the expression of Nrf2 and its antioxidant proteins as well as mRNA levels of HO-1/NQO-1/HO-1/Nrf2. Similarly, treatment with DON + RGN resulted in upregulation of the pI3K/pAKT signaling pathway in a dose-dependent manner. Finally, RGN was also found to inhibit the DON-induced apoptosis by upregulating the levels of cleaved proteins and downregulating the expression of Bcl2.
Conclusion:
The study demonstrates that RGN suppresses hepatic cell injury induced by oxidative stress through Nrf2 via activation of the pI3K/AKT signaling pathway.
Living matters are inadvertently exposed to the highly toxic petroleum hydrocarbon (PH) byproducts. Despite the fact that petroleum-related industry is globally thriving, the health hazard of most hydrocarbons is not well characterized. In human, organs and, sometimes, whole systems such as the nervous system, respiratory, circulatory, immune, reproductive, and endocrine systems are susceptible to PHs depending on the level of exposure. Marine organisms are known to be affected by PHs in various stages. Impacts from lethal to sub-lethal dose of PHs range from habitat destruction, mass mortality, and impaired physiological functions such as reduced feeding, slow growth and development, respiration problems, loss of locomotion, balance, and swimming ability. Bioaccumulation of toxic PHs in food chains in marine environment can be retained for decades and affect plants, animals, and eventually human. This chapter summarizes the PHs toxic effects on living organisms and the potential mechanisms of action based on epidemiological studies.
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