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Klotho attenuates angiotensin II‑induced cardiotoxicity through suppression of necroptosis and oxidative stress
Author(s) -
Shasha Yu,
Hongmei Yang,
Xiaofan Guo,
Yingxian Sun
Publication year - 2020
Publication title -
molecular medicine reports
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.727
H-Index - 56
eISSN - 1791-3004
pISSN - 1791-2997
DOI - 10.3892/mmr.2020.11705
Subject(s) - necroptosis , angiotensin ii , tlr4 , downregulation and upregulation , oxidative stress , klotho , microbiology and biotechnology , programmed cell death , apoptosis , biology , signal transduction , chemistry , endocrinology , receptor , biochemistry , gene , kidney
Hyperglycemia is known to lead to cardiac injury and inflammation through the reactive oxygen species (ROS)‑Toll‑like receptor 4 (TLR4)‑necroptosis pathway. Similarly, angiotensin II (Ang II) activates the TLR4‑nuclear factor κB (NF‑κB) p65 pathway, while the protein Klotho is known to inhibit this pathway, protecting cardiac cells from Ang II‑induced injury. However, there is currently a lack of data on whether necroptosis participates in Ang II‑induced cardiac injury and whether the Klotho protein has an effect on this process. The present study aimed to explore whether inhibition of the TLR4/NF‑κB p65 necroptosis pathway is involved in the Klotho protein‑mediated protection against the Ang II‑induced cardiac injury and inflammation. H9c2 cardiac cells were incubated with 0.01 mM Ang II. Western blotting was used to assess the expression of receptor‑interacting protein kinase 3 (RIP3), mixed‑lineage kinase domain‑like protein (MLKL), TLR4 and NF‑κB p65. The present study also assessed injury indexes: Inflammatory cytokine expression, mitochondrial membrane potential (ΔΨm), apoptosis, ROS production and cell viability. The expression of TLR4, phosphorylated (p)‑NF‑κB p65, RIP3 and MLKL were increased by incubation with Ang II in H9c2 cells. The pretreatment of H9c2 cells with necrostatin‑1 (Nec‑1, an inhibitor of necroptosis) or TAK‑242 (a small molecule inhibitor of TLR4) attenuated the upregulation of RIP3 and MLKL caused by Ang II. Klotho protein cotreatment also reversed the Ang II‑induced upregulation of TLR4, p‑NF‑κB p65, RIP3 and MLKL. Furthermore, Ang II decreased cell viability and upregulated the secretion of inflammatory cytokines, ΔΨm loss and ROS generation blocked by pretreatment with Nec‑1 or Klotho protein. Thus, it was determined that Klotho can attenuate the Ang II‑induced necroptosis of cardiomyocytes through the TLR4/NF‑κB p65 pathway, which suggests that Klotho could be a potential therapeutic drug against Ang II‑induced cardiotoxicity.

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