Lipids in Health and Disease (Nov 2024)

Deficiency of lysophosphatidic acid receptor 3 decreases erythropoietin production in hypoxic mouse kidneys

  • Nan Yin,
  • Xuyuan Li,
  • Di Zhang,
  • Mengxia Qu,
  • Shengqiang Pei,
  • Xi Chen,
  • Xiaotian Zhang,
  • Junjie Zhang

DOI
https://doi.org/10.1186/s12944-024-02367-8
Journal volume & issue
Vol. 23, no. 1
pp. 1 – 13

Abstract

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Abstract Background Lysophosphatidic acid (LPA) is a lipid mediator with diverse biological functions through its receptors on the cell membrane. As one of the six LPA receptors, LPA receptor 3 (LPAR3) is highly expressed in mouse kidneys, but its physiological function in the kidney has been poorly explored. Methods Wild-type (WT) and Lpar3 −/− mice were used to investigate the renal physiological function of LPAR3 under hypoxia. The expression levels of LPA receptors in the kidneys of WT mice with or without exposure to hypoxia (8% O2) were detected by RT‒qPCR. RNA sequencing analysis was performed to identify differences in gene expression profiles between the hypoxic kidneys of WT and Lpar3 −/− mice. The effects of LPAR3 deficiency and treatment with the LPAR1/3 inhibitor Ki16425 or the LPAR3 selective agonist 2S-OMPT on erythropoietin (EPO) production in the kidneys of hypoxic mice were determined by RT‒qPCR and ELISAs. The mechanism of LPAR3-mediated regulation of EPO expression was further studied in vivo with mouse models and in vitro with cultured human cells. Results LPAR3 is the major LPA receptor in mouse kidneys, and its expression is significantly upregulated under hypoxic conditions. RNA sequencing analysis revealed that, compared with WT mice, Lpar3 −/− mice presented a significant decrease in hypoxia-induced EPO expression in the kidney, together with reduced plasma EPO levels and lower hematocrit and hemoglobin levels. Hypoxic renal EPO expression in WT mice was diminished by the administration of the LPAR1/3 inhibitor Ki16425 and increased by 2S-OMPT, a selective agonist of LPAR3. Hypoxia-induced HIF-2α accumulation in mouse kidneys was impaired by LPAR3 deficiency. Further studies revealed that the PI3K/Akt pathway participated in the regulation of HIF-2α accumulation and EPO expression by LPAR3 under hypoxic conditions. Conclusions Our study revealed the role of LPAR3 in promoting the HIF-2α‒EPO axis in hypoxic mouse kidneys, suggesting that the LPA receptor may serve as a novel potential pharmaceutical target to regulate renal EPO production in hypoxia-related situations, such as chronic kidney disease and altitude disease.

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