The uremic solute 3-carboxy-4-methyl-5-propyl-2-furanpropionate (CMPF) may enhance eryptosis and increase erythrocyte osmotic fragility through potential activation of Piezo1.

IF 4.8 2区医学 Q1 TRANSPLANTATION Nephrology Dialysis Transplantation Pub Date : 2024-11-20 DOI:10.1093/ndt/gfae275

Beatriz Akemi Kondo Van Spitzenbergen, Gabriela Bohnen Andrade, Erika Sousa Dias, Júlia Bacarin Monte Alegre, Gabriela Ferreira Dias, Nadja Grobe, Andrea Novais Moreno-Amaral, Peter Kotanko

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Abstract

Background and hypothesis: In patients with advanced chronic kidney disease (CKD), the lifespan of red blood cells (RBC) is often shortened, a condition attributed to the "uremic milieu." We reported recently that the uremic solute 3-carboxy-4-methyl-5-propyl-2-furanpropionate (CMPF) shares structural similarities with Jedi1, a chemical activator of the mechanosensitive cation channel Piezo1, whose activation increases calcium influx into cells. Against this backdrop, we hypothesized that CMPF may induce premature RBC death (eryptosis) through prolonged CMPF-induced activation of Piezo1 located on RBC. To test this hypothesis, we explored if CMPF, at concentrations found in uremia, interacts with Piezo1 located on RBC, increases intracellular calcium (icCa2+), and induces eryptosis.

Methods: RBC from healthy individuals were incubated with CMPF or Jedi1 (both at a concentration of 87 µM), in the presence or absence of the Piezo1 inhibitor GsMTx-4 (2 µM). We challenged RBC osmotically through incubation in solutions of NaCl at concentrations between 3.0 and 9.0 g/L and determined their osmotic fragility. Using flow cytometry, we quantified in incubated RBC icCa2+ levels and phosphatidylserine exposure, a cellular marker of eryptosis.

Results: Incubation of RBC with CMPF and Jedi1 significantly increased RBC osmotic fragility, an effect prevented by GsMTx-4. At 6.0 g/L NaCl, incubation with CMPF and Jedi1 increased exposure of phosphatidylserine and elevated icCa2+ levels of RBC, indicating increased eryptosis. Notably, at an isotonic NaCl concentration of 9.0 g/L, CMPF - but not Jedi1 - significantly increased RBC phosphatidylserine exposure and icCa2+ levels; both effects were diminished by GsMTx-4.

Conclusion: Our findings support the hypothesis that CMPF may function as an endogenous activator of Piezo1, increase icCa2+ levels, trigger eryptosis, and, through this pathway, possibly shorten the RBC life span. To what extent these in vitro findings are operative in advanced CKD warrants clinical studies.

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尿毒症溶质 3-羧基-4-甲基-5-丙基-2-呋喃丙酸盐（CMPF）可能会通过潜在的 Piezo1 激活作用，促进红细胞渗出和增加红细胞渗透脆性。

背景与假设：在晚期慢性肾病（CKD）患者中，红细胞（RBC）的寿命通常会缩短，这种情况可归因于 "尿毒症环境"。我们最近报告说，尿毒症溶质 3-羧基-4-甲基-5-丙基-2-呋喃丙酸酯（CMPF）与 Jedi1 有着相似的结构，Jedi1 是机械敏感性阳离子通道 Piezo1 的化学激活剂，激活 Piezo1 会增加细胞中的钙离子流入。在此背景下，我们假设 CMPF 可能会通过延长 CMPF 诱导的位于 RBC 上的 Piezo1 的活化时间来诱导 RBC 早死（红细胞沉降症）。为了验证这一假设，我们探讨了在尿毒症中发现的 CMPF 浓度是否会与位于 RBC 上的 Piezo1 相互作用、增加细胞内钙（icCa2+）并诱导红细胞凋亡：在有或没有 Piezo1 抑制剂 GsMTx-4 （2 µM）的情况下，用 CMPF 或 Jedi1（浓度均为 87 µM）培养健康人的红细胞。我们将 RBC 放入浓度为 3.0 至 9.0 克/升的 NaCl 溶液中进行渗透挑战，并测定其渗透脆性。通过流式细胞术，我们对孵育过的 RBC 的 icCa2+ 水平和磷脂酰丝氨酸暴露进行了量化，磷脂酰丝氨酸是红细胞凋亡的细胞标记物：结果：RBC 与 CMPF 和 Jedi1 一起孵育会显著增加 RBC 的渗透脆性，GsMTx-4 能阻止这种效应。在 6.0 g/L NaCl 条件下，与 CMPF 和 Jedi1 一起孵育会增加磷脂酰丝氨酸的暴露，并升高 RBC 的 icCa2+ 水平，这表明红细胞渗出增加。值得注意的是，在等渗 NaCl 浓度为 9.0 g/L 时，CMPF（而非 Jedi1）可显著增加红细胞磷脂酰丝氨酸暴露和 icCa2+ 水平；GsMTx-4 可减弱这两种效应：我们的研究结果支持这样的假设，即 CMPF 可作为 Piezo1 的内源性激活剂，增加 icCa2+ 水平，引发红细胞凋亡，并通过这一途径可能缩短红细胞的寿命。至于这些体外研究结果在晚期慢性肾功能衰竭中的作用程度，还有待临床研究。

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来源期刊

Nephrology Dialysis Transplantation 医学-泌尿学与肾脏学

CiteScore

10.10

自引率

4.90%

发文量

1431

审稿时长

1.7 months

期刊介绍： Nephrology Dialysis Transplantation (ndt) is the leading nephrology journal in Europe and renowned worldwide, devoted to original clinical and laboratory research in nephrology, dialysis and transplantation. ndt is an official journal of the [ERA-EDTA](http://www.era-edta.org/) (European Renal Association-European Dialysis and Transplant Association). Published monthly, the journal provides an essential resource for researchers and clinicians throughout the world. All research articles in this journal have undergone peer review. Print ISSN: 0931-0509.