Loss of endogenous Nox2-NADPH oxidase does not prevent age-induced platelet activation and arterial thrombosis in mice

IF 3.4 3区医学 Q2 HEMATOLOGY

Research and Practice in Thrombosis and Haemostasis Pub Date : 2024-10-01 DOI:10.1016/j.rpth.2024.102597

Azaj Ahmed , Gokul Patil , Vijay K. Sonkar , Melissa Jensen , Jennifer Streeter , Sanjana Dayal

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Abstract

Background

Reactive oxygen species are known to contribute to platelet hyperactivation and thrombosis during aging; however, the mechanistic contribution of the specific oxidative pathway remains elusive.

Objectives

We hypothesized that during aging, endogenous Nox2-NADPH oxidase contributes to platelet reactive oxygen species accumulation and that loss of Nox2 will protect from platelet activation and thrombosis.

Methods

We studied littermates of Nox2 knockout (Nox2-KO) and -wild-type (Nox2-WT) mice at young (3-4 months) and old (18-20 months) age. Within platelets, we examined the expression of subunits of NADPH oxidase and enzyme activity, oxidant levels, activation markers, aggregation, and secretion. We also assessed susceptibility to in vivo thrombosis in 2 experimental models.

Results

While aged Nox2-WT mice displayed increased mRNA levels for Nox2, aged Nox2-KO mice showed an increase in Nox4 mRNA. However, neither the protein levels of several subunits nor the activity of NADPH oxidase were found to be altered by age or genotype. Both aged Nox2-WT and aged Nox2-KO mice exhibited similar enhancement in levels of platelet oxidants, granule release, α_IIbβ₃ activation, annexin V binding, aggregation and secretion, and a greater susceptibility to platelet-induced pulmonary thrombosis compared with young mice. In a photochemical injury model, adoptive transfer of platelets from aged Nox2-WT or Nox2-KO mice to the aged host mice resulted in a similar time to develop occlusive thrombus in the carotid artery. These findings suggest that loss of endogenous Nox2 does not protect against age-related platelet activation and arterial thrombosis in mice.

Conclusion

We conclude that Nox2 is not an essential mediator of prothrombotic effects associated with aging.

Abstract Image

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内源性 Nox2-NADPH 氧化酶的缺失并不能防止小鼠因年龄增长而引起的血小板活化和动脉血栓形成

背景众所周知，活性氧是衰老过程中血小板过度激活和血栓形成的原因之一；然而，特定氧化途径的机理作用仍然难以确定。方法我们研究了幼年（3-4 个月）和老年（18-20 个月）Nox2 基因敲除（Nox2-KO）小鼠和野生型（Nox2-WT）小鼠的同窝小鼠。在血小板内，我们检测了 NADPH 氧化酶亚基的表达和酶活性、氧化剂水平、活化标记物、聚集和分泌。我们还在两个实验模型中评估了体内血栓形成的易感性。结果虽然老龄 Nox2-WT 小鼠的 Nox2 mRNA 水平升高，但老龄 Nox2-KO 小鼠的 Nox4 mRNA 水平升高。然而，几个亚基的蛋白质水平和 NADPH 氧化酶的活性都没有因年龄或基因型而发生变化。与年轻小鼠相比，年老的 Nox2-WT 小鼠和年老的 Nox2-KO 小鼠在血小板氧化剂水平、颗粒释放、αⅡbβ3 激活、附件素 V 结合、聚集和分泌方面都表现出相似的增强，而且更容易发生血小板诱导的肺血栓形成。在光化学损伤模型中，将老龄 Nox2-WT 或 Nox2-KO 小鼠的血小板收养转移到老龄宿主小鼠体内，颈动脉形成闭塞性血栓的时间相似。这些研究结果表明，内源性 Nox2 的缺失并不能保护小鼠免受与年龄相关的血小板活化和动脉血栓形成的影响。

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