Key Laboratory of Zoonosis, Ministry of Education, College of Veterinary Medicine, Jilin University, Changchun, Jilin Province, 130062, China.
Mammalian NutriPhysioGenomics, Department of Animal Sciences and Division of Nutritional Sciences, University of Illinois, Urbana 61801.
J Dairy Sci. 2022 Jan;105(1):761-771. doi: 10.3168/jds.2021-20875. Epub 2021 Oct 9.
Ketosis in dairy cows often occurs in the peripartal period and is accompanied by immune dysfunction. High concentrations of β-hydroxybutyrate (BHB) in peripheral blood during ketosis are closely related to the impairment of polymorphonuclear neutrophil (PMN) chemotaxis and contribute to immune dysfunction. The specific effect of BHB on PMN chemotaxis in dairy cows and the underlying molecular mechanisms are unclear. Here, 30 multiparous cows (within 3 wk postpartum) classified based on serum BHB as control (n = 15, BHB <0.6 mM) or clinically ketotic (n = 15, BHB >3.0 mM) were used. Blood samples were collected before feeding, and the isolated PMN were treated with platelet-activating factor for 0.5 h to activate their migration. Scanning electron microscopy revealed a longer tail in PMN of ketotic cows. In addition, the phosphorylation and transcription levels of myosin light chain 2 (MLC2) increased in PMN of ketotic cows. Polymorphonuclear neutrophils from control dairy cows were incubated with 3.0 mM BHB for different times in vitro, and 6 h was selected as the proper duration of BHB stimulation according to its inhibition effect on PMN migration using an under-agarose PMN chemotaxis model. Similarly, BHB stimulation in vitro resulted in inhibition of migration distance and deviation of migration direction of PMN, as well as a longer tail in morphology in the scanning electron microscope data, suggesting that BHB-induced PMN migration inhibition may be mediated by impairing the trailing edge contraction. To confirm this hypothesis, sotrastaurin (Sotra)-a specific inhibitor of protein kinase C (PKC), which is the core regulator of cell contraction-was used with or without BHB treatment in vitro. Sotra was pretreated 0.5 h before BHB treatment. Accordingly, BHB treatment increased the phosphorylation level of PKC and MLC2, the protein abundance of RhoA and rho-kinase 1 (ROCK1), and the mRNA abundance of PRKCA, MYL2, RHOA, and ROCK1 in PMN. In contrast, these effects of BHB on PMN were dampened by Sotra. As demonstrated by immunofluorescence experiments in vitro, the BHB-induced inhibition of trailing edge contraction of PMN was relieved by Sotra. In addition, Sotra also dampened the effects of BHB on PMN migration in vitro. Furthermore, as verified by in vivo experiments, compared with the control cows, both abundance and activation of PKC signaling were enhanced in PMN of ketotic cows. Overall, the present study revealed that high concentrations of blood BHB impaired PMN migration distance through inhibition of the trailing edge contraction, mediated by enhancing the activation of PKC-MLC2 signaling. These findings help explain the dysfunctional immune state in ketotic cows and provide information on the pathogenesis of infectious diseases secondary to ketosis.
奶牛酮病常发生于围产期,并伴有免疫功能障碍。酮病时外周血中β-羟丁酸(BHB)浓度升高与多形核中性粒细胞(PMN)趋化功能障碍密切相关,导致免疫功能障碍。BHB 对奶牛 PMN 趋化性的具体作用及其潜在的分子机制尚不清楚。本研究以血清 BHB 为依据,将 30 头经产奶牛(产后 3 周内)分为对照组(BHB<0.6mmol/L,n=15)和临床酮病组(BHB>3.0mmol/L,n=15)。在喂食前采集血液样本,并使用血小板激活因子处理分离的 PMN 0.5h 以激活其迁移。扫描电子显微镜显示酮病奶牛的 PMN 尾部更长。此外,酮病奶牛 PMN 的肌球蛋白轻链 2(MLC2)磷酸化和转录水平增加。体外孵育控制奶牛的 PMN 不同时间的 3.0mmol/L 的 BHB,根据在琼脂下 PMN 趋化性模型中对 PMN 迁移的抑制作用,选择 6h 作为 BHB 刺激的适当时间。同样,BHB 刺激体外抑制 PMN 的迁移距离和迁移方向的偏差,在扫描电子显微镜数据中形态学尾部更长,提示 BHB 诱导的 PMN 迁移抑制可能通过损害后缘收缩来介导。为了验证这一假设,在体外使用 sotrastaurin(Sotra)-一种蛋白激酶 C(PKC)的特异性抑制剂,PKC 是细胞收缩的核心调节剂-与或不与 BHB 处理。Sotra 在 BHB 处理前预处理 0.5h。因此,BHB 处理增加了 PMN 中 PKC 和 MLC2 的磷酸化水平、RhoA 和 rho-kinase 1(ROCK1)的蛋白丰度以及 PRKCA、MYL2、RHOA 和 ROCK1 的 mRNA 丰度。相反,Sotra 减弱了 BHB 对 PMN 的这些作用。通过体外免疫荧光实验证明,Sotra 缓解了 BHB 诱导的 PMN 后缘收缩抑制。此外,Sotra 还减弱了 BHB 对 PMN 体外迁移的影响。此外,通过体内实验验证,与对照组奶牛相比,酮病奶牛 PMN 中的 PKC 信号转导的丰度和激活增强。总的来说,本研究表明,高浓度的血液 BHB 通过抑制后缘收缩来损害 PMN 的迁移距离,这是通过增强 PKC-MLC2 信号转导的激活来介导的。这些发现有助于解释酮病奶牛免疫功能障碍状态,并为酮病继发感染性疾病的发病机制提供信息。
