Department of Surgery, University of California, Davis School of Medicine, Sacramento, CA.
Department of Biochemistry and Molecular Medicine, University of California, Davis School of Medicine, Sacramento, CA.
Immunohorizons. 2023 Nov 1;7(11):760-770. doi: 10.4049/immunohorizons.2300092.
NK cells are a key focus in immuno-oncology, based on their ability to eliminate malignant cells without prior sensitization. Dogs are valuable models for translational immunotherapy studies, especially for NK cells, where critical species differences exist between mice and humans. Given that the mechanism for recognition of "self" by canine NK cells is currently unknown, we sought to evaluate expression of Ly49 in canine NK cells using in silico and high-throughput techniques. We interrogated the identified polymorphism/mutation in canine Ly49 and assessed the potential impact on structure using computational modeling of three-dimensional protein structure and protein-protein docking of canine Ly49 with MHC class I (MHC-I). Bulk and single-cell RNA-sequencing analysis was performed to detect gene expression of Ly49/KLRA1 in resting and activated NK cells. Tertiary protein structure demonstrated significant structural similarity to the known murine system. Molecular docking of canine Ly49 with MHC-I was favorable, converging at a single low-energy conformation. RNA sequencing revealed expression of Ly49/KLRA1 in both resting and activated NK cells and demonstrated almost exclusive expression of the gene in the NK cluster at the single-cell level. Despite prior reports of a mutated, nonfunctional canine Ly49, our data support that the protein product is predicted to bind to MHC-I in a comparable conformation to the murine system and is expressed in canine NK cells with upregulation following activation. Taken together, these data suggest that Ly49 is capable of recognizing MHC-I and therefore regulating NK cell function in dogs.
自然杀伤 (NK) 细胞是免疫肿瘤学的一个研究重点,这是基于其在无需预先致敏的情况下消除恶性细胞的能力。狗是转化免疫治疗研究的有价值的模型,尤其是对于 NK 细胞,因为在老鼠和人类之间存在关键的物种差异。鉴于犬 NK 细胞识别“自身”的机制目前尚不清楚,我们试图使用计算机模拟和高通量技术评估犬 NK 细胞中 Ly49 的表达。我们对犬 Ly49 中的已识别多态性/突变进行了检测,并使用三维蛋白质结构的计算建模和犬 Ly49 与 MHC 类 I(MHC-I)的蛋白质-蛋白质对接来评估对结构的潜在影响。对静息和激活的 NK 细胞进行了批量和单细胞 RNA 测序分析,以检测 Ly49/KLRA1 的基因表达。三级蛋白质结构与已知的鼠系统具有显著的结构相似性。犬 Ly49 与 MHC-I 的分子对接是有利的,收敛于单个低能量构象。RNA 测序显示 Ly49/KLRA1 在静息和激活的 NK 细胞中均有表达,并在单细胞水平上显示该基因几乎仅在 NK 簇中表达。尽管先前有报道称犬 Ly49 发生了突变,无功能,但我们的数据支持该蛋白产物预计以与鼠系统相当的构象与 MHC-I 结合,并在犬 NK 细胞中表达,在激活后上调。综上所述,这些数据表明 Ly49 能够识别 MHC-I,从而调节犬 NK 细胞的功能。
