Significant increase in MIC-A and MIC-B and soluble MIC-A and MIC-B in canine lymphomas

IF 1.4 3区农林科学 Q4 IMMUNOLOGY

Veterinary immunology and immunopathology Pub Date : 2023-10-01 DOI:10.1016/j.vetimm.2023.110647

Maresa Lopez-Montaño , Laura Jimenez-Ortega , Teresa Rocio Cruz-Hernandez , Victor Gabriel Hernandez-Chavez , Laura Arcelia Montiel-Cervantes , Elba Reyes-Maldonado , Jorge Vela-Ojeda

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引用次数: 0

Abstract

Non-Hodkin's lymphoma (NHL) is the most frequent hematologic malignancy in humans and dogs. NKG2D is one of the most critical receptors on NK cells, recognizing their natural ligands on malignant cells such as A and B major histocompatibility complex-related proteins (MIC-A and MIC-B). Soluble molecules (sMIC-A and sMIC-B) can interfere with immune synapsis between NK cells and tumor cells, impeding NK cytotoxicity. The main objectives of this study were to analyze, in dogs with diffuse large B cell lymphoma, NK cell lymphoma, and reactive lymphadenopathies, the role of NK cells, their activating receptors NKG2D and NKp46, and their ligands MIC-A and MIC-B, as well as soluble molecules sMIC-A and sMIC-B. Thirty-six dogs with a possible diagnosis of NHL and eight healthy dogs were studied. NHL was diagnosed in 28 (78 %) dogs; in the other 8 (22 %), reactive lymphadenopathies were present. Most of the lymphomas corresponded to B cell NHL (82 %). The most predominant subtype was diffuse large B cell lymphoma (21, 71.5 %), followed by five cases (18 %) that were Non-B Non-T lymphomas (presumably NK cell lymphomas) and other B cell lymphomas (3, 10.5%). There were no cases of T cell NHL. MIC-A was positive in 7 of 27 (26 %) cases of NHL, and MIC-B in 20 of 27 (74 %) NHL. In non-malignant lymphadenopathies, three (37.5 %) dogs were positive for MIC-A, and five (62.5 %) expressed MIC-B. Dogs with lymphoma had higher numbers of NK cells than eight healthy dogs. In 15 dogs (12 cases with NHL and three cases with reactive adenopathies) and eight controls, there were no differences in the number of NK cells expressing NKP46 and NKG2D. NHL dogs had higher values of sMIC-A and sMIC-B. B-cell and NK cell lymphomas correspond to 86 % and 14 % of all canine lymphomas. MIC-A, MIC-B, and sMIC-A and sMIC-B were increased in canine lymphomas.

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犬淋巴瘤中MIC-A和MIC-B及可溶性MIC-A和MIC-B显著增加

非霍奇金淋巴瘤（NHL）是人类和狗最常见的血液系统恶性肿瘤。NKG2D是NK细胞上最关键的受体之一，识别其在恶性细胞上的天然配体，如A和B主要组织相容性复合体相关蛋白（MIC-A和MIC-B）。可溶性分子（sMIC-A和sMIC-B）可以干扰NK细胞和肿瘤细胞之间的免疫突触，阻碍NK细胞的细胞毒性。本研究的主要目的是在患有弥漫性大B细胞淋巴瘤、NK细胞淋巴瘤和反应性淋巴结病的狗中分析NK细胞、其激活受体NKG2D和NKp46、其配体MIC-A和MIC-B以及可溶性分子sMIC-A和sMIC-B的作用。对36只可能被诊断为NHL的狗和8只健康狗进行了研究。28只（78%）犬被诊断为NHL；其他8例（22%）出现反应性淋巴结病。大多数淋巴瘤对应于B细胞NHL（82%）。最主要的亚型是弥漫性大B细胞淋巴瘤（21，71.5%），其次是5例（18%）非B非T淋巴瘤（可能是NK细胞淋巴瘤）和其他B细胞淋巴瘤，（3，10.5%）。27例NHL中有7例（26%）MIC-A呈阳性，27例（74%）NHL中20例MIC-B呈阳性。在非恶性淋巴结病中，三只（37.5%）狗的MIC-A阳性，五只（62.5%）表达MIC-B。患有淋巴瘤的狗的NK细胞数量高于八只健康狗。在15只狗（12例NHL和3例反应性腺病）和8只对照中，表达NKP46和NKG2D的NK细胞数量没有差异。NHL犬的sMIC-A和sMIC-B值较高。B细胞和NK细胞淋巴瘤分别占犬淋巴瘤的86%和14%。MIC-A、MIC-B、sMIC-A和sMIC-B在犬淋巴瘤中增加。

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来源期刊

Veterinary immunology and immunopathology 农林科学-免疫学

CiteScore

3.40

自引率

5.60%

发文量

审稿时长

70 days

期刊介绍： The journal reports basic, comparative and clinical immunology as they pertain to the animal species designated here: livestock, poultry, and fish species that are major food animals and companion animals such as cats, dogs, horses and camels, and wildlife species that act as reservoirs for food, companion or human infectious diseases, or as models for human disease. Rodent models of infectious diseases that are of importance in the animal species indicated above,when the disease requires a level of containment that is not readily available for larger animal experimentation (ABSL3), will be considered. Papers on rabbits, lizards, guinea pigs, badgers, armadillos, elephants, antelope, and buffalo will be reviewed if the research advances our fundamental understanding of immunology, or if they act as a reservoir of infectious disease for the primary animal species designated above, or for humans. Manuscripts employing other species will be reviewed if justified as fitting into the categories above. The following topics are appropriate: biology of cells and mechanisms of the immune system, immunochemistry, immunodeficiencies, immunodiagnosis, immunogenetics, immunopathology, immunology of infectious disease and tumors, immunoprophylaxis including vaccine development and delivery, immunological aspects of pregnancy including passive immunity, autoimmuity, neuroimmunology, and transplanatation immunology. Manuscripts that describe new genes and development of tools such as monoclonal antibodies are also of interest when part of a larger biological study. Studies employing extracts or constituents (plant extracts, feed additives or microbiome) must be sufficiently defined to be reproduced in other laboratories and also provide evidence for possible mechanisms and not simply show an effect on the immune system.