Canine T zone lymphoma is a tumor of mature, previously activated αβ T cells

IF 1.4 3区农林科学 Q4 IMMUNOLOGY

Veterinary immunology and immunopathology Pub Date : 2024-02-07 DOI:10.1016/j.vetimm.2024.110725

Kelly Hughes , Evan Conaway , Emily Blackwell, Emily Rout, Janna Yoshimoto, Robert Burnett, Anne Avery

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Abstract

T cell lymphomas are a diverse group of tumors found in both dogs and humans, originating from various normal T cell types. Identifying the origin of neoplastic lymphocytes can offer valuable insights into the pathogenesis and clinical behavior of these tumors. T zone lymphoma (TZL) in dogs is characterized by the absence of CD45 expression, a strong breed predilection, and its association with adult-onset demodicosis—a condition believed to be linked to immunosuppression. In this study, our aim was to employ transcriptomic and functional data to determine the normal counterpart of TZL. Identifying the normal counterpart may help us understand both how these tumors arise and explain their clinical behavior. Gene expression profiling using NanoString and RNA seq was used to compare the transcriptome between neoplastic T zone cells, normal canine T cells and publicly available gene sets using Gene Set Enrichment Analysis. Mitogen, anti-CD3 stimulation and PMA/ionomycin stimulation were used to assess T cell proliferation in vitro, and intracellular cytokine production was measured by flow cytometry. Gene expression profiling revealed that TZL is most likely derived from an activated or memory alpha-beta T cell but the cells do not fall cleanly into an effector subtype. TZL cells express CD4-specific transcription factors GATA3 and THPOK, even though TZL cells more commonly express CD8, or neither CD4 nor CD8. TZL cells produce high levels of interferon gamma and tumor necrosis factor alpha when stimulated, further supporting the hypothesis that they are derived from an antigen experienced T cell. TZL cells do not proliferate when stimulated through the T cell receptor but will divide when the T cell receptor is bypassed with PMA and ionomycin. The observation that these cells are derived from a mature, previously activated T cell is the first step in understanding the genesis of this unique T cell tumor.

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犬 T 区淋巴瘤是一种成熟的、先前活化的 αβ T 细胞肿瘤

T 细胞淋巴瘤是一类多种多样的肿瘤，在狗和人身上都能发现，它起源于各种正常的 T 细胞类型。确定肿瘤淋巴细胞的来源可为了解这些肿瘤的发病机制和临床表现提供宝贵的信息。犬 T 区淋巴瘤（TZL）的特点是没有 CD45 表达，具有强烈的品种偏好性，并且与成人发病的脱毛症有关--脱毛症被认为与免疫抑制有关。在本研究中，我们的目的是利用转录组和功能数据来确定 TZL 的正常对应物。确定正常对应物可能有助于我们了解这些肿瘤是如何产生的，并解释其临床表现。使用 NanoString 和 RNA seq 进行基因表达谱分析，比较了肿瘤性 T 区细胞、正常犬 T 细胞和使用基因组富集分析公开的基因组之间的转录组。使用有丝分裂原、抗 CD3 刺激和 PMA/ionomycin 刺激来评估体外 T 细胞增殖，并通过流式细胞术测量细胞内细胞因子的产生。基因表达谱分析显示，TZL 很可能来自活化或记忆性阿尔法-β T 细胞，但这些细胞并不完全属于效应亚型。TZL 细胞表达 CD4 特异性转录因子 GATA3 和 THPOK，尽管 TZL 细胞更常表达 CD8 或既不表达 CD4 也不表达 CD8。TZL 细胞在受到刺激时会产生高水平的伽马干扰素和肿瘤坏死因子α，这进一步支持了它们来源于抗原经验 T 细胞的假设。TZL 细胞在受到 T 细胞受体刺激时不会增殖，但在使用 PMA 和离子霉素绕过 T 细胞受体时会分裂。观察到这些细胞来自成熟的、先前活化的 T 细胞，是了解这种独特 T 细胞肿瘤成因的第一步。

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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.