慢性肺部暴露于球虫真菌性关节炎的小鼠中B细胞慢性淋巴细胞白血病的发展。

Vanessa Coyne, Heather L Mead, Patricia K A Mongini, Bridget M Barker
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引用次数: 0

摘要

反复的微生物感染和B细胞慢性淋巴细胞白血病(B-CLL)之间的联系已经被提出,但没有直接测试。这项研究考察了长期暴露于人类真菌病原体如何影响Eµ-hTCL1转基因小鼠的B-CLL发育。每月肺部暴露于灭活的节孢子球虫(谷热制剂),以一种物种特异性的方式改变了白血病的发展,尽管培养了更快速的单克隆B细胞淋巴细胞增多症,但波萨达西球虫加速了一部分小鼠的B-CLL诊断/进展,而Imitis球虫延缓了侵袭性B-CLL的发展。对照组和波萨达西梭菌治疗组的总生存率没有显著差异,但在Imitis暴露的小鼠中显著延长。合并B-CLL的体内倍增时间分析显示,早期和晚期白血病的生长率没有差异。然而,在C.immitis处理的小鼠中,与对照或C.posadasii处理的小鼠的B-CLL相比,B-CLL表现出更长的倍增时间,和/或随着时间的推移克隆收缩的证据。通过线性回归,CD5+/B220低B细胞的循环水平与先前与B-CLL生长相关的造血细胞之间存在正相关关系,尽管是以队列特异性的方式。中性粒细胞与暴露于任一类球虫的小鼠的加速生长呈正相关,但在对照小鼠中没有。相反,只有暴露于C.posadasii和对照组显示出CD5+/B220低B细胞频率与M2抗炎单核细胞和T细胞丰度之间的阳性联系。目前的研究提供了证据,证明慢性肺部暴露于真菌性关节孢子菌会以依赖于真菌基因型的方式影响B-CLL的发育。相关研究表明,真菌在调节非白血病造血细胞方面存在物种差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

B Cell Chronic Lymphocytic Leukemia Development in Mice with Chronic Lung Exposure to Coccidioides Fungal Arthroconidia.

B Cell Chronic Lymphocytic Leukemia Development in Mice with Chronic Lung Exposure to Coccidioides Fungal Arthroconidia.

B Cell Chronic Lymphocytic Leukemia Development in Mice with Chronic Lung Exposure to Coccidioides Fungal Arthroconidia.

B Cell Chronic Lymphocytic Leukemia Development in Mice with Chronic Lung Exposure to Coccidioides Fungal Arthroconidia.

Links between repeated microbial infections and B cell chronic lymphocytic leukemia (B-CLL) have been proposed but not tested directly. This study examines how prolonged exposure to a human fungal pathogen impacts B-CLL development in Eµ-hTCL1-transgenic mice. Monthly lung exposure to inactivated Coccidioides arthroconidia, agents of Valley fever, altered leukemia development in a species-specific manner, with Coccidioides posadasii hastening B-CLL diagnosis/progression in a fraction of mice and Coccidioides immitis delaying aggressive B-CLL development, despite fostering more rapid monoclonal B cell lymphocytosis. Overall survival did not differ significantly between control and C. posadasii-treated cohorts but was significantly extended in C. immitis-exposed mice. In vivo doubling time analyses of pooled B-CLL showed no difference in growth rates of early and late leukemias. However, within C. immitis-treated mice, B-CLL manifests longer doubling times, as compared with B-CLL in control or C. posadasii-treated mice, and/or evidence of clonal contraction over time. Through linear regression, positive relationships were noted between circulating levels of CD5+/B220low B cells and hematopoietic cells previously linked to B-CLL growth, albeit in a cohort-specific manner. Neutrophils were positively linked to accelerated growth in mice exposed to either Coccidioides species, but not in control mice. Conversely, only C. posadasii-exposed and control cohorts displayed positive links between CD5+/B220low B cell frequency and abundance of M2 anti-inflammatory monocytes and T cells. The current study provides evidence that chronic lung exposure to fungal arthroconidia affects B-CLL development in a manner dependent on fungal genotype. Correlative studies suggest that fungal species differences in the modulation of nonleukemic hematopoietic cells are involved.

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