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Nkx2-3 缺失和 MAdCAM-1 缺失对肠道类型 3 固有淋巴细胞分布和小鼠出生后 SILT 形成的差异影响。

Differential Effects of the Absence of Nkx2-3 and MAdCAM-1 on the Distribution of Intestinal Type 3 Innate Lymphoid Cells and Postnatal SILT Formation in Mice.

机构信息

Department of Immunology and Biotechnology, Clinical Center, University of Pécs, Pécs, Hungary.

Lymphoid Organogenesis Research Group, Szentágothai Research Center, University of Pécs, Pécs, Hungary.

出版信息

Front Immunol. 2019 Mar 5;10:366. doi: 10.3389/fimmu.2019.00366. eCollection 2019.

DOI:10.3389/fimmu.2019.00366
PMID:30891037
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6413488/
Abstract

Seeding of leukocytes to developing lymphoid tissues in embryonic and early postnatal age and to the mucosa throughout adulthood depends on the interaction between endothelial MAdCAM-1 addressin and its cognate ligand α4β7 integrin. Nkx2-3 as a transcriptional regulator of MAdCAM-1 controls vascular patterning in visceral lymphoid tissues in mice, and has been identified as a susceptibility factor for inflammatory bowel diseases in humans, associated with lymphoid neogenesis in the inflamed intestines. The role of Nkx2-3 in the organogenesis of the solitary intestinal lymphoid tissues (SILTs) involving type 3 innate lymphoid cells (ILC3) is still unknown. Here we investigated the effect of Nkx2-3 on the postnatal distribution of intestinal ILC3s and the development of SILTs, comparing these to mice lacking MAdCAM-1, but preserving Nkx2-3. At 1 week of age small intestines (SI) contained significantly higher number of ILC3s relative to the colon, with a substantial reduction in MAdCAM-1 mice compared to C57BL/6 controls. One week later SI ILC3 number decreased in all genotypes, the number of colonic ILC3 of both Nkx2-3-deficient and Nkx2-3-heterozygous mice significantly increased. On the fourth postnatal week a further reduction of SI ILC3s was observed in both Nkx2-3-deficient and Nkx2-3-heterozygous mice, while in the colon the number of ILC3s showed a significant reduction in all genotypes. At 1 week of age only sporadic SILT components were present in all genotypes. By the second week mice deficient for either Nkx2-3 or MAdCAM-1 showed absence of SILT maturation compared to their relevant controls, lacking mature isolated lymphoid follicles (ILF). By the fourth week both Nkx2-3-deficient and Nkx2-3-heterozygous mice showed a similar distribution of ILFs relative to cryptopatches (CP), whereas in MAdCAM-1 mice CPs and immature ILFs were present, mature ILFs were scarce. Our data demonstrate that the complete absence of MAdCAM-1 partially impairs intestinal seeding of ILC3s and causes partial blockade of SILT maturation, without affecting peripheral lymph node development. In contrast, the inactivation of Nkx2-3 permits postnatal seeding, and its blocking effect on SILT maturation prevails at later stage, thus other adhesion molecules may compensate for the intestinal homing of ILC3s in the absence of MAdCAM-1.

摘要

在胚胎期和出生后早期,白细胞向发育中的淋巴组织和整个成年期的黏膜的定植依赖于内皮细胞 MAdCAM-1 地址素与同源配体 α4β7 整合素之间的相互作用。Nkx2-3 作为 MAdCAM-1 的转录调节剂,控制着小鼠内脏淋巴组织中的血管模式形成,并且已被确定为人类炎症性肠病的易感因素,与炎症肠道中的淋巴新生有关。Nkx2-3 在涉及 3 型先天淋巴细胞(ILC3)的孤立肠道淋巴组织(SILT)器官发生中的作用尚不清楚。在这里,我们研究了 Nkx2-3 对肠道 ILC3 出生后分布和 SILT 发育的影响,并将其与缺乏 MAdCAM-1 但保留 Nkx2-3 的小鼠进行了比较。在 1 周龄时,小肠(SI)中 ILC3 的数量相对于结肠显著增加,而 MAdCAM-1 小鼠与 C57BL/6 对照相比则显著减少。一周后,所有基因型的 SI ILC3 数量均减少,Nkx2-3 缺陷型和杂合型小鼠的结肠 ILC3 数量显著增加。在出生后的第 4 周,Nkx2-3 缺陷型和杂合型小鼠的 SI ILC3 数量进一步减少,而在结肠中,所有基因型的 ILC3 数量均显著减少。在 1 周龄时,所有基因型中仅存在散在的 SILT 成分。到第 2 周时,与各自的对照相比,缺乏 Nkx2-3 或 MAdCAM-1 的小鼠的 SILT 成熟明显缺失,缺乏成熟的孤立淋巴滤泡(ILF)。到第 4 周时,Nkx2-3 缺陷型和杂合型小鼠的 ILF 相对于隐窝(CP)的分布相似,而在 MAdCAM-1 小鼠中,CP 和不成熟的 ILF 存在,成熟的 ILF 则很少。我们的数据表明,完全缺乏 MAdCAM-1 部分损害了肠道 ILC3 的定植,并导致 SILT 成熟部分受阻,而不影响外周淋巴结的发育。相比之下,Nkx2-3 的失活允许出生后定植,并且其对 SILT 成熟的阻断作用在后期占主导地位,因此在缺乏 MAdCAM-1 的情况下,其他粘附分子可能补偿 ILC3 向肠道的归巢。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/cb3ad734dd96/fimmu-10-00366-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/233012bee373/fimmu-10-00366-g0001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/40ac388acfad/fimmu-10-00366-g0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/f9f3c29286ce/fimmu-10-00366-g0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/cb3ad734dd96/fimmu-10-00366-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/233012bee373/fimmu-10-00366-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/fc1630524d94/fimmu-10-00366-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/40ac388acfad/fimmu-10-00366-g0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/f9f3c29286ce/fimmu-10-00366-g0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c33b/6413488/cb3ad734dd96/fimmu-10-00366-g0005.jpg

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