缺氧诱导因子脯氨酸羟酶缺乏小鼠肺神经上皮体增生和肥大,推定气道缺氧传感器。

Hypoxia (Auckland, N.Z.) Pub Date : 2016-04-12 eCollection Date: 2016-01-01 DOI:10.2147/HP.S103957
Jie Pan, Tammie Bishop, Peter J Ratcliffe, Herman Yeger, Ernest Cutz
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引用次数: 9

摘要

肺神经上皮小体(neb)被认为是多模气道传感器,由神经支配的胺(5 -羟色胺)和肽产生细胞簇组成。虽然NEB对急性缺氧的反应是由膜结合的O2传感器复合物介导的,但对持续和/或慢性缺氧的反应涉及脯氨酸羟化酶(PHD)-缺氧诱导因子依赖机制。我们之前报道过Phd1-/-小鼠肺内neb增生与血清素分泌增强有关。在这里,我们使用一种新的多标记免疫荧光方法来评估NEB的分布、频率和大小,以及NEB细胞核的数量和大小,并在Phd1-/-、Phd2+/-和Phd3-/-小鼠的肺中共定位多个细胞质和核表位,并将其与野生型对照进行比较。为了确定NEB细胞增生的机制,我们使用了针对Mash1和Prox1(参与NEB细胞分化/成熟的神经源性基因)、缺氧诱导因子-1 α和细胞增殖标记物Ki67的抗体。Phd1-/-和Phd3-/-小鼠NEB细胞的细胞质标记物synaptophysin (% synaptophysin)免疫染色(%总肺面积)的形态测定分析与野生型小鼠相比,Phd1-/-和Phd3-/-小鼠显著增加。此外,NEB的大小和NEB核的数量和大小也显著增加,表明博士缺乏与NEB的显著增生和肥大有关。在Phd2+/-小鼠中,虽然平均% synaptophysin与野生型对照相当,但NEB大小适度增加,表明即使在杂合子中也有影响。所有博士缺乏小鼠的neb均显示Mash1、Prox1、Ki67和缺氧诱导因子-1 α的表达增加,与前体细胞分化增强和细胞增殖的次要成分保持一致。由于博士活动的丧失与慢性缺氧相似,我们的数据为博士在与许多儿科肺部疾病相关的NEB细胞增生的病理生物学和机制中的潜在作用提供了关键信息。
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Hyperplasia and hypertrophy of pulmonary neuroepithelial bodies, presumed airway hypoxia sensors, in hypoxia-inducible factor prolyl hydroxylase-deficient mice.

Pulmonary neuroepithelial bodies (NEBs), presumed polymodal airway sensors, consist of innervated clusters of amine (serotonin) and peptide-producing cells. While NEB responses to acute hypoxia are mediated by a membrane-bound O2 sensor complex, responses to sustained and/or chronic hypoxia involve a prolyl hydroxylase (PHD)-hypoxia-inducible factor-dependent mechanism. We have previously reported hyperplasia of NEBs in the lungs of Phd1-/- mice associated with enhanced serotonin secretion. Here we use a novel multilabel immunofluorescence method to assess NEB distribution, frequency, and size, together with the number and size of NEB cell nuclei, and to colocalize multiple cytoplasmic and nuclear epitopes in the lungs of Phd1-/-, Phd2+/-, and Phd3-/- mice and compare them with wild-type controls. To define the mechanisms of NEB cell hyperplasia, we used antibodies against Mash1 and Prox1 (neurogenic genes involved in NEB cell differentiation/maturation), hypoxia-inducible factor-1alpha, and the cell proliferation marker Ki67. Morphometric analysis of (% total lung area) immunostaining for synaptophysin (% synaptophysin), a cytoplasmic marker of NEB cells, was significantly increased in Phd1-/- and Phd3-/- mice compared to wild-type mice. In addition, NEB size and the number and size of NEB nuclei were also significantly increased, indicating that deficiency of Phds is associated with striking hyperplasia and hypertrophy of NEBs. In Phd2+/- mice, while mean % synaptophysin was comparable to wild-type controls, the NEB size was moderately increased, suggesting an effect even in heterozygotes. NEBs in all Phd-deficient mice showed increased expression of Mash1, Prox1, Ki67, and hypoxia-inducible factor-1alpha, in keeping with enhanced differentiation from precursor cells and a minor component of cell proliferation. Since the loss of PHD activity mimics chronic hypoxia, our data provide critical information on the potential role of PHDs in the pathobiology and mechanisms of NEB cell hyperplasia that is relevant to a number of pediatric lung disorders.

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