A lower motor neuron disease in takahē (Porphyrio hochstetteri) is an endoplasmic reticulum storage disease.

IF 1.1 4区 农林科学 Q3 VETERINARY SCIENCES
R D Jolly, M R Perrott, M R Alley, S A Hunter, A Pas, H Beard, K M Hemsley, G Greaves
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引用次数: 0

Abstract

Aims: To investigate the pathogenesis of a disease in takahē (Porphyrio hochstetteri) with intracytoplasmic inclusion bodies in lower motor neurons.

Methods: Four birds aged between 5 and 12 years, from three different wildlife sanctuaries in New Zealand were examined. Of these, only one had signs of spinal dysfunction in the form of paresis. Stained paraffin sections of tissues were examined by light microscopy and immunostained sections of the ventral horn of the spinal cord by confocal microscopy. Epoxy resin sections of the spinal cord from the bird with spinal dysfunction were examined by electron microscopy.

Results: Two types of inclusion bodies were noted, but only in motor neurons of the ventral spinal cord and brain stem. These were large globoid eosinophilic bodies up to 5 µm in diameter, and yellow/brown granular inclusions mostly at the pole of the cell. The globoid bodies stained with Luxol fast blue but not with periodic acid Schiff (PAS), or Sudan black. The granular inclusions stained with Luxol fast blue, PAS and Sudan black. Both bodies were slightly autofluorescent. On electron microscopy the globoid bodies had an even electron-dense texture and were bound by a membrane. Beneath the membrane were large numbers of small intraluminal vesicles. The smaller granular bodies were more heterogeneous, irregularly rounded and membrane-bound accumulations of granular electron-dense material, often with electron-lucent vacuoles. Others were more vesicular but contained varying amounts of electron-dense material. The large globoid bodies did not immunostain for lysosomal markers lysosomal associated protein 1 (LAMP1) or cathepsin D, so were not lysosomal. The small granular bodies stained for cathepsin D by a chromogenic method.A kindred matrix analysis showed two cases to be as closely related as first cousins, and another case was almost as closely related to one of them, but the fourth bird was unrelated to any other.

Conclusions: It was concluded that this was an endoplasmic reticulum storage disease due to a specific protein misfolding within endoplasmic reticulum. It was rationalised that the two types of inclusions reflected the same aetiology, but that misfolded protein in the smaller granular bodies had entered the lysosomal system via endoplasmic reticulum autophagy. Although the cause was unclear, it most likely had a genetic aetiology or predisposition and, as such, has clinical relevance.

下运动神经元疾病是一种内质网蓄积性疾病。
目的:探讨下运动神经元胞浆内包涵体型卟啉病的发病机制。方法:选取新西兰3个不同野生动物保护区的4只5 ~ 12岁的鸟类为研究对象。在这些人中,只有一个人有脊柱功能障碍的迹象,表现为麻痹。光镜检查组织染色石蜡切片,共聚焦显微镜检查脊髓前角免疫染色切片。用电子显微镜检查了脊髓功能障碍鸟的环氧树脂脊髓切片。结果:两种类型的包涵体均存在于脊髓腹侧和脑干的运动神经元中。这些是直径达5µm的大球状嗜酸性小体,以及主要位于细胞极部的黄色/棕色颗粒包裹体。球状体染色为Luxol耐晒蓝,但未染色为周期性酸性希夫(PAS)或苏丹黑。颗粒内含物用Luxol耐晒蓝、PAS和苏丹黑染色。两具尸体都有轻微的自动荧光。在电子显微镜下,球状体具有均匀的电子致密结构,并由膜结合。膜下可见大量小腔内囊泡。较小的颗粒体更不均匀,不规则圆形和膜束缚的粒状电子密集物质堆积,经常有电子透光的液泡。另一些则更像水泡,但含有不同数量的电子密度物质。大球状体未对溶酶体标记物溶酶体相关蛋白1 (LAMP1)或组织蛋白酶D进行免疫染色,因此不是溶酶体。用显色法染色组织蛋白酶D的小颗粒体。亲缘矩阵分析显示,有两种鸟类的亲缘关系与表亲一样密切,另一种鸟类与其中一种鸟类的亲缘关系几乎一样密切,但第四只鸟类与任何其他鸟类都没有关系。结论:这是一种内质网贮积病,是由于内质网内的一种特异性蛋白质错误折叠引起的。这两种类型的包涵体反映了相同的病因,但较小颗粒体中错误折叠的蛋白质通过内质网自噬进入溶酶体系统是合理的。虽然病因尚不清楚,但它很可能与遗传病因或易感性有关,因此具有临床相关性。
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来源期刊
New Zealand veterinary journal
New Zealand veterinary journal 农林科学-兽医学
CiteScore
3.00
自引率
0.00%
发文量
37
审稿时长
12-24 weeks
期刊介绍: The New Zealand Veterinary Journal (NZVJ) is an international journal publishing high quality peer-reviewed articles covering all aspects of veterinary science, including clinical practice, animal welfare and animal health. The NZVJ publishes original research findings, clinical communications (including novel case reports and case series), rapid communications, correspondence and review articles, originating from New Zealand and internationally. Topics should be relevant to, but not limited to, New Zealand veterinary and animal science communities, and include the disciplines of infectious disease, medicine, surgery and the health, management and welfare of production and companion animals, horses and New Zealand wildlife. All submissions are expected to meet the highest ethical and welfare standards, as detailed in the Journal’s instructions for authors.
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