The ultrastructure of peroxisomes in the kidney of the camel (Camelus dromedarius)

IF 0.8 4区 农林科学 Q4 ANATOMY & MORPHOLOGY Anatomia Histologia Embryologia Pub Date : 2024-08-19 DOI:10.1111/ahe.13103
Lemiaa Eissa, Mortada M. O. Elhassan, Haider I. Ismail, Hassan A. Ali
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Abstract

Dromedary camels can survive and reproduce in desert areas. The unique anatomical structure of the kidney enables the camel to prevent water loss. The present study aimed to investigate the ultrastructure of the peroxisomes in the normal kidney of the adult dromedary camel. Tissue samples were taken from the cortex and outer medulla of the kidney of eight camels. The samples were then processed for histological and ultrastructural investigations. The epithelial cells of the proximal tubules displayed peroxisomes with varying sizes and shapes. The peroxisomes were observed in either dispersed or clustered arrangement. Each peroxisome exhibited a homogenous matrix enveloped by a single membrane. Several peroxisomes exhibited one or more dark marginal plates that were always strongly associated with the smooth endoplasmic reticulum. The intensity of the peroxisomal matrix differed significantly, either within the same cell or across different cells. The intensity was light or dark, with a few peroxisomes presenting a similar intensity to that of the mitochondria. Some peroxisomes contained nucleoids within their matrix. The peroxisomes in the first and second sections of proximal convoluted tubules were scattered and primarily located in the region between the microvilli and the underlying mitochondria. The peroxisomes in the third region were abundant and frequently aggregated in clusters throughout the cytoplasm. In the fourth region, the number of peroxisomes was low. The proximal straight tubule had a limited quantity of peroxisomes. In conclusion, peroxisomes in the proximal tubule in kidney of normal dromedary camel were similar in shape and size to other mammals; however, heterogeneity exists as a result of differences in species-specific peroxisomal proteins. Peroxisomes are suggested to be a major source of metabolic energy and act as hydrogen peroxide (H2O2) scavengers, resulting in the release of water and oxygen.

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骆驼(Camelus dromedarius)肾脏过氧化物酶体的超微结构。
单峰骆驼可以在沙漠地区生存和繁殖。独特的肾脏解剖结构使骆驼能够防止水分流失。本研究旨在调查成年单峰骆驼正常肾脏中过氧化物酶体的超微结构。研究人员从八头骆驼的肾脏皮质和外髓质中提取了组织样本。然后对样本进行组织学和超微结构研究。近端肾小管的上皮细胞显示出大小和形状各异的过氧物酶体。观察到的过氧物酶体有的分散排列,有的成团排列。每个过氧物酶体都是由一层膜包裹的同质基质。一些过氧化物酶体显示出一个或多个深色边缘板,这些边缘板总是与光滑的内质网紧密相连。在同一细胞内或不同细胞中,过氧物酶体基质的强度差异很大。强度有深有浅,少数过氧物酶体的强度与线粒体相似。一些过氧物酶体的基质中含有核糖体。近端曲细管第一和第二部分的过氧物酶体比较分散,主要位于微绒毛和线粒体之间的区域。第三区域的过氧物酶体数量丰富,经常在整个细胞质中聚集成团。第四个区域的过氧物酶体数量较少。近端直管中的过氧物酶体数量有限。总之,正常单峰骆驼肾脏近端小管中的过氧化物酶体在形状和大小上与其他哺乳动物相似,但由于物种特有的过氧化物酶体蛋白存在差异,因此存在异质性。过氧化物酶体被认为是新陈代谢能量的主要来源,并充当过氧化氢(H2O2)的清除剂,从而释放出水和氧。
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来源期刊
Anatomia Histologia Embryologia
Anatomia Histologia Embryologia ANATOMY & MORPHOLOGY-VETERINARY SCIENCES
CiteScore
1.90
自引率
11.10%
发文量
115
审稿时长
18-36 weeks
期刊介绍: Anatomia, Histologia, Embryologia is a premier international forum for the latest research on descriptive, applied and clinical anatomy, histology, embryology, and related fields. Special emphasis is placed on the links between animal morphology and veterinary and experimental medicine, consequently studies on clinically relevant species will be given priority. The editors welcome papers on medical imaging and anatomical techniques. The journal is of vital interest to clinicians, zoologists, obstetricians, and researchers working in biotechnology. Contributions include reviews, original research articles, short communications and book reviews.
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