腰椎脊髓解剖学和神经形态学的应变间差异：Wistar大鼠与深色阿古提大鼠。

IF 2.3 4区医学 Q3 NEUROSCIENCES

Journal of Comparative Neurology Pub Date : 2024-10-08 DOI:10.1002/cne.25673

Aleksandr Veshchitskii, Polina Shkorbatova, Evgeniya Efimova, Natalia Merkulyeva

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引用次数: 0

摘要

大鼠品系在中枢神经系统损伤后的生理、行为和恢复方面存在差异。为了评估这些差异，我们比较了 Wistar 品系和 Dark Agouti（DA）品系腰椎的大体和局部解剖以及神经形态。主要发现包括：(i) 两个品系的椎骨和脊柱节段之间存在不同的空间关系；(ii) Wistar 大鼠的脊髓灰质和白质体积较大；(iii) DA 大鼠的神经元总数较少，因此表明其局部神经元数量预期较少；(iv) 这一预期在表达 calbindin 28 kDa 的中间神经元上得到了证实。但与预期相反的是，(v) DA 大鼠表达副阀素的中间神经元群和α-运动神经元群数量更多。因此，这些品系的特定脊髓神经元群显示出不同的比例。研究人员在比较不同品系的数据时应考虑到这些品系间的差异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Inter-Strain Differences in the Lumbar Spinal Cord Anatomy and Neuromorphology: Wistar Versus Dark Agouti Rats

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Inter-Strain Differences in the Lumbar Spinal Cord Anatomy and Neuromorphology: Wistar Versus Dark Agouti Rats

Rat strains differ in physiology, behavior, and recovery after central nervous system injury. To assess these differences, we compared the gross and local anatomy and neuromorphology of the lumbar spinal cord of the Wistar and Dark Agouti (DA) strains. The key findings include (i) distinct spatial relationships between vertebrae and spinal segments in the two strains; (ii) Wistar rats have larger volumes of spinal cord gray and white matter; (iii) DA rats have smaller total neuronal populations, thus indicating an expectation of smaller local neuronal populations; (iv) this expectation was confirmed for interneurons expressing calbindin 28 kDa. But contrary to expectations, (v) DA rats had more numerous populations of the interneurons expressing parvalbumin and a population of α-motoneurons. Consequently, these strains displayed divergent ratios in specific spinal neuronal populations. Researchers should consider these inter-strain differences when comparing data across different strains.

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来源期刊

Journal of Comparative Neurology 医学-动物学

CiteScore

5.80

自引率

8.00%

发文量

158

审稿时长

3-6 weeks

期刊介绍： Established in 1891, JCN is the oldest continually published basic neuroscience journal. Historically, as the name suggests, the journal focused on a comparison among species to uncover the intricacies of how the brain functions. In modern times, this research is called systems neuroscience where animal models are used to mimic core cognitive processes with the ultimate goal of understanding neural circuits and connections that give rise to behavioral patterns and different neural states. Research published in JCN covers all species from invertebrates to humans, and the reports inform the readers about the function and organization of nervous systems in species with an emphasis on the way that species adaptations inform about the function or organization of the nervous systems, rather than on their evolution per se. JCN publishes primary research articles and critical commentaries and review-type articles offering expert insight in to cutting edge research in the field of systems neuroscience; a complete list of contribution types is given in the Author Guidelines. For primary research contributions, only full-length investigative reports are desired; the journal does not accept short communications.