The cytoskeletal system of mammalian primitive erythrocytes: studies in developing marsupials.

W D Cohen, M F Cohen, C H Tyndale-Biscoe, J L VandeBerg, G B Ralston
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引用次数: 13

Abstract

Seeking to resolve conflicting literature on cytoskeletal structure in mammalian "primitive" generation erythrocytes, we have utilized the circulating blood of developing marsupials. In young of the Tammar Wallaby (Macropus eugenii) and the Gray Short-tailed Opossum (Monodelphis domestica), relatively large, nucleated primitive erythrocytes constituted nearly 100% of the circulating population at birth (= day 0) and in fetuses (Tammar) several days before birth. These cells were discoidal or elliptical, and flattened except for a nuclear bulge. Their cytoskeletal system, consisting of a marginal band of microtubules enclosed within a cell surface-associated network (membrane skeleton), closely resembled that of non-mammalian vertebrate erythrocytes. By day 2 or 3, much smaller anucleate erythrocytes of "definitive" morphology, lacking marginal bands, appeared in abundance. These accounted for greater than 90% of the circulating population of both species by day 6-8. Non-nucleated erythrocytes of a different type, constituting 1-6% of the cells in most blood samples up to day 7, were identified as anucleate primitives on the basis of size, shape, and presence of a marginal band. Thus, loss of erythrocyte nuclei in mammals appears to begin earlier than generally recognized, i.e., in the primitive generation. Counts of these anucleate primitives in young of various ages implicated nucleated primitives as their probable source. Pointed erythrocytes, occasionally found in younger neonates of both species, occurred in greatest number in fetuses (Tammar) prior to birth. This is in accord with previous work on non-mammalian vertebrates suggesting that such cells are morphogenetic intermediates. The results confirm the long-suspected similarity between mammalian primitive erythrocytes and the nucleated erythrocytes of all non-mammalian vertebrates.

哺乳动物原始红细胞的细胞骨架系统:发育中有袋动物的研究。
为了解决关于哺乳动物“原始”代红细胞细胞骨架结构的矛盾文献,我们利用了发育中的有袋动物的循环血液。在小袋鼠(Macropus eugenii)和灰短尾负鼠(Monodelphis domestica)的幼崽中,相对较大的、有核的原始红细胞在出生时(=第0天)和出生前几天的胎儿(tamma)中几乎占循环种群的100%。细胞呈盘状或椭圆形,除核隆起外均扁平。它们的细胞骨架系统由封闭在细胞表面相关网络(膜骨架)内的微管边缘带组成,与非哺乳动物的脊椎动物红细胞非常相似。在第2天或第3天,大量出现小得多的“确定”形态的无核红细胞,没有边缘带。在第6-8天,这两种昆虫占循环种群的90%以上。一种不同类型的无核红细胞,在大多数血液样本中占1-6%,直到第7天,根据大小、形状和边缘带的存在被确定为无核原始红细胞。因此,哺乳动物红细胞细胞核的丧失似乎比一般认为的更早开始,即在原始世代。在不同年龄的幼体中对这些无核原始动物的计数表明有核原始动物可能是它们的来源。尖头红细胞,偶尔在两种幼崽中发现,在胎儿(tamma)出生前出现的数量最多。这与先前对非哺乳动物脊椎动物的研究一致,表明这些细胞是形态发生的中间产物。结果证实了长期以来怀疑哺乳动物原始红细胞与所有非哺乳动物脊椎动物有核红细胞之间的相似性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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