骨髓结构和基质细胞在致死性辐照大鼠与健康产仔交配后再生骨髓恢复过程中的作用。

Scanning electron microscopy Pub Date : 1986-01-01
K Hayashi, K Kagawa, M Awai, S Irino
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引用次数: 0

摘要

全身致死照射(x射线照射1000拉德)诱导大鼠骨髓发育不全,照射损伤大鼠在7天内死亡。光镜(LM)、透射电镜(TEM)和扫描电镜(SEM)的相关研究显示,在第1天和第2天,内皮细胞和网状细胞肿胀,并因窦内皮细胞脱离而出血。随着时间的推移,在没有造血功能恢复的情况下发生了结构恢复。网状细胞在第3天和第4天形成小的胞浆内脂滴。这导致7天内脂肪再生骨髓。另一方面,在经主动脉吻合与健康配偶结合的辐照大鼠骨髓中,在结合后第1天和第2天,有核血细胞粘附到脂肪储存细胞的细胞质伪足上,开始造血。第3 ~ 5天,网状细胞增多,脂滴大,伪足细,造血灶清晰广泛。异种共生后第8天,再生骨髓结构和造血活性完全恢复。因此,在致命照射的骨髓中,造血功能的恢复始于血管内皮细胞的恢复,正弦结构的重建,以及通过释放胞浆内脂滴从脂肪储存细胞中恢复网状细胞的形态和功能。骨髓基质细胞,即网状细胞、脂肪储存细胞和成纤维样细胞,具有共同的细胞起源,当脂肪储存细胞和纤维瘤细胞与造血前体细胞接触时,它们的结构和功能就会恢复。
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The role of marrow architecture and stromal cells in the recovery process of aplastic marrow of lethally irradiated rats parabiosed with healthy litter mates.

Bone marrow aplasia was induced in rats by whole body lethal irradiation (1,000 rads by x-ray), and rats died of irradiation injury within 7 days. Correlative studies at light (LM), transmission (TEM) and scanning electron microscopy (SEM) demonstrated swelling of endothelial and reticular cells and hemorrhage due to detachment of sinus endothelial cells on days 1 and 2. With time, structural recovery occurred without hemopoietic recovery. Reticular cells developed small intracytoplasmic lipid droplets on days 3 and 4. This resulted in fatty aplastic marrow within 7 days. On the other hand, in the marrow of irradiated rats parabiosed with healthy mates by aortic anastomosis, hemopoiesis was initiated by adhesion of nucleated blood cells to fine cytoplasmic pseudopods of fat-stored cells on days 1 and 2 after parabiosis. On days 3 to 5, reticular cells with large lipid droplets and fine pseudopods increased, then hemopoietic foci became clear and extensive. On day 8 after parabiosis, the aplastic bone marrow recovered completely both its structure and hemopoietic activity. Thus, hemopoietic recovery in lethally irradiated marrow begins with recovery of vascular endothelial cells, re-establishment of sinusoidal structure, and morphological and functional recoveries of reticular cells from fat-storage cells by releasing intracytoplasmic lipid droplets. Marrow stromal cells, namely reticular, fat-storage and fibroblastoid cells, share a common cellular origin, and regain their structure and function when fat-storage cells and fibroid cells are placed in contact with hemopoietic precursor cells.

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