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天然大鼠胰岛之间的血管异质性是移植后存活和再血管化差异的原因。

Vascular heterogeneity between native rat pancreatic islets is responsible for differences in survival and revascularisation post transplantation.

作者信息

Ullsten Sara, Lau Joey, Carlsson Per-Ola

机构信息

Department of Medical Cell Biology, Uppsala University, Husargatan 3, Box 571, SE-75123, Uppsala, Sweden.

出版信息

Diabetologia. 2015 Jan;58(1):132-9. doi: 10.1007/s00125-014-3385-7. Epub 2014 Sep 26.

DOI:10.1007/s00125-014-3385-7
PMID:25257098
Abstract

AIMS/HYPOTHESIS: Highly blood-perfused islets have been observed to be the most functional islets in the native pancreas. We hypothesised that differences in vascular support of islets in donor pancreases influence their susceptibility to cellular stress and capacity for vascular engraftment after transplantation.

METHODS

Highly blood-perfused islets in rats were identified by injection of microspheres into the ascending aorta before islet isolation. Cell death was evaluated after in vitro cytokine or hypoxia exposure, and 2 days post transplantation. One month post transplantation, islet engraftment, including vascular density, blood perfusion and oxygen tension (pO2) in the tissue, was evaluated.

RESULTS

Microsphere-containing islets had a similar frequency of cell death during standard culture conditions but increased cell death after exposure to cytokines and hypoxia in comparison with other islets. Two days after transplantation the percentage of apoptotic or necrotic cells was also higher in grafts of such islets and 1 month post transplantation these grafts were composed of substantially more connective tissue. Grafts of highly blood-perfused islets in the native pancreas regained a higher vascular density, blood perfusion and pO2 in comparison with grafts of other islets.

CONCLUSIONS/INTERPRETATION: Native islets that are highly blood-perfused regained this feature after transplantation, indicating a superior capacity for revascularisation and post-transplant function. However, the same group of islets was more vulnerable to different kinds of cellular stress, which limited their early survival post transplantation. Preferential death of these most active islets may contribute to the high number of islets needed to provide cure with islet transplantation.

摘要

目的/假设:在天然胰腺中,高血液灌注的胰岛被观察到是功能最活跃的胰岛。我们推测供体胰腺中胰岛的血管支持差异会影响它们对细胞应激的易感性以及移植后血管植入的能力。

方法

在胰岛分离前,通过向大鼠升主动脉注射微球来识别高血液灌注的胰岛。在体外细胞因子或缺氧暴露后以及移植后2天评估细胞死亡情况。移植后1个月,评估胰岛植入情况,包括组织中的血管密度、血液灌注和氧张力(pO2)。

结果

含微球的胰岛在标准培养条件下细胞死亡频率相似,但与其他胰岛相比,在暴露于细胞因子和缺氧后细胞死亡增加。移植后2天,此类胰岛移植中的凋亡或坏死细胞百分比也更高,移植后1个月,这些移植组织中结缔组织明显更多。与其他胰岛移植相比,天然胰腺中高血液灌注的胰岛移植恢复了更高的血管密度、血液灌注和pO2。

结论/解读:高血液灌注的天然胰岛在移植后恢复了这一特征,表明其血管再生能力和移植后功能更强。然而,同一组胰岛对不同类型的细胞应激更敏感,这限制了它们移植后的早期存活。这些最活跃的胰岛的优先死亡可能是胰岛移植需要大量胰岛才能治愈的原因之一。

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Cell Transplant. 2007 Jan;16(1):1-8. doi: 10.3727/000000007783464461.
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A type I interferon transcriptional signature precedes autoimmunity in children genetically at risk for type 1 diabetes.I 型干扰素转录特征先于自身免疫发生于遗传易患 1 型糖尿病的儿童中。
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The systemic immune network in recent onset type 1 diabetes: central role of interleukin-1 receptor antagonist (DIATOR Trial).
一种用于胰岛功能和形态分析的玻璃平行灌流载玻片。
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Highly blood perfused, highly metabolically active pancreatic islets may be more susceptible for immune attack.高血流灌注、高代谢活性的胰岛可能更容易受到免疫攻击。
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Carbogen gas-challenge BOLD fMRI in assessment of liver hypoxia after portal microcapsules implantation.门静脉微囊植入后评估肝缺氧的卡泊芬净气体挑战 BOLD fMRI。
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