猪胰岛的制备:22°C 培养没有比 37°C 培养更有优势:基因表达评价。
Manufacturing porcine islets: culture at 22 °C has no advantage above culture at 37 °C: a gene expression evaluation.
机构信息
Department of Surgery, Schulze Diabetes Institute, University of Minnesota, Minneapolis, MN, USA.
出版信息
Xenotransplantation. 2013 Nov-Dec;20(6):418-28. doi: 10.1111/xen.12048. Epub 2013 Aug 14.
BACKGROUND
The manufacturing process of islets includes a culture step which was originally introduced to ease the logistics of procedures in preparing the graft and transplant recipient. It has been suggested that culture at room temperature has an advantage over culture at 37 °C, in part by reducing immunogenicity via preferential elimination of contaminating cells (such as passenger leukocytes) within islets. We investigated this using islets isolated from pancreata of adult pigs.
METHODS
Porcine islets were isolated from three donors and cultured at 37 °C for 1 day, and then under three different conditions: 37 °C for 6 days (condition A); 22 °C for 6 days (condition B); or 22 °C for 5 days followed by 37 °C for 1 day (condition C). Recovery was assessed by DNA measurement, viability by oxygen consumption rate normalized for DNA (OCR/DNA), and gene expression by RT-PCR for a series of 9 lymphocyte markers, 11 lymphokines and chemokines, and 14 apoptotic and stress markers.
RESULTS
Post-culture islet recoveries were similar for the three culture conditions. Average OCR/DNA values were 129-159 nmol/min·mgDNA before culture, and 259-291, 204-212, and 207-228 nmol/min·mgDNA, respectively, for culture under conditions A, B, and C, respectively. Irrespective of culture condition, examined gene expression in all three series of lymphocyte markers, lymphokines and chemokines, and apoptotic and stress markers manifested a statistically significant decrease upon culture for 7 days. This decrease was most dramatic for condition A: in particular, most of lymphocyte markers showed a >10-fold reduction and also six markers in the lymphokine and chemokine series; these reductions are consistent with the elimination of immune cells present within islets during culture. The reduction was less for apoptotic and stress markers. For culture under condition B, the reduction in gene expression was less, and culture under condition C resulted in gene expression levels similar to those under condition A: this indicates that 24 h at 37 °C is sufficient to re-equilibrate gene expression levels from those in islets cultured at 22 °C to those in islets cultured at 37 °C. Results were consistent among the preparations from the three donors.
CONCLUSIONS
Culture of porcine islets at 37 °C provides benefits over culture at 22 °C with respect to OCR/DNA outcomes and reduced expression of genes encoding lymphocyte markers, lymphokines and chemokines, and markers for apoptosis and stress.
背景
胰岛的制造过程包括一个培养步骤,该步骤最初是为了简化制备移植物和移植受者的程序的物流而引入的。有人认为,在室温下培养比在 37°C 下培养具有优势,部分原因是通过优先消除胰岛内的污染细胞(如过客白细胞)来降低免疫原性。我们使用从成年猪胰腺中分离的胰岛对此进行了研究。
方法
从 3 个供体中分离猪胰岛,并在 37°C 下培养 1 天,然后在三种不同条件下进行培养:37°C 下培养 6 天(条件 A);22°C 下培养 6 天(条件 B);或 22°C 下培养 5 天,然后在 37°C 下培养 1 天(条件 C)。通过 DNA 测量评估回收率,通过氧消耗率标准化的 DNA(OCR/DNA)评估活力,并通过 RT-PCR 评估一系列 9 个淋巴细胞标志物、11 个淋巴因子和趋化因子以及 14 个凋亡和应激标志物的基因表达。
结果
三种培养条件下的胰岛培养后回收率相似。培养前平均 OCR/DNA 值为 129-159nmol/min·mgDNA,分别为培养条件 A、B 和 C 下的 259-291、204-212 和 207-228nmol/min·mgDNA。无论培养条件如何,所有三个系列的淋巴细胞标志物、淋巴因子和趋化因子以及凋亡和应激标志物的基因表达在培养 7 天后均表现出统计学上的显著降低。这种减少在条件 A 中最为明显:特别是,大多数淋巴细胞标志物的减少超过 10 倍,淋巴因子和趋化因子系列中的 6 个标志物也是如此;这些减少与培养过程中胰岛内免疫细胞的消除一致。凋亡和应激标志物的减少较少。在条件 B 下培养时,基因表达的减少较少,在条件 C 下培养时基因表达水平与条件 A 相似:这表明在 37°C 下培养 24 小时足以使基因表达水平从在 22°C 下培养的胰岛重新平衡到在 37°C 下培养的胰岛。三个供体的结果一致。
结论
与 22°C 培养相比,37°C 培养猪胰岛在 OCR/DNA 结果和降低编码淋巴细胞标志物、淋巴因子和趋化因子以及凋亡和应激标志物的基因表达方面具有优势。
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