促炎条件和/或高糖对衰老成纤维细胞端粒缩短的影响。

The effect of pro-inflammatory conditioning and/or high glucose on telomere shortening of aging fibroblasts.

机构信息

Centre for Cardiovascular Genetics, Division of Medicine, University College London, London, United Kingdom.

出版信息

PLoS One. 2013 Sep 23;8(9):e73756. doi: 10.1371/journal.pone.0073756. eCollection 2013.

DOI:10.1371/journal.pone.0073756

PMID:24086293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3781104/

Abstract

UNLABELLED

Cardiovascular disease and diabetes have been linked to shorter telomeres, but it is not yet clear which risk factors contribute to shorter telomeres in patients. Our aim was to examine whether pro-inflammatory conditioning, in combination or not with high glucose, result in a higher rate of telomere shortening during in vitro cellular ageing. Human fibroblasts from four donors were cultured for 90 days in: 1) medium lacking ascorbic acid only, 2) 10 mM buthionine sulphoximine (BSO) (pro-oxidant), 3) 25 mM D-glucose, 4) 1 ng/ml IL1B and 5) 25 mM D-glucose+1 ng/ml IL1B. Telomere length was measured with qPCR and intracellular reactive oxygen species (ROS) content and cell death with flow cytometry. Cultures treated with high glucose and BSO displayed a significantly lower growth rate, and cultures treated with IL1B showed a trend towards a higher growth rate, compared to the control [Glucose:0.14 PD/day, p<0.001, BSO: 0.11 PD/day, p = 0.006 and IL1B: 0.19 PD/day, p = 0.093 vs.

CONTROL

0.16 PD/day]. Telomere shortening with time was significantly accelerated in cultures treated with IL1B compared to the control [IL1B:-0.8%/day (95%CI:-1.1, -0.5) vs.

CONTROL

-0.6%/day (95%CI:-0.8, -0.3), p = 0.012]. The hastening of telomere shortening by IL1B was only in part attenuated after adjustment for the number of cell divisions [IL1B:-4.1%/PD (95%CI:-5.7, -2.4) vs.

CONTROL

-2.5%/PD (95%CI:-4.4, -0.7), p = 0.067]. The intracellular ROS content displayed 69% increase (p = 0.033) in BSO compared to the control. In aging fibroblasts, pro-inflammatory conditioning aggravates the shortening of telomeres, an effect which was only in part driven by increased cell turnover. High glucose alone did not result in greater production of ROS or telomere shortening.

摘要

目的

研究在体外细胞衰老过程中，促炎条件（单独或联合高葡萄糖）是否会导致端粒缩短率增加。

方法

将来自 4 名供体的人成纤维细胞在以下条件下培养 90 天：1）仅缺乏抗坏血酸的培养基，2）10mM 丁硫氨酸亚砜（BSO）（促氧化剂），3）25mM D-葡萄糖，4）1ng/ml IL1B 和 5）25mM D-葡萄糖+1ng/ml IL1B。用 qPCR 测量端粒长度，用流式细胞术测量细胞内活性氧（ROS）含量和细胞死亡。与对照组相比，用高葡萄糖和 BSO 处理的培养物显示出明显更低的生长速度，而用 IL1B 处理的培养物显示出更高生长速度的趋势。与对照组相比，用 IL1B 处理的培养物中端粒随时间的缩短速度明显加快[IL1B：-0.8%/天（95%CI：-1.1，-0.5），与对照组相比，-0.6%/天（95%CI：-0.8，-0.3），p=0.012]。在用 IL1B 处理的培养物中，IL1B 对端粒缩短的加速作用在调整细胞分裂次数后仅部分减弱[IL1B：-4.1%/PD（95%CI：-5.7，-2.4），与对照组相比，-2.5%/PD（95%CI：-4.4，-0.7），p=0.067]。BSO 与对照组相比，细胞内 ROS 含量增加 69%（p=0.033）。在衰老的成纤维细胞中，促炎条件加重了端粒的缩短，这种作用部分是由细胞更新增加引起的。单独的高葡萄糖不会导致 ROS 产生增加或端粒缩短。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dc30/3781104/664156281809/pone.0073756.g001.jpg

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促炎条件和/或高糖对衰老成纤维细胞端粒缩短的影响。

The effect of pro-inflammatory conditioning and/or high glucose on telomere shortening of aging fibroblasts.

机构信息

出版信息

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