乳酸/丙酮酸比率的改变可能是雄性大鼠肠道屏障功能障碍与衰老相关的罪魁祸首

IF 4.4 4区 医学 Q1 GERIATRICS & GERONTOLOGY Biogerontology Pub Date : 2024-04-15 DOI:10.1007/s10522-024-10102-0
Berrin Papila, Ayla Karimova, Ilhan Onaran
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引用次数: 0

摘要

一些证据表明,在体内模型中,与衰老相关的肠道渗透性增加与线粒体功能障碍之间存在联系。一些研究还表明,在大鼠的各种组织中,"普通 "线粒体 DNA(mtDNA)的特异性缺失 4834-bp 与年龄有关,并表明这种缺失可能会破坏线粒体的新陈代谢。本研究旨在调查大鼠线粒体 DNA(mtDNA)共同缺失、线粒体功能、肠道通透性和衰老之间可能存在的关联。研究对大鼠(24 个月)和幼鼠(4 个月)的肠道组织进行了分析。组织样本中的 mtDNA4834 缺失、mtDNA 拷贝数、线粒体膜电位以及 ATP、乳酸和丙酮酸水平都进行了分析。此外,还评估了血清中 Zonulin 和肠道脂肪酸结合蛋白 (I-FABP) 的水平。24 月龄大鼠的血清 Zonulin 和 I-FABP 水平明显高于 4 月龄大鼠(分别为 p = 0.04 和 p = 0.026)。老龄和幼龄肠道组织的 mtDNA4834 拷贝水平没有明显差异(p > 0.05)。两个年龄组的肠线粒体 DNA 拷贝数相似(p > 0.05)。老年大鼠和青年大鼠肠组织裂解物中的 ATP 水平没有明显差异(p > 0.05)。两组大鼠离体线粒体中的 ATP 水平也相似。使用 JC-10 对肠道组织线粒体中的 MMP 分析表明,两个年龄组的线粒体膜电位(红/绿比率)相似(p > 0.05)。24 月龄组大鼠的丙酮酸往往较高,而且发现与幼鼠相比,大鼠肠道组织中的 L/P 比率低了约三倍(p < 0.002)。老龄大鼠的组织乳酸/丙酮酸比率(L/P)比年轻大鼠低三倍。此外,肠道渗透性参数与 L/P 比率之间存在明显的负相关。老龄大鼠的肠道组织不容易积累 mtDNA 共缺失,因此我们认为这种突变不能解释与年龄相关的肠道渗透性增加。随着年龄的增长,糖酵解能力的改变似乎更有可能与肠道渗透性的增加有关。这一观察结果加强了糖酵解和线粒体代谢之间的平衡可能在肠道屏障功能中发挥关键作用的论断。
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Altered lactate/pyruvate ratio may be responsible for aging-associated intestinal barrier dysfunction in male rats

Some evidence points to a link between aging-related increased intestinal permeability and mitochondrial dysfunction in in-vivo models. Several studies have also demonstrated age-related accumulation of the of specific deletion 4834-bp of “common” mitochondrial DNA (mtDNA) in various rat tissues and suggest that this deletion may disrupt mitochondrial metabolism. The present study aimed to investigate possible associations among the mitochondrial DNA (mtDNA) common deletion, mitochondrial function, intestinal permeability, and aging in rats. The study was performed on the intestinal tissue from (24 months) and young (4 months) rats. mtDNA4834 deletion, mtDNA copy number, mitochondrial membrane potential, and ATP, lactate and pyruvate levels were analyzed in tissue samples. Zonulin and intestinal fatty acid-binding protein (I-FABP) levels were also evaluated in serum. Serum zonulin and I-FABP levels were significantly higher in 24-month-old rats than 4-month-old rats (p = 0.04, p = 0.026, respectively). There is not significant difference in mtDNA4834 copy levels was observed between the old and young intestinal tissues (p > 0.05). The intestinal mitochondrial DNA copy number was similar between the two age groups (p > 0.05). No significant difference was observed in ATP levels in the intestinal tissue lysates between old and young rats (p > 0.05). ATP levels in isolated mitochondria from both groups were also similar. Analysis of MMP using JC-10 in intestinal tissue mitochondria showed that mitochondrial membrane potentials (red/green ratios) were similar between the two age groups (p > 0.05). Pyruvate tended to be higher in the 24-month-old rat group and the L/P ratio was found to be approximately threefold lower in the intestinal tissue of the older rats compared to the younger rats (p < 0.002). The tissue lactate/pyruvate ratio (L/P) was three times lower in old rats than in young rats. Additionally, there were significant negative correlations between intestinal permeability parameters and L/P ratios. The intestinal tissues of aged rats are not prone to accumulate mtDNA common deletion, we suggest that this mutation does not explain the age-related increase in intestinal permeability. It seems to be more likely that altered glycolytic capacity could be a link to increased intestinal permeability with age. This observation strengthens assertions that the balance between glycolysis and mitochondrial metabolism may play a critical role in intestinal barrier functions.

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来源期刊
Biogerontology
Biogerontology 医学-老年医学
CiteScore
8.00
自引率
4.40%
发文量
54
审稿时长
>12 weeks
期刊介绍: The journal Biogerontology offers a platform for research which aims primarily at achieving healthy old age accompanied by improved longevity. The focus is on efforts to understand, prevent, cure or minimize age-related impairments. Biogerontology provides a peer-reviewed forum for publishing original research data, new ideas and discussions on modulating the aging process by physical, chemical and biological means, including transgenic and knockout organisms; cell culture systems to develop new approaches and health care products for maintaining or recovering the lost biochemical functions; immunology, autoimmunity and infection in aging; vertebrates, invertebrates, micro-organisms and plants for experimental studies on genetic determinants of aging and longevity; biodemography and theoretical models linking aging and survival kinetics.
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