Department of Movement and Sports Sciences, Ghent University, Ghent, Belgium.
Department of Pathology, Leiden University Medical Center, Leiden, The Netherlands.
Am J Physiol Renal Physiol. 2020 Apr 1;318(4):F1030-F1040. doi: 10.1152/ajprenal.00329.2019. Epub 2020 Mar 9.
Manipulation of circulating histidine-containing dipeptides (HCD) has been shown to affect the development of diabetes and early-stage diabetic nephropathy (DN). The aim of the present study was to investigate whether such interventions, which potentially alter levels of circulating HCD, also affect the development of advanced-stage DN. Two interventions, aerobic exercise training and overexpression of the human carnosinase-1 (hCN1) enzyme, were tested. BTBR mice were either subjected to aerobic exercise training (20 wk) or genetically manipulated to overexpress hCN1, and different diabetes- and DN-related markers were compared with control and healthy (wild-type) mice. An acute exercise study was performed to elucidate the effect of obesity, acute running, and hCN1 overexpression on plasma HCD levels. Chronic aerobic exercise training did not affect the development of diabetes or DN, but hCN1 overexpression accelerated hyperlipidemia and aggravated the development of albuminuria, mesangial matrix expansion, and glomerular hypertrophy of mice. In line, plasma, kidney, and muscle HCD were markedly lower in versus wild-type mice, and plasma and kidney HCD in particular were lower in hCN1 versus mice but were unaffected by aerobic exercise. In conclusion, advanced glomerular damage is accelerated in mice overexpressing the hCN1 enzyme but not protected by chronic exercise training. Interestingly, we showed, for the first time, that the development of DN is closely linked to renal HCD availability. Further research will have to elucidate whether the stimulation of renal HCD levels can be a therapeutic strategy to reduce the risk for developing DN.
循环组氨酸二肽(HCD)的操纵已被证明会影响糖尿病和早期糖尿病肾病(DN)的发展。本研究的目的是研究这种潜在改变循环 HCD 水平的干预措施是否也会影响晚期 DN 的发展。测试了两种干预措施,即有氧运动训练和人肌肽酶-1(hCN1)酶的过表达。BTBR 小鼠要么接受有氧运动训练(20 周),要么进行基因操作以过表达 hCN1,并将不同的糖尿病和 DN 相关标志物与对照和健康(野生型)小鼠进行比较。进行了一项急性运动研究,以阐明肥胖、急性跑步和 hCN1 过表达对血浆 HCD 水平的影响。慢性有氧运动训练并未影响糖尿病或 DN 的发展,但 hCN1 过表达加速了高脂血症,并加重了 小鼠的蛋白尿、系膜基质扩张和肾小球肥大的发展。与此一致,与野生型小鼠相比,血浆、肾脏和肌肉中的 HCD 在 小鼠中明显降低,特别是在 hCN1 小鼠中,血浆和肾脏 HCD 降低,但不受有氧运动的影响。总之,在过表达 hCN1 酶的小鼠中,肾小球的晚期损伤加速,但慢性运动训练并不能保护。有趣的是,我们首次表明,DN 的发展与肾脏 HCD 的可用性密切相关。进一步的研究将不得不阐明刺激肾脏 HCD 水平是否可以成为降低发生 DN 风险的治疗策略。
