Divisions of Nephrology and Hypertension (R.N., A.M., A.W.-C.) and Endocrinology and Metabolism (J.H., G.L., C.M., A.R.A., M.R.H., M.G., A.W.-C., J.R.S.), Departments of Internal Medicine (R.N., J.H., G.L., C.M., A.R.A., M.R.H., M.G., A.M., A.W.-C., J.R.S.) and Medical Pharmacology and Physiology (J.R.S.), Diabetes and Cardiovascular Center (R.N., J.H., G.L., C.M., A.R.A., M.R.H., M.G., A.M., M.J., A.W.-C., J.R.S.), University of Missouri-Columbia School of Medicine, Columbia, Missouri 65212; and Harry S. Truman Memorial Veterans Hospital (A.W.-C., J.R.S.), Columbia, Missouri 65201.
Endocrinology. 2014 Jun;155(6):2266-76. doi: 10.1210/en.2013-1920. Epub 2014 Apr 8.
Therapies to prevent renal injury in obese hypertensive individuals are being actively sought due to the obesity epidemic arising from the Western diet (WD), which is high in fructose and fat. Recently, activation of the immune system and hyperuricemia, observed with high fructose intake, have been linked to the pathophysiology of hypertension and renal injury. Because dipeptidyl peptidase 4 (DPP4) is a driver of maladaptive T-cell/macrophage responses, renal-protective benefits of DPP4 inhibition in the WD-fed mice were examined. Mice fed a WD for 16 weeks were given the DPP4 inhibitor MK0626 in their diet beginning at 4 weeks of age. WD-fed mice were obese, hypertensive, and insulin-resistant and manifested proteinuria and increased plasma DPP4 activity and uric acid levels. WD-fed mice also had elevated kidney DPP4 activity and monocyte chemoattractant protein-1 and IL-12 levels and suppressed IL-10 levels in the kidney, suggesting macrophage-driven inflammation, glomerular and tubulointerstitial injury. WD-induced increases in DPP4 activation in the plasma and kidney and proteinuria in WD mice were abrogated by MK0626, although blood pressure and systemic insulin sensitivity were not improved. Contemporaneously, MK0626 reduced serum uric acid levels, renal oxidative stress, and IL-12 levels and increased IL-10 levels, suggesting that suppression of DPP4 activity leads to suppression of renal immune/inflammatory injury responses to a WD. Taken together, these results demonstrate that DPP4 inhibition prevents high-fructose/high-fat diet-induced glomerular and tubular injury independent of blood pressure/insulin sensitivity and offers a potentially novel therapy for diabetic and obesity-related kidney disease.
由于西方饮食(WD)中果糖和脂肪含量高,导致肥胖症流行,因此正在积极寻找预防肥胖高血压个体肾损伤的治疗方法。最近,高果糖摄入时观察到的免疫系统激活和高尿酸血症与高血压和肾损伤的病理生理学有关。由于二肽基肽酶 4(DPP4)是适应性 T 细胞/巨噬细胞反应的驱动因素,因此研究了 DPP4 抑制在 WD 喂养小鼠中的肾脏保护作用。16 周龄的 WD 喂养小鼠从 4 周龄开始在饮食中给予 DPP4 抑制剂 MK0626。WD 喂养的小鼠肥胖、高血压和胰岛素抵抗,并表现出蛋白尿和血浆 DPP4 活性及尿酸水平升高。WD 喂养的小鼠还具有升高的肾脏 DPP4 活性、单核细胞趋化蛋白-1 和白细胞介素-12 水平,并降低肾脏中的白细胞介素-10 水平,提示巨噬细胞驱动的炎症、肾小球和肾小管间质损伤。MK0626 可消除 WD 诱导的血浆和肾脏中 DPP4 活性增加以及 WD 小鼠的蛋白尿,但不能改善血压和全身胰岛素敏感性。同时,MK0626 降低了血清尿酸水平、肾脏氧化应激和白细胞介素-12 水平,并增加了白细胞介素-10 水平,表明抑制 DPP4 活性可抑制 WD 引起的肾脏免疫/炎症损伤反应。综上所述,这些结果表明 DPP4 抑制可预防高果糖/高脂肪饮食诱导的肾小球和肾小管损伤,独立于血压/胰岛素敏感性,并为糖尿病和肥胖相关的肾脏疾病提供了一种潜在的新疗法。
