Centre of Cardiovascular Research and Education in Therapeutics, Department of Epidemiology and Preventive Medicine, Monash University, Melbourne, Australia.
Int J Cardiol. 2013 Oct 3;168(3):1866-80. doi: 10.1016/j.ijcard.2012.12.065. Epub 2013 Jan 22.
To further understand the pathophysiology of concomitant cardiac and renal dysfunction, we investigated molecular, structural and functional changes in heart and kidney that occur when a kidney insult (5/6 nephrectomy-STNx) follows myocardial infarction (MI).
Male Sprague Dawley rats (n=43) were randomized into four groups: Sham-operated MI+Sham-operated STNx (Sham+Sham), MI+Sham-operated STNx (MI+Sham), Sham-operated MI+STNx (Sham+STNx) and MI+STNx. MI/Sham surgery was followed by STNx/Sham surgery 4 weeks later. Cardiac and renal function was assessed prior to STNx/Sham surgery and again 10 weeks later. Hemodynamic parameters were measured prior to sacrifice.
Compared to the MI+Sham group, STNx further accelerated the reduction in left ventricular (LV) ejection fraction by 21% (p<0.01), and increased tau logistic by 38% (p<0.01) in MI+STNx animals. Heart weight/body weight (BW) and lung weight/BW ratios were 39% (p<0.001) and 16% (p<0.01) greater in MI+STNx compared to MI+Sham animals. Similarly, myocyte cross-sectional area (p<0.001), cardiac interstitial fibrosis (p<0.01) and collagen I (p<0.01) were increased in the LV non-infarct zone of the myocardium in the MI+STNx group. These changes were associated with significant increases in atrial natriuretic peptide (p<0.001), transforming growth factor β1 (p<0.05) and collagen I (p<0.05) gene expression in MI+STNx animals. In comparison with the Sham+STNx group, renal tubulointerstitial fibrosis was increased by 64% in MI+STNx animals (p<0.001), with no further deterioration in renal function.
STNx accelerated cardiac changes post-MI whilst MI accelerated STNx-induced renal fibrosis, supporting bidirectional interactions in cardiorenal syndrome (CRS). This animal model may be of use in assessing the impact of therapies to treat CRS.
为了进一步了解心脏和肾脏功能障碍的病理生理学,我们研究了肾脏损伤(5/6 肾切除-STNx)继心肌梗死(MI)之后发生在心脏和肾脏中的分子、结构和功能变化。
雄性 Sprague Dawley 大鼠(n=43)随机分为四组:假手术-MI+假手术-STNx(Sham+Sham)、MI+假手术-STNx(MI+Sham)、假手术-MI+STNx(Sham+STNx)和 MI+STNx。MI/假手术手术后 4 周进行 STNx/假手术。在 STNx/假手术手术前和 10 周后评估心肾功能。在牺牲前测量血流动力学参数。
与 MI+Sham 组相比,STNx 进一步使 MI+STNx 动物的左心室(LV)射血分数降低 21%(p<0.01),tau 逻辑增加 38%(p<0.01)。MI+STNx 动物的心脏重量/体重(BW)和肺重量/BW 比值分别增加 39%(p<0.001)和 16%(p<0.01)。同样,在 MI+STNx 组的心肌非梗死区,心肌细胞横截面积(p<0.001)、心脏间质纤维化(p<0.01)和胶原 I(p<0.01)增加。这些变化与 MI+STNx 动物心房利钠肽(p<0.001)、转化生长因子β1(p<0.05)和胶原 I(p<0.05)基因表达的显著增加相关。与 Sham+STNx 组相比,MI+STNx 动物的肾小管间质纤维化增加了 64%(p<0.001),但肾功能无进一步恶化。
STNx 加速了 MI 后的心脏变化,而 MI 加速了 STNx 诱导的肾脏纤维化,支持心肾综合征(CRS)中的双向相互作用。这种动物模型可能有助于评估治疗 CRS 的治疗方法的影响。
