Inhibition of the Renin-Angiotensin System Improves Hemodynamic Function of the Diabetic Rat Heart by Restoring Intracellular Calcium Regulation.

IF 3.9 3区工程技术 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Biomedicines Pub Date : 2025-03-20 DOI:10.3390/biomedicines13030757

Krisztina Anna Paulik, Tamás Ivanics, Gábor A Dunay, Ágnes Fülöp, Margit Kerék, Klára Takács, Zoltán Benyó, Zsuzsanna Miklós

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Abstract

Background/Objectives: Disrupted intracellular calcium (Ca²⁺_i) regulation and renin-angiotensin system (RAS) activation are pathogenetic factors in diabetic cardiomyopathy, a major complication of type 1 (T1D) and type 2 (T2D) diabetes. This study explored their potential link in diabetic rat hearts. Methods: Experiments were conducted on T1D and T2D Sprague-Dawley rats induced by streptozotocin and fructose-rich diet, respectively. In T1D, rats were treated with Enalapril (Ena) or Losartan (Los) for six weeks, whereas T2D animals received high-dose (HD) or low-dose (LD) Ena for 8 weeks. Heart function was assessed via echocardiography, Ca²⁺_i transients by Indo-1 fluorometry in Langendorff-perfused hearts, and key Ca²⁺_i cycling proteins by Western blot. Data: mean ± SD. Results: Diabetic hearts exhibited reduced contractile performance that was improved by RAS inhibition both in vivo (ejection fraction (%): T1D model: Control: 79 ± 7, T1D: 54 ± 11, T1D + Ena: 65 ± 10, T1D + Los: 69 ± 10, n = 18, 18, 15, 10; T2D model: Control: 73 ± 8, T2D: 52 ± 6, T2D + LDEna: 62 ± 8, T2D + HDEna: 76 ± 8, n = 9, 8, 6, 7) and ex vivo (+dPressure/dt_max (mmHg/s): T1D model: Control: 2532 ± 341, T1D: 2192 ± 208, T1D + Ena: 2523 ± 485, T1D + Los: 2643 ± 455; T2D model: Control: 2514 ± 197, T2D: 1930 ± 291, T2D + LDEna: 2311 ± 289, T2D + HDEna: 2614 ± 268). Analysis of Ca²⁺_i transients showed impaired Ca²⁺_i release and removal dynamics and increased diastolic Ca²⁺_i levels in both models that were restored by Ena and Los treatments. We observed a decrease in sarcoendoplasmic reticulum Ca²⁺-ATPase2a (SERCA2a) expression, accompanied by a compensatory increase in 16Ser-phosphorylated phospholamban (P-PLB) in T2D that was prevented by both LD and HD Ena (expression level (% of Control): SERCA2a: T2D: 36 ± 32, T2D + LDEna: 112 ± 32, T2D + HDEna: 106 ± 30; P-PLB: T2D: 557 ± 156, T2D + LDEna: 129 ± 38, T2D + HDEna: 108 ± 42; n = 4, 4, 4). Conclusions: The study highlights the critical role of RAS activation, most likely occurring at the tissue level, in disrupting Ca²⁺_i homeostasis in diabetic cardiomyopathy. RAS inhibition with Ena or Los mitigates these disturbances independent of blood pressure effects, underlining their importance in managing diabetic heart failure.

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抑制肾素-血管紧张素系统通过恢复细胞内钙调节改善糖尿病大鼠心脏血流动力学功能。

背景/目的：细胞内钙（Ca2+i）调节和肾素-血管紧张素系统（RAS）激活紊乱是糖尿病性心肌病的致病因素，是1型（T1D）和2型（T2D）糖尿病的主要并发症。这项研究探索了它们在糖尿病大鼠心脏中的潜在联系。方法：分别采用链脲佐菌素和富果糖饮食诱导的T1D和T2D大鼠进行实验。在T1D中，大鼠接受依那普利（Ena）或氯沙坦（Los）治疗6周，而T2D动物接受高剂量（HD）或低剂量（LD）依那普利治疗8周。通过超声心动图评估心脏功能，通过langendorff灌注心脏的Indo-1荧光法评估Ca2+i瞬态，并通过Western blot评估关键的Ca2+i循环蛋白。数据：平均值±SD。结果：糖尿病心脏在体内均表现出收缩功能下降，RAS抑制可改善其收缩功能(射血分数（%）：T1D模型：对照组：79±7，T1D: 54±11,T1D + Ena: 65±10,T1D + Los: 69±10,n = 18、18、15、10；T2D模型：对照组：73±8，T2D: 52±6,T2D + LDEna: 62±8,T2D + HDEna: 76±8,n = 9、8、6、7)和离体（+d）压力/dtmax (mmHg/s): T1D模型：对照组：2532±341，T1D: 2192±208,T1D + Ena: 2523±485,T1D + Los: 2643±455；T2D模型：对照：2514±197，T2D: 1930±291,T2D + LDEna: 2311±289,T2D + HDEna: 2614±268)。Ca2+i瞬态分析显示，在Ena和Los治疗后恢复的两种模型中，Ca2+i释放和去除动力学受损，舒张Ca2+i水平升高。我们观察到肌内质网Ca2+-ATPase2a （SERCA2a）表达下降，并伴有16ser磷酸化磷蛋白（P-PLB）在T2D中的代偿性增加，这被LD和HDEna所阻止(表达水平（对照组的百分比）：SERCA2a: T2D: 36±32,T2D + LDEna: 112±32,T2D + HDEna: 106±30；P-PLB: T2D: 557±156,T2D + LDEna: 129±38,T2D + HDEna: 108±42；n = 4,4,4)。结论：该研究强调了RAS激活的关键作用，最有可能发生在组织水平，在糖尿病心肌病中破坏Ca2+i稳态。Ena或Los的RAS抑制减轻了这些独立于血压影响的干扰，强调了它们在治疗糖尿病性心力衰竭中的重要性。

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来源期刊

Biomedicines Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology

CiteScore

5.20

自引率

8.50%

发文量

2823

审稿时长

8 weeks

期刊介绍： Biomedicines (ISSN 2227-9059; CODEN: BIOMID) is an international, scientific, open access journal on biomedicines published quarterly online by MDPI.