Study on apoptosis and expression of P53, Bcl-2, bax in cardiac myocytys of congestive heart failure induced by ventricular pacing

Accumulating evidence suggests that anti-AT1 (angiotensin II receptor type 1) receptor antibodies are involved in the pathogenesis of hypertension. We assessed the hypothesis that changes in vascular structure could be induced in rats immunized with AT1-receptor peptide. In this study, an animal model was made by immunizing Wistar rats aged 4 weeks with the synthetic peptide corresponding to the second extracellular peptide of human AT1 as the antigen and raising them for 1 year, while monitoring their blood pressure, heart rate, and anti-AT1-receptor antibodies. A year later the aorta and mesenteric artery of the immunized rats were collected to detect their structural changes. Anti-AT1-receptor antibodies purified by affinity chromatography were prepared to detect their effect on vascular smooth muscle cell (VSMC) proliferation by the method of bromodeoxyuridine incorporation and cell cycle distribution, and their effect on the expression of VSMC c-jun and c-fos mRNA by reverse transcription-polymerase chain reaction and Western blot. Anti-AT1-receptor antibodies were detected in immunized rats throughout the year without significant changes in blood pressure or heart rate, but pathological changes in the arteries were noted at the end of the study period. Purified anti-AT1-receptor antibodies improved proliferation of VSMC and upregulated c-jun expression, which were both attenuated by losartan. In summary, anti-AT1-receptor antibodies can be prepared by active immunization with the peptide of AT1 as the antigen, without changes in blood pressure or heart rate. Anti-AT1-receptor antibodies may play a role in hypertension through upregulation of c-jun expression, thus improving VSMC proliferation and finally inducing vascular recombination.

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Arterial structural changes in rats immunized by AT1-receptor peptide

Wang

Liao

Zhou

et al. 2005

Heart Vessels

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SKA1 is overexpressed in laryngocarcinoma and modulates cell growth via P53 signaling pathway

Liu

Peng

et al. 2022

Cell Cycle

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Ratlarda 2.45 Ghz Elektromanyetik Alan Kaynaklı Kalp Dokusu Hasarı Üzerine C Vitamininin Koruyucu Etkileri”

Aşçı

Savran

Gümral³

et al. 2020

SDÜ Tıp Fakültesi Dergisi

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Bir elektromanyetik alan (EMA) dalga formu olan radyofrekans (RF) dalga aralığında bulunan 2.45 GHz elektromanyetik radyasyonun (EMR) endüstriyel, askeri ve bilimsel alanlarda kullanımı yaygındır. Bu çalışmada, EMA'nın kalp dokusu üzerine olan zararlı etkileri ve C vitamininin (C vit) bu hasara karşı koruyucu olup olmadığı değerlendirilmiştir. Gereç ve Yöntem EMA'nın kalp dokusu üzerine etkisi ve C vit'in olası koruyucu rolünü değerlendirmek için 18 dişi sıçan kontrol, EMA ve EMA + C vit olarak gruplara ayrıldı. Sıçanların hareketini kısıtlayan bir düzenek yardımıyla EMA ve EMA + C vit gruplarına 30 gün süreyle, günde 60 dakika 2.24 mW/kg gücündeki 2.45 GHz EMA maruziyeti sağlandı. Tedavi grubuna ayrıca 30 gün boyunca C vit uygulandı.

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Study on apoptosis and expression of P53, Bcl-2, bax in cardiac myocytys of congestive heart failure induced by ventricular pacing

Cited by 3 publications

References 14 publications

Arterial structural changes in rats immunized by AT1-receptor peptide

Arterial structural changes in rats immunized by AT1-receptor peptide

SKA1 is overexpressed in laryngocarcinoma and modulates cell growth via P53 signaling pathway

Ratlarda 2.45 Ghz Elektromanyetik Alan Kaynaklı Kalp Dokusu Hasarı Üzerine C Vitamininin Koruyucu Etkileri”

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