Effect of Chronic Treatment with Losartan Potassium (DuP 753) on the Elevation of Blood Pressure during Chronic Exposure of Rats to Cold

Fregly, Melvin J.; Rossi, Francesco; Bergen, P. Van; Brummermann, Margarethe; Cade, J. R.

doi:10.1159/000139046

Cited by 34 publications

(24 citation statements)

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“…The blood pressure (116Ϯ4 mm Hg) of the cold-exposed Agt-KO mice was at the level of the WT mice kept in warm (25°C, room temperature) at 5 weeks after exposure to cold. Consistently, our previous studies showed that the antihypertensive agents, such as propranolol, 18 captopril, 29 losartan potassium, 30 and L-arginine, 42 effectively reduced or prevented the coldinduced elevation of blood pressure but failed to prevent or attenuate cardiac hypertrophy. Thus, the occurrence of coldinduced cardiac hypertrophy is independent of either pressure overload or tachycardia.…”

Section: Discussionsupporting

confidence: 79%

Angiotensinogen Gene Knockout Delays and Attenuates Cold-Induced Hypertension

et al. 2003

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Abstract-The aim of the present study was to assess our hypothesis that the renin-angiotensin system (RAS) is responsible for cold-induced hypertension and cardiac hypertrophy. Two groups of wild-type (WT) mice and 2 groups of angiotensinogen gene knockout (Agt-KO) mice (6 per group) were used. After blood pressures (BP) of the four groups were measured 3 times at room temperature (25°C), 1 WT and 1 Agt-KO group were exposed to cold (5°C). The remaining groups were kept at 25°C. BP of the cold-exposed WT group increased significantly in 1 week of cold exposure and rose gradually to 168Ϯ7 mm Hg by week 5, whereas the BP of the Agt-KO group did not increase until week 3. The cold-induced increase in BP (⌬BP) was decreased significantly in the Agt-KO mice (19Ϯ3 mm Hg) compared with that of the WT mice (61Ϯ5 mm Hg) by 5 weeks of exposure to cold. Both WT and Agt-KO groups had cardiac hypertrophy in cold to the same extent. Agt-KO caused a significant increase in nitric oxide (NO) production. Thus, the RAS may inhibit NO formation. Chronic cold exposure decreased NO production, which may be mediated partially by activation of the RAS. These results strongly support that the RAS plays a critical role in the development of cold-induced hypertension but not cardiac hypertrophy. Moreover, the role of the RAS in cold-induced hypertension may be mediated in part by its inhibition on NO production. [3][4][5]7,8 frequently that cold winter weather makes hypertension more severe in hypertensive patients and is associated with an increased incidence of stroke and myocardial infarction. Normal human subjects have seasonal variations in blood pressure, with higher pressure in winter. 9 -13 Donaldson et al, 2 after studying the relation between outdoor temperature and blood pressure in men in central London between 1986 and 1992, reported that cold exposure of normal life in winter is sufficient to induce significant and prolonged hypertension in the general population. Exposure of the bare face to cold could induce a significant elevation of systolic and diastolic blood pressure in normotensive subjects dressed in cold-protective clothing. 14 Thus, low environmental temperature is an important factor contributing to the high incidence of hypertension and the high cardiovascular mortality in cold (north) regions.Previous studies [15][16][17][18][19][20][21][22] from this laboratory have shown that chronic exposure of rats to mild cold (5°C or 41°F) induces hypertension including cardiac hypertrophy. This is presently the only "naturally occurring" form of experimentally induced hypertension that is induced without surgical intervention, administration of large doses of drugs or hormones, or genetic manipulation. Thus, it is important to understand fully the mechanism contributing to this unique model of hypertension because it is naturally occurring. It is notable that the elevated blood pressure of rats after 7 weeks of exposure to cold does not return to precold exposure level during 4 weeks after removal from cold. 23 Thus, a...

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Section: Discussionsupporting

confidence: 79%

Angiotensinogen Gene Knockout Delays and Attenuates Cold-Induced Hypertension

et al. 2003

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“…Previous studies from our laboratory indicate that CICH is independent of pressure overload because prevention or attenuation of CIH does not attenuate CICH. [30][31][32]37,40,42 The present finding that the occurrence of CICH preceded that of CIH further reveals the disassociation of CICH and CIH. c-myc antisense on cold-induced cardiac hypertrophy M Bello Roufai et al…”

Section: Discussionsupporting

confidence: 64%

“…Numerous studies have shown that the sympathetic nervous system (SNS) or the rennin-angiotensin system (RAS) is not involved in CICH as evidenced by the fact that blockade of a-or b-adrenergic receptors or inhibition of the RAS at different levels does not attenuate CICH. 30,32,37,40,42,45 It was found that circulating levels of thyroid hormones (T 3 and T 4 ) were increased by cold exposure and may be involved in CICH. 46 A cell culture study indicated that thyroid hormone-induced myocyte hypertrophy requires p38 mitogen-activated protein kinase (p38MAPK).…”

Section: Discussionmentioning

confidence: 99%

“…[27][28][29][30][31][32][33][34][35][36][37][38][39][40][41] However, prevention or attenuation of cold-induced hypertension (CIH) does not attenuate CICH, indicating that CICH is not caused by high blood pressure (BP). [30][31][32]37,40,42 Indeed, CIH is moderate hypertension (systolic BPE150 mm Hg). Thus, the development of CICH is independent of pressure overload, making it a unique animal model of CH to study.…”

Section: Introductionmentioning

confidence: 99%

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Heart-specific inhibition of protooncogene c-myc attenuates cold-induced cardiac hypertrophy

Roufai

Sun

2007

Gene Ther

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The protooncogene c-myc is involved in the regulation of cell growth. Although increased c-Myc expression is found in hypertrophied hearts, the role of c-Myc in the development of cardiac hypertrophy (CH) has never been determined. The aim of this study was to test the effect of heart-specific inhibition of c-Myc expression on the development of coldinduced cardiac hypertrophy (CICH). We hypothesized that heart-specific inhibition of c-Myc expression attenuates CICH. We constructed c-Myc antisense (c-MycAS) plasmid and green fluorescent protein (GFP) plasmid driven by a heartspecific promoter, a-myosin heavy chain (MHC). The cell culture study indicated that c-MycAS can effectively inhibit c-Myc expression and that GFP can express in the rat heart cells. Four groups of rats were used to test the effect of in vivo inhibition of cardiac c-Myc expression on the development of CICH. Three groups received an intravenous injection of c-MycAS, GFP and buffer, respectively, at the beginning of exposure to moderate cold (6.71C), while the last group received buffer and was kept at room temperature (251C) to serve as a control. Blood pressure (BP) of the cold-exposed groups receiving buffer or GFP increased significantly, whereas BP of the c-MycAS group did not increase until 28 days after exposure to cold. Thus, c-MycAS delayed and attenuated cold-induced hypertension (CIH). The antihypertensive effect of c-MycAS was probably due to the decreased cardiac output. Magnetic resonance imaging (MRI) showed that the in vivo left ventricle wall thickness of cold-exposed rats was decreased significantly by c-MycAS. Consistently, the cold-induced increase in heart weight was attenuated by inhibition of cardiac c-Myc expression. The heart specificity of a-MHC promoter was confirmed by the selective inhibition of c-Myc expression in the heart and by the selective expression of both GFP mRNA and GFP protein in the heart. Heartspecific inhibition of c-Myc expression attenuated the development of CICH. The increased c-Myc expression may play a critical role in the pathogenesis of CICH. Thus, heart-specific inhibition of c-Myc expression may be a new and effective approach for the control of CH.

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“…Our previous studies have shown that the blood-borne RAS either prevents or attenuates CIH. 5,6 The mechanism also appears to involve both peripheral tissue and central RAS because there is increased mRNA for AGT and/or AT 1 -R in brain and peripheral tissues, 7 increased spontaneous drinking response, and increased dipsogenic response to acute administration of Ang II either centrally or subcutaneously. 8 The receptors for Ang II in the diencephalon of rats have been correlated directly with the drinking response to Ang II.…”

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confidence: 99%

Reduction of Cold-Induced Hypertension by Antisense Oligodeoxynucleotides to Angiotensinogen mRNA and AT ₁ -Receptor mRNA in Brain and Blood

et al. 1998

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Abstract-Rats exposed chronically to mild cold (5°C/41°F) develop hypertension and cardiac hypertrophy. This provides a unique model of hypertension that is environmentally induced. The blood renin-angiotensin system (RAS) has been shown to play a role in both initiating and maintaining the high blood pressure (BP) in cold-induced hypertension. The mechanism also appears to involve both the tissue and brain RAS because there is increased mRNA for angiotensinogen (AGT) and angiotensin type 1 (AT 1 ) receptors in brain and peripheral tissues, an increased spontaneous drinking response, and an increased dipsogenic response to acute administration of angiotensin II (Ang II) in cold-treated rats. Key Words: hypertension, cold-induced Ⅲ angiotensinogen Ⅲ angiotensin II Ⅲ RNA Ⅲ receptors Ⅲ antisense elements R ats exposed to mild cold (5°C/41°F) develop hypertension. [1][2][3][4] This CIH is a nongenetic, nonsurgical model for studying hypertension in rats. Our previous studies have shown that the blood-borne RAS either prevents or attenuates CIH. 5,6 The mechanism also appears to involve both peripheral tissue and central RAS because there is increased mRNA for AGT and/or AT 1 -R in brain and peripheral tissues, 7 increased spontaneous drinking response, and increased dipsogenic response to acute administration of Ang II either centrally or subcutaneously. 8 The receptors for Ang II in the diencephalon of rats have been correlated directly with the drinking response to Ang II. 9,10 Furthermore, studies also suggest that there is a direct correlation between the state of receptors for Ang II in the diencephalon and development of hypertension, ie, upregulation of receptors for Ang II has been linked to the induction of both deoxycorticosterone acetate-salt and spontaneously induced hypertension. -13Tests of the dipsogenic responsiveness to Ang II, spontaneous drinking response to cold, and AT 1 -R mRNA in brain show much greater responses in cold-treated rats.8 This suggests that the receptors for Ang II are upregulated in rats exposed chronically to cold. Additional studies have shown an increased amount of mRNA for AGT, the substrate for the RAS, in the brains of cold-treated rats compared with rats kept at room temperature as controls. This raises the possibility that both increased production of Ang II and upregulation of Ang II receptors contribute to the elevation of BP during exposure to cold. An increased amount of mRNA of AGT and/or AT 1 -R in peripheral tissues (liver, adrenal glands, and aorta) of cold-treated rats suggests that an overactive peripheral tissue RAS is involved in CIH as well. AS-ODN, targeted to AGT mRNA or AT 1 -R mRNA, have been shown to reduce BP in SHR, which demonstrates that AS-ODN are specific and reduce an overactive RAS. 14 -18 Therefore, to assess more directly the role of the central RAS in CIH, AS-ODN to AGT mRNA and to AT 1 -R mRNA were

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Effect of Chronic Treatment with Losartan Potassium (DuP 753) on the Elevation of Blood Pressure during Chronic Exposure of Rats to Cold

Cited by 34 publications

References 11 publications

Angiotensinogen Gene Knockout Delays and Attenuates Cold-Induced Hypertension

Angiotensinogen Gene Knockout Delays and Attenuates Cold-Induced Hypertension

Heart-specific inhibition of protooncogene c-myc attenuates cold-induced cardiac hypertrophy

Reduction of Cold-Induced Hypertension by Antisense Oligodeoxynucleotides to Angiotensinogen mRNA and AT ₁ -Receptor mRNA in Brain and Blood

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Effect of Chronic Treatment with Losartan Potassium (DuP 753) on the Elevation of Blood Pressure during Chronic Exposure of Rats to Cold

Cited by 34 publications

References 11 publications

Angiotensinogen Gene Knockout Delays and Attenuates Cold-Induced Hypertension

Angiotensinogen Gene Knockout Delays and Attenuates Cold-Induced Hypertension

Heart-specific inhibition of protooncogene c-myc attenuates cold-induced cardiac hypertrophy

Reduction of Cold-Induced Hypertension by Antisense Oligodeoxynucleotides to Angiotensinogen mRNA and AT 1 -Receptor mRNA in Brain and Blood

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Reduction of Cold-Induced Hypertension by Antisense Oligodeoxynucleotides to Angiotensinogen mRNA and AT ₁ -Receptor mRNA in Brain and Blood