Sophia Herzfeld scite author profile

Sophia Herzfeld

4Publications

63Citation Statements Received

107Citation Statements Given

How they've been cited

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146

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Affiliations

Institute of Molecular Biology, Charité - Universitätsmedizin Berlin, Humboldt State University

Publications

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ETA Receptor Blockade Induces Tubular Cell Proliferation and Cyst Growth in Rats with Polycystic Kidney Disease

Hocher¹,

Kalk²,

Slowinski³

et al. 2003

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Abstract. Tissue concentrations of ET-1 are markedly elevated in the kidneys of Han:Sprague-Dawley (Han:SPRD) rats, a model of human autosomal dominant polycystic kidney disease (ADPKD). This study analyzed whether disease progression might be attenuated by endothelin receptor antagonists. Heterozygous Han:SPRD rats received an ETA receptor antagonist (LU 135252), a combined ETA/ETB receptor antagonist (LU 224332), or placebo for 4 mo. Glomerulosclerosis, protein excretion, and GFR remained unchanged, whereas interstitial fibrosis was enhanced by both compounds. BP was not reduced by both compounds in Han:SPRD rats. Renal blood flow (RBF) decreased in ADPKD rats treated with the ETA receptor antagonist. Long-term ETA receptor blockade furthermore increased markedly the number of renal cysts (ADPKD rats, 390 Ϯ 119 [cysts/kidney section Ϯ SD]; LU 135252-treated APKD rats, 1084 Ϯ 314; P Ͻ 0.001), cyst surface area (ADPKD rats, 7.97 Ϯ 2.04 [% of total section surface Ϯ SD]; LU 135252-treated ADPKD rats, 33.83 Ϯ 10.03; P Ͻ 0.001), and cell proliferation of tubular cells (ADPKD rats, 42.2 Ϯ 17.3 [BrdUpositive cells/1000 cells]; LU 135252-treated ADPKD rats, 339.4 Ϯ 286.9; P Ͻ 0.001). The additional blockade of the ETB receptor attenuated these effects in Han:SPRD rats. Both endothelin receptor antagonists had no effect on BP, protein excretion, GFR, and kidney morphology in Sprague-Dawley rats without renal cysts. It is concluded that ETA receptor blockade enhances tubular cell proliferation, cyst number, and size and reduces RBF in Han:SPRD rats. This is of major clinical impact because endothelin receptor antagonists are upcoming clinically used drugs.

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Chronic cyclooxygenase-2 inhibition does not alter blood pressure and kidney function in renovascular hypertensive rats

Richter

Godes

Wagner

et al. 2004

Journal of Hypertension

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Lack of iNOS Impairs Endothelial Function in Endothelin-1 Transgenic Mice

Quaschning

Voß²,

Herzfeld³

et al. 2008

Kidney Blood Press Res

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Background: Endothelin-1 (ET-1) is one of the most potent biologic vasoconstrictors. Nevertheless, transgenic mice overexpressing ET-1 exhibit normal blood pressure. We hypothesized that in states of ET-1 overproduction, the lack of counterregulatory mediators such as nitric oxide (NO), produced by the inducible NO synthase (iNOS), may critically impair endothelial function and may result in blood pressure elevation. Methods: We generated crossbred animals of ET transgenic mice (ET+/+) and iNOS knockout mice (iNOS–/–) and evaluated blood pressure and endothelial function in these animals. Endothelium-dependent and -independent vascular function was assessed as relaxation/contraction of isolated preconstricted aortic rings to acetylcholine, sodium nitroprusside, and ET-1, alone or in the presence of BQ123 or BQ788. Results: Systolic blood pressure was similar in ET+/+, iNOS–/– and wild-type mice, but was significantly elevated in ET+/+ iNOS–/– crossbred animals versus ET+/+ mice. Maximum endothelium-dependent relaxation was enhanced in ET+/+ mice (95 ± 5 vs. 78 ± 5% of preconstriction in wild-type littermates; p < 0.05). Additional knockout of iNOS led to a significant decrease of endothelium-dependent relaxation in combined ET+/+ iNOS–/– animals (75 ± 6%; p < 0.05 vs. ET+/+ mice). Endothelium-independent relaxation was comparable among all groups. Maximum vascular contraction to ET-1 was reduced in ET+/+ mice (33 ± 4%), iNOS–/– mice (38 ± 5%) and ET+/+ iNOS–/– mice (44 ± 4%) to a similar extent as compared with wild-type littermates (66 ± 4%; p < 0.05). Conclusions: Our data show for the first time that in transgenic mice overexpressing human ET-1, additional knockout of iNOS results in impaired endothelium-dependent vasodilatation thus contributing to elevated blood pressure in ET+/+ iNOS–/– animals.

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Additional lack of iNOS attenuates diastolic dysfunction in aged ET-1 transgenic miceThis article is one of a selection of papers published in the special issue (part 1 of 2) on Forefronts in Endothelin.

Kalk

Westermann

Herzfeld

et al. 2008

Can. J. Physiol. Pharmacol.

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Endothelin-1 (ET-1) exhibits potent proinflammatory and profibrotic properties. Moreover, inflammation is a potent stimulus for inducible NO synthase (iNOS), which has been shown to contribute to cardiac injury. We thus hypothesized that ET-1-induced cardiac injury is attenuated by concomitant lack of iNOS. We established crossbred animals of ET-1 transgenic mice (ET+/+) and iNOS knockout mice (iNOS-/-). At 13 months of age, mice were allocated according to their genotype to one of 4 study groups: wild type (WT) controls (n=8); ET-1 transgenic (ET+/+) mice (n=10); iNOS knockout (iNOS-/-) mice (n=7); and crossbred (ET+/+ iNOS-/-) mice (n=15). Left ventricular function was determined in vivo by using a tip catheter. Animals were subsequently euthanized and hearts were harvested for weight assessment and histologic evaluation. No cardiac hypertrophy was present, as evidenced by similar mean cardiac weight and myocyte diameter in all groups. Cardiac perivascular fibrosis was significantly increased in ET+/+ and iNOS-/- groups versus WT, whereas ET+/+ iNOS-/- mice did not differ from WT. Regarding left ventricular function, plasma B-type natriuretic peptide was elevated in ET+/+ and iNOS-/- mice, but again in crossbred animals this effect was blunted. Heart catheterization revealed a significantly increased stiffness constant in both ET-overexpressing groups versus WT, but this increase was significantly attenuated in the ET+/+iNOS-/- group versus the ET+/+ group. Parameters indicating systolic heart failure (EF, cardiac output), however, were not different between all study groups. Our study demonstrates that ET transgenic mice develop left ventricular stiffening with subsequent diastolic dysfunction in a slow, age-dependent manner. Additional knock out of iNOS significantly attenuates cardiac injury. We thus conclude that ET-1-induced cardiac injury is at least partially mediated by iNOS.

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Sophia Herzfeld

ETA Receptor Blockade Induces Tubular Cell Proliferation and Cyst Growth in Rats with Polycystic Kidney Disease

Chronic cyclooxygenase-2 inhibition does not alter blood pressure and kidney function in renovascular hypertensive rats

Lack of iNOS Impairs Endothelial Function in Endothelin-1 Transgenic Mice

Additional lack of iNOS attenuates diastolic dysfunction in aged ET-1 transgenic miceThis article is one of a selection of papers published in the special issue (part 1 of 2) on Forefronts in Endothelin.

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