Role of 20-HETE in the antihypertensive effect of transfer of chromosome 5 from Brown Norway to Dahl salt-sensitive rats

This study examined whether substitution of chromosome 5 containing the CYP4A genes from Brown Norway rat onto the Dahl S salt-sensitive (SS) genetic background upregulates the renal production of 20-HETE and attenuates the development of hypertension. The expression of CYP4A protein and the production of 20-HETE were significantly higher in the renal cortex and outer medulla of SS.5BN (chromosome 5-substituted Brown Norway rat) consomic rats fed either a low-salt (LS) or high-salt (HS) diet than that seen in SS rats. The increase in the renal production of 20-HETE in SS.5BN rats was associated with elevated expression of CYP4A2 mRNA. MAP measured by telemetry rose from 117 ± 1 to 183 ± 5 mmHg in SS rats fed a HS diet for 21 days, but only increased to 151 ± 5 mmHg in SS.5BN rats. The pressure-natriuretic and diuretic responses were twofold higher in SS.5BN rats compared with SS rats. Protein excretion rose to 354 ± 17 mg/day in SS rats fed a HS diet for 21 days compared with 205 ± 13 mg/day in the SS.5BN rats, and the degree of glomerular injury was reduced. Baseline glomerular capillary pressure (Pgc) was similar in SS.5BN rats (43 ± 1 mmHg) and Dahl S (44 ± 2 mmHg) rats. However, Pgc increased to 59 ± 3 mmHg in SS rats fed a HS diet for 7 days, while it remained unaltered in SS.5BN rats (43 ± 2 mmHg). Chronic administration of an inhibitor of the synthesis of 20-HETE (HET0016, 10 mg·kg−1·day−1 iv) reversed the antihypertensive phenotype seen in the SS.5BN rats. These findings indicate that the transfer of chromosome 5 from the BN rat onto the SS genetic background increases the renal expression of CYP4A protein and the production of 20-HETE and that 20-HETE contributes to the antihypertensive and renoprotective effects seen in the SS.5BN consomic strain.

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Identification of a QTL on chromosome 1 for impaired autoregulation of RBF in fawn-hooded hypertensive rats

AJP Renal Physiology ◽

10.1152/ajprenal.00335.2005 ◽

2006 ◽

Vol 290 (5) ◽

pp. F1213-F1221 ◽

Cited By ~ 27

Author(s):

Bernardo López ◽

Robert P. Ryan ◽

Carol Moreno ◽

Albert Sarkis ◽

Jozef Lazar ◽

...

Keyword(s):

Genetic Background ◽

Significant Quantitative Trait Locus ◽

Chromosome 1 ◽

Brown Norway ◽

Genetic Linkage Analysis ◽

Hypertensive Rats ◽

Congenic Strains ◽

Protein Excretion ◽

Trait Locus ◽

Consomic Strain

The present study evaluated whether the impairment in autoregulation of renal blood flow (RBF) in the fawn-hooded Hypertensive (FHH) rat colocalizes with the Rf-1 region on chromosome 1 that has been previously linked to the development of proteinuria in this strain. Autoregulation of RBF was measured in FHH and a consomic strain (FHH.1BN) in which chromosome 1 from the Brown-Norway (BN) rat was introgressed into the FHH genetic background. The autoregulation indexes (AI) averaged 0.80 ± 0.08 in the FHH and 0.19 ± 0.05 in the FHH.1BN rats. We next performed a genetic linkage analysis for autoregulation of RBF in 85 F2 rats generated from a backcross of FHH.1BN consomic and FHH rats. The results revealed a significant quantitative trait locus (QTL) with a peak logarithm of the odds score of 6.3 near marker D1Rat376. To confirm the existence of this QTL, five overlapping congenic strains were created that spanned the region from markers D1Rat234 to D1Mit14. Transfer of a region of BN chromosome 1 from markers D1Mgh13 to D1Rat89 into the FHH genetic background improved autoregulation of RBF (AI = 0.23 ± 0.04) and reduced protein excretion. In contrast, RBF was poorly autoregulated and the rats were not protected from proteinuria in congenic strains in which other regions of chromosome 1 that exclude the D1Rat376 marker were transferred. These results indicate that there is a gene(s) that influences autoregulation of RBF and proteinuria between markers D1Mgh13 and D1Rat89 on chromosome 1 that lies within the confidence interval of the Rf-1 QTL previously linked to the development of proteinuria in FHH rats.

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Influence of diet and genetics on hypertension and renal disease in Dahl salt-sensitive rats

Physiological Genomics ◽

10.1152/physiolgenomics.00151.2003 ◽

2004 ◽

Vol 16 (2) ◽

pp. 194-203 ◽

Cited By ~ 57

Author(s):

David L. Mattson ◽

Mary Pat Kunert ◽

Mary L. Kaldunski ◽

Andrew S. Greene ◽

Richard J. Roman ◽

...

Keyword(s):

Blood Pressure ◽

Renal Disease ◽

Arterial Blood Pressure ◽

Brown Norway ◽

Tubular Damage ◽

Norway Rat ◽

Albumin Excretion ◽

Protein Excretion ◽

Arterial Blood ◽

Brown Norway Rat

Experiments examined the influence of diet and genetics on hypertension and renal disease in inbred Dahl salt-sensitive (SS/Mcw) rats and consomic rats in which chromosomes 16 (SS.BN16) or 18 (SS.BN18) of the normotensive Brown Norway rat were inserted into the genetic background of the SS/Mcw. Dahl SS/Mcw breeders and offspring were randomly placed on a purified AIN-76A diet or a grain-based diet, and male offspring were screened for cardiovascular and renal phenotypes following 3 wk on a 4.0% NaCl diet. High-salt arterial blood pressure (162 ± 5 mmHg, n = 10), urinary protein excretion (147 ± 16 mg/day, n = 14), and albumin excretion (72 ± 9 mg/day, n = 14) were significantly elevated in the Dahl SS/Mcw maintained on the purified diet compared with rats fed the grain-based diet. Rats fed the purified diet also exhibited significantly more renal glomerular and tubular damage than rats fed the grain diet. Moreover, feeding the purified diet to the parents led to a significant increase in blood pressure in the offspring, regardless of offspring diet. Similar dietary effects were observed in SS.BN16 and SS.BN18 rats. In rats fed the purified diet, substitution of chromosomes 16 or 18 led to a significant decrease in arterial blood pressure, albumin excretion, and protein excretion compared with the SS/Mcw. Chromosomal substitution did not, however, affect albumin or protein excretion in the consomic rats compared with the SS/Mcw when the rats were maintained on the grain diet. These data demonstrate a significant influence of diet composition on salt-induced hypertension and renal disease in the Dahl SS/Mcw rat.

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Brown Norway Rat Asthma Model of Diphenylmethane 4,4′-Diisocyanate

Inhalation Toxicology ◽

10.1080/08958370500224631 ◽

2005 ◽

Vol 17 (13) ◽

pp. 729-739 ◽

Cited By ~ 18

Author(s):

Jürgen Pauluhn

Keyword(s):

Brown Norway ◽

Norway Rat ◽

Asthma Model ◽

Brown Norway Rat

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Knockdown of Add3 impairs the myogenic response of renal afferent arterioles and middle cerebral arteries

AJP Renal Physiology ◽

10.1152/ajprenal.00529.2016 ◽

2017 ◽

Vol 312 (6) ◽

pp. F971-F981 ◽

Cited By ~ 18

Author(s):

Fan Fan ◽

Mallikarjuna R. Pabbidi ◽

Ying Ge ◽

Longyang Li ◽

Shaoxun Wang ◽

...

Keyword(s):

Vascular Reactivity ◽

Vascular Dysfunction ◽

Cerebral Arteries ◽

Chromosome 1 ◽

Brown Norway ◽

Myogenic Response ◽

Norway Rat ◽

Vasoconstrictor Response ◽

Brown Norway Rat ◽

Interfering Rna

We have reported that the myogenic response of the renal afferent arteriole (Af-art) and middle cerebral artery (MCA) and autoregulation of renal and cerebral blood flow are impaired in Fawn-Hooded Hypertensive (FHH) rats. Transfer of a region of chromosome 1 containing γ-adducin (Add3) from the Brown Norway rat rescued the vascular dysfunction and the development of renal disease. To examine whether Add3 is a viable candidate gene altering renal and cerebral hemodynamics in FHH rats, we knocked down the expression of Add3 in rat Af-arts and MCAs cultured for 36-h using a 27-mer Dicer-substrate short interfering RNA (DsiRNA). Control Af-arts constricted by 10 ± 1% in response to an elevation in pressure from 60 to 120 mmHg but dilated by 4 ± 3% when treated with Add3 DsiRNA. Add3 DsiRNA had no effect on the vasoconstrictor response of the Af-art to norepinephrine (10−7 M). Add3 DsiRNA had a similar effect on the attenuation of the myogenic response in the MCA. Peak potassium currents were threefold higher in smooth muscle cells isolated from Af-arts or MCAs transfected with Add3 DsiRNA than in nontransfected cells isolated from the same vessels. This is the first study demonstrating that Add3 plays a role in the regulation of potassium channel function and vascular reactivity. It supports the hypothesis that sequence variants in Add3, which we previously identified in FHH rats, may play a causal role in the impaired myogenic response and autoregulation in the renal and cerebral circulation.

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