scholarly journals Berry-Enriched Diet in Salt-Sensitive Hypertensive Rats: Metabolic Fate of (Poly)Phenols and the Role of Gut Microbiota

Nutrients ◽  
2019 ◽  
Vol 11 (11) ◽  
pp. 2634 ◽  
Author(s):  
Gomes ◽  
Oudot ◽  
Macià ◽  
Foito ◽  
Carregosa ◽  
...  
Keyword(s):  
Gut Microbiota ◽  
High Salt ◽  
In Vivo Model ◽  
Microbiota Composition ◽  
Metabolic Fate ◽  
Hypertensive Rats ◽  
High Salt Diet ◽  
16S Rrna Analysis ◽  
Salt Diet

Diets rich in (poly)phenols are associated with a reduced reduction in the incidence of cardiovascular disorders. While the absorption and metabolism of (poly)phenols has been described, it is not clear how their metabolic fate is affected under pathological conditions. This study evaluated the metabolic fate of berry (poly)phenols in an in vivo model of hypertension as well as the associated microbiota response. Dahl salt-sensitive rats were fed either a low-salt diet (0.26% NaCl) or a high-salt diet (8% NaCl), with or without a berry mixture (blueberries, blackberries, raspberries, Portuguese crowberry and strawberry tree fruit) for 9 weeks. The salt-enriched diet promoted an increase in the urinary excretion of berry (poly)phenol metabolites, while the abundance of these metabolites decreased in faeces, as revealed by UPLC–MS/MS. Moreover, salt and berries modulated gut microbiota composition as demonstrated by 16S rRNA analysis. Some changes in the microbiota composition were associated with the high-salt diet and revealed an expansion of the families Proteobacteria and Erysipelotrichaceae. However, this effect was mitigated by the dietary supplementation with berries. Alterations in the metabolic fate of (poly)phenols occur in parallel with the modulation of gut microbiota in hypertensive rats. Thus, beneficial effects of (poly)phenols could be related with these interlinked modifications, between metabolites and microbiota environments.

Response of resistance arteries to reduced PO2 and vasodilators during hypertension and elevated salt intake

1997 ◽  
Vol 273 (2) ◽  
pp. H869-H877 ◽  
Author(s):  
Y. Liu ◽  
K. T. Fredricks ◽  
R. J. Roman ◽  
J. H. Lombard
Keyword(s):  
Skeletal Muscle ◽  
Salt Intake ◽  
High Salt ◽  
Nitric Oxide Donor ◽  
Resistance Arteries ◽  
Hypertensive Rats ◽  
High Salt Diet ◽  
Membrane Function ◽  
Salt Diet ◽  
Spontaneously Hypertensive

This study assessed vasodilator responses in skeletal muscle resistance arteries (100-250 microns) from rats with chronic (4-8 wk) reduced renal mass (RRM) hypertension and normotensive sham-operated controls on a high (4% NaCl; HSSHAM)- or low (0.4% NaCl; LSSHAM)-salt diet. Arteries from RRM hypertensive rats [normal and high-salt diet (HSRRM)] and a separate group of spontaneously hypertensive rats exhibited an impaired dilation in response to reduced PO2 compared with those of their normotensive controls. Prostacyclin release, assessed by radio-immunoassay for 6-ketoprostaglandin F1 alpha, increased significantly in response to reduced PO2, but was unaffected by hypertension or salt intake. Dilator responses to acetylcholine and the prostacyclin analog iloprost were significantly reduced in both HSRRM and HSSHAM compared with LSSHAM rats. Dilation in response to direct activation of adenylate cyclase with forskolin or guanylate cyclase with the nitric oxide donor sodium nitroprusside was not significantly different in HSRRM, HSSHAM, and LSSHAM rats. These results indicate that hypoxic dilation is impaired in skeletal muscle resistance arteries of hypertensive rats and that chronic high-salt diet alone leads to impaired vasodilator responses in resistance arteries of normotensive animals, possibly via abnormalities in membrane function or G protein signaling rather than impaired second-messenger function.

scholarly journals Association of a Disrupted Dipping Pattern of Blood Pressure with Progression of Renal Injury during the Development of Salt-Dependent Hypertension in Rats

2020 ◽  
Vol 21 (6) ◽  
pp. 2248 ◽  
Author(s):  
Abu Sufiun ◽  
Asadur Rahman ◽  
Kazi Rafiq ◽  
Yoshihide Fujisawa ◽  
Daisuke Nakano ◽  
...  
Keyword(s):  
Blood Pressure ◽  
Circadian Rhythm ◽  
Renal Injury ◽  
Tissue Injury ◽  
Renal Tissue ◽  
High Salt ◽  
Hypertensive Rats ◽  
High Salt Diet ◽  
Salt Diet ◽  
The Difference

The aim of the present study is to investigate whether a disruption of the dipping pattern of blood pressure (BP) is associated with the progression of renal injury in Dahl salt-sensitive (DSS) hypertensive rats. Seven-week-old DSS rats were fed a high salt diet (HSD; 8% NaCl) for 10 weeks, followed by a transition to a normal salt diet (NSD; 0.3% NaCl) for 4 weeks. At baseline, NSD-fed DSS rats showed a dipper-type circadian rhythm of BP. By contrast, HSD for 5 days caused a significant increase in the difference between the active and inactive periods of BP with an extreme dipper type of BP, while proteinuria and renal tissue injury were not observed. Interestingly, HSD feeding for 10 weeks developed hypertension with a non-dipper pattern of BP, which was associated with obvious proteinuria and renal tissue injury. Four weeks after switching to an NSD, BP and proteinuria were significantly decreased, and the BP circadian rhythm returned to the normal dipper pattern. These data suggest that the non-dipper pattern of BP is associated with the progression of renal injury during the development of salt-dependent hypertension.

scholarly journals 2581. An Invertebrate Model to Study Gut Microbiome Dysbiosis

2019 ◽  
Vol 6 (Supplement_2) ◽  
pp. S896-S897
Author(s):  
Faris S Alnezary ◽  
Tasnuva Rashid ◽  
Khurshida Begum ◽  
Travis J Carlson ◽  
Anne J Gonzales-Luna ◽  
...  
Keyword(s):  
Gut Microbiota ◽  
Gut Microbiome ◽  
Galleria Mellonella ◽  
Nigella Sativa ◽  
Gut Contents ◽  
In Vivo Model ◽  
Microbiota Composition ◽  
Invertebrate Model ◽  
Gut Microbiota Composition

Abstract Background Antimicrobials disrupt the gut microbiota by reducing gut microbiome diversity and quantity. Galleria mellonella provides an invertebrate model that is inexpensive, easy to maintain, and does not require specialized equipment. This study investigated the feasibility of using G. mellonella as an in vivo model to evaluate the effect of different antimicrobials on gut microbiota. Methods To determine baseline gut microbiota composition, the gut contents of G. mellonella were extracted and genomic DNA underwent shotgun meta-genomic sequencing. To determine the effect of infection and antibiotic use, 30 larvae were injected (left proleg) with ~1 × 105 colony-forming unit (cfu) of methicillin-resistant Staphylococcus aureus (MRSA) and were randomized 1:1:1 to treatment with vancomycin (20 mg/kg) or a natural antimicrobial (Nigella sativa seed oil, 70 mg/kg; NS oil), or a combination. The larvae were kept at 37°C post-infection and monitored daily for 72 hours for activity, extent of cocoon formation/growth, melanization, and survival. Two larvae from each group were randomly selected and homogenized with PBS as controls. After 24 hours of incubation, gut contents were extracted and plated for MRSA and Enterococcus cfu counts. Results Metagenomics analysis showed the gut microbiota composition of G. mellonella larvae was dominated by a subset of closely-related Enterococcus species. After 24 hours of exposure, mean Enterococcus counts were 4 × 103 cfu in the vancomycin arm and 6.2 × 104 cfu in the NS oil arm. Mean MRSA counts were 3.3 × 105 cfu in vancomycin arm and 1.5 × 104 cfu in NS oil arm. The combination of vancomycin and NS oil had higher Enterococcus counts than the vancomycin alone arm (6.3 × 104 cfu vs. 4 × 103 cfu, respectively), suggesting that NS oil may have a role in protecting the gut microbiota. Conclusion This study provides preliminary evidence to support the potential use of G. mellonella to assess the in vivo effect of a natural and synthetic antimicrobial on the gut microbiota. Disclosures All authors: No reported disclosures.

Transition from compensatory hypertrophy to dilated, failing left ventricles in Dahl salt-sensitive rats

1994 ◽  
Vol 267 (6) ◽  
pp. H2471-H2482 ◽  
Author(s):  
M. Inoko ◽  
Y. Kihara ◽  
I. Morii ◽  
H. Fujiwara ◽  
S. Sasayama
Keyword(s):  
Heart Failure ◽  
Systolic Pressure ◽  
Myocardial Necrosis ◽  
Compensatory Hypertrophy ◽  
High Salt ◽  
High Salt Diet ◽  
Tension Development ◽  
Salt Diet ◽  
The Right

To establish an experimental model for studying a specific transitional stage for compensatory hypertrophy to heart failure, we studied the pathophysiology of the left ventricle (LV) in Dahl salt-sensitive (DS) rats fed a high-salt diet. DS rats fed an 8% NaCl diet after the age of 6 wk developed concentric LV hypertrophy at 11 wk, followed by marked LV dilatation at 15-20 wk. During the latter stage, the DS rats showed labored respiration with LV global hypokinesis. All the DS rats died within 1 wk by massive pulmonary congestion. The dissected left ventricles revealed chamber dilatation and a marked increase in mass without myocardial necrosis. In contrast, corresponding Dahl salt-resistant (DR) rats fed the same diet showed neither mortality nor any of these pathological changes. The in vivo LV end-systolic pressure-volume relationship shifted to the right with a less steep slope in the failing DS rats compared with that in age-matched DR rats. Isometric contractions of LV papillary muscles isolated from these DS rats showed reduced tension development in the failing stage, but normal tension development in the hypertrophied stage. In conclusion, the DS rat fed a high-salt diet is a useful model showing rapidly developing congestive heart failure, in which the transition from compensatory hypertrophy to decompensatory dilatation of LV is easily and consistently manifested.

scholarly journals Discharge of RVLM vasomotor neurons is not increased in anesthetized angiotensin II-salt hypertensive rats

2013 ◽  
Vol 305 (12) ◽  
pp. H1781-H1789 ◽  
Author(s):  
Gustavo R. Pedrino ◽  
Alfredo S. Calderon ◽  
Mary Ann Andrade ◽  
Sergio L. Cravo ◽  
Glenn M. Toney
Keyword(s):  
Sympathetic Nerve Activity ◽  
High Salt ◽  
Ventrolateral Medulla ◽  
Ang Ii ◽  
Hypertensive Rats ◽  
Nerve Activity ◽  
High Salt Diet ◽  
Salt Diet ◽  
Salt Hypertension ◽  
Single Unit Recordings

Neurons of the rostral ventrolateral medulla (RVLM) are critical for generating and regulating sympathetic nerve activity (SNA). Systemic administration of ANG II combined with a high-salt diet induces hypertension that is postulated to involve elevated SNA. However, a functional role for RVLM vasomotor neurons in ANG II-salt hypertension has not been established. Here we tested the hypothesis that RVLM vasomotor neurons have exaggerated resting discharge in rats with ANG II-salt hypertension. Rats in the hypertensive (HT) group consumed a high-salt (2% NaCl) diet and received an infusion of ANG II (150 ng·kg−1·min−1 sc) for 14 days. Rats in the normotensive (NT) group consumed a normal salt (0.4% NaCl) diet and were infused with normal saline. Telemetric recordings in conscious rats revealed that mean arterial pressure (MAP) was significantly increased in HT compared with NT rats ( P < 0.001). Under anesthesia (urethane/chloralose), MAP remained elevated in HT compared with NT rats ( P < 0.01). Extracellular single unit recordings in HT ( n = 28) and NT ( n = 22) rats revealed that barosensitive RVLM neurons in both groups (HT, 23 cells; NT, 34 cells) had similar cardiac rhythmicity and resting discharge. However, a greater ( P < 0.01) increase of MAP was needed to silence discharge of neurons in HT (17 cells, 44 ± 5 mmHg) than in NT (28 cells, 29 ± 3 mmHg) rats. Maximum firing rates during arterial baroreceptor unloading were similar across groups. We conclude that heightened resting discharge of sympathoexcitatory RVLM neurons is not required for maintenance of neurogenic ANG II-salt hypertension.

scholarly journals Salt-sensitive hypertension and cardiac hypertrophy in mice deficient in the ubiquitin ligase Nedd4-2

2008 ◽  
Vol 295 (2) ◽  
pp. F462-F470 ◽  
Author(s):  
Peijun P. Shi ◽  
Xiao R. Cao ◽  
Eileen M. Sweezer ◽  
Thomas S. Kinney ◽  
Nathan R. Williams ◽  
...  
Keyword(s):  
Cardiac Hypertrophy ◽  
Critical Role ◽  
Specific Inhibitor ◽  
Normal Diet ◽  
High Salt ◽  
High Salt Diet ◽  
Salt Diet ◽  
Ww Domains ◽  
Salt Sensitive Hypertension

Nedd4-2 has been proposed to play a critical role in regulating epithelial Na+ channel (ENaC) activity. Biochemical and overexpression experiments suggest that Nedd4-2 binds to the PY motifs of ENaC subunits via its WW domains, ubiquitinates them, and decreases their expression on the apical membrane. Phosphorylation of Nedd4-2 (for example by Sgk1) may regulate its binding to ENaC, and thus ENaC ubiquitination. These results suggest that the interaction between Nedd4-2 and ENaC may play a crucial role in Na+ homeostasis and blood pressure (BP) regulation. To test these predictions in vivo, we generated Nedd4-2 null mice. The knockout mice had higher BP on a normal diet and a further increase in BP when on a high-salt diet. The hypertension was probably mediated by ENaC overactivity because 1) Nedd4-2 null mice had higher expression levels of all three ENaC subunits in kidney, but not of other Na+ transporters; 2) the downregulation of ENaC function in colon was impaired; and 3) NaCl-sensitive hypertension was substantially reduced in the presence of amiloride, a specific inhibitor of ENaC. Nedd4-2 null mice on a chronic high-salt diet showed cardiac hypertrophy and markedly depressed cardiac function. Overall, our results demonstrate that in vivo Nedd4-2 is a critical regulator of ENaC activity and BP. The absence of this gene is sufficient to produce salt-sensitive hypertension. This model provides an opportunity to further investigate mechanisms and consequences of this common disorder.

Daily intake of sulforaphane-rich broccoli sprouts prevents progression of high salt diet-induced gastric atrophy in H. pylori-infected C57/BL6 mice in vivo

2003 ◽  
Vol 124 (4) ◽  
pp. A5 ◽  
Author(s):  
Akinori Yanaka ◽  
Songhua Zhang ◽  
Masafumi Tauchi ◽  
Hideo Suzuki ◽  
Takeshi Shibahara ◽  
...  
Keyword(s):  
Daily Intake ◽  
Gastric Atrophy ◽  
High Salt ◽  
High Salt Diet ◽  
Salt Diet ◽  
Broccoli Sprouts ◽  
H Pylori

scholarly journals SAT-552 Epigenetic Regulation of 11beta-Hydroxysteroid Dehydrogenase 1 and 2 Gene in Salt-Sensitive Hypertensive Rats

2020 ◽  
Vol 4 (Supplement_1) ◽  
Author(s):  
Yoshiyu Takeda ◽  
Yoshimichi Takeda ◽  
Shigehiro Karashima ◽  
Mitsuhiro Kometani ◽  
Atsushi Hashimoto ◽  
...  
Keyword(s):  
Epigenetic Regulation ◽  
Bisulfite Sequencing ◽  
Methylation Status ◽  
Hydroxysteroid Dehydrogenase ◽  
High Salt ◽  
Hypertensive Rats ◽  
High Salt Diet ◽  
Salt Diet ◽  
Mineralocorticoid Hormone ◽  
Methylation Ratio

Abstract ENDO 2020 Epigenetic regulation of 11beta-hydroxysteroid dehydrogenase 1 and 2 gene in salt-sensitive hypertensive rats [Objective]11Beta-hydroxysteroid dehydrogenase type1 (11-HSD1) is the modulator of glucocorticoid hormone and type2 (11-HSD2) is the modulator of mineralocorticoid hormone. We investigated the effect of high salt diet on the methylation of both enzyme gene in salt-sensitive hypertensive (SSH) rats [Methods]SSH rats were fed a high (7% NaCl) or normal (0.45%) salt chow for 4 weeks. Body weight, blood pressure, plasma and urinary aldosterone concentration and PRA were measured. DNA was extracted from kidneys and visceral fats. Bisulfite sequencing and Pyrosequencing were done for the analysis of methylation status of 11-HSD1 and 2 gene. [Results] High salt diet significantly decreased methylation ratio of 11-HSD1 gene in the visceral fats of SSH rats compared with controls (p&lt;0.05). The methylation ratio of 11-HSD2 gene in the kidney of SSH rats was not influenced by high salt diet. [Discussion and Conclusion]11-HSD1 overexpression in visceral fats in mice was reported to show SSH. We reported decreased 11-HSD2 activity in the artery in SSH rats. In this study high salt diet affected methylation status of 11-HSD1 in the adipose tissue but not 11-HSD2 gene in the kidney in SSH. Food intake such as salt may influence the epigenesis of 11-HSD and induce hypertension.

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