Zhen Wang scite author profile

Zhen Wang

3Publications

4Citation Statements Received

61Citation Statements Given

How they've been cited

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137

Affiliations

Jackson Memorial Hospital, University of Mississippi Medical Center

Publications

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Transient receptor potential cation channel 6 contributes to kidney injury induced by diabetes and hypertension

Wang

Carmo

et al. 2022

American Journal of Physiology-Renal Physiology

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Diabetes (DM) and hypertension (HTN) are major risk factors for chronic kidney injury, together accounting for >70% of end-stage renal disease. In this study, we assessed whether DM and HTN interact synergistically to promote kidney dysfunction and if Transient Receptor Potential Cation Channel 6 (TRPC6) contributes to this synergism. In wild type (WT; B6/129s background) and TRPC6 knockout (KO) mice, DM was induced by streptozotocin injection to increase fasting glucose levels to 250-350 mg/dL. HTN was induced by aorta constriction (AC) between the renal arteries. AC increased blood pressure (BP) by ~25 mmHg in the right kidney (above AC) while BP in the left kidney (below AC) returned to near normal after 8 weeks, with both kidneys exposed to the same levels of blood glucose, circulating hormones, and neural influences. Kidneys of WT mice exposed to DM or HTN alone had only mild glomerular injury and urinary albumin excretion. In contrast, kidneys exposed to DM plus HTN (WT-DM+AC mice) for 8 weeks had much greater increases in albumin excretion and histological injury. Marked increased apoptosis was also observed in the right kidneys of WT-DM+AC mice. In contrast, in TRPC6 KO-DM+AC mice, the right kidneys exposed to the same levels of high BP and high glucose had lower albumin excretion, less glomerular damage and apoptotic cell injury compared to right kidneys of WT-DM+AC mice. Our results suggest that TRPC6 may contribute to the interaction of DM and HTN to promote kidney dysfunction and apoptotic cell injury.

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Parental obesity alters offspring blood pressure regulation and cardiovascular responses to stress: role of P2X7R and sex differences

Silva

Moak

Dai

et al. 2022

American Journal of Physiology-Regulatory, Integrative and Comp

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We examined the impact of parental obesity on offspring blood pressure (BP) regulation and cardiovascular responses to stress. Offspring from normal (N) diet-fed C57BL/6J parents were fed either N (NN) or a high-fat (H) diet (NH) from weaning until adulthood. Offspring from obese H diet-fed parents were also fed N (HN) or H diet (HH). Body weight, calorie intake, and fat mass were measured at 22 wk of age when cardiovascular phenotyping was performed. Male and female HH offspring were 15% heavier than NH and 70% heavier than NN offspring. Male HH and HN offspring had elevated BP (121 ± 2 and 115 ± 1 mmHg, by telemetry) compared with male NH and NN offspring (108 ± 6 and 107 ± 3 mmHg, respectively) and augmented BP responses to angiotensin II, losartan, and hexamethonium. Male HH and HN offspring also showed increased BP responses to air-jet stress (37 ± 2 and 38 ± 2 mmHg) compared with only 24 ± 3 and 25 ± 3 mmHg in NH and NN offspring. Baseline heart rate (HR) and HR responses to air-jet stress were similar among groups. In females, BP and cardiovascular responses to stress were similar among all offspring. Male H diet-fed offspring from obese H diet-fed purinoreceptor 7-deficient (HH-P2X7R-KO) parents had normal BP that was similar to control NN-P2X7R-KO offspring from lean parents. These results indicate that parental obesity leads to increased BP and augmented BP responses to stress in their offspring in a sex-dependent manner, and the impact of parental obesity on male offspring BP regulation is markedly attenuated in P2X7R-KO mice.

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Transient receptor potential cation channel 6 deficiency leads to increased body weight and metabolic dysfunction

Wang

Carmo

Silva

et al. 2022

American Journal of Physiology-Regulatory, Integrative and Comp

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TRPC6, a member of the TRPC family, is expressed in the hypothalamus and modulates cell Ca2+ influx. However, the role of TRPC6 in controlling metabolic and cardiovascular functions under normal conditions has not been previously determined. Thus, the impacts of TRPC6 deletion on energy balance, metabolic and cardiovascular regulation as well as the anorexic responses to leptin and melanocortin 3/4 receptor (MC3/4R) activation were investigated in this study. Extensive cardiometabolic phenotyping was conducted in male and female TRPC6 knock out (KO) and control mice from 6 to 24 weeks of age to assess mechanisms by which TRPC6 influences regulation of energy balance and blood pressure (BP). We found that TRPC6 KO mice are heavier with greater adiposity, hyperphagic, and have reduced energy expenditure, impaired glucose tolerance, hyperinsulinemia, and increased liver fat compared to controls. TRPC6 KO mice also have smaller brains, reduced POMC mRNA levels in the hypothalamus, and impaired anorexic response to leptin but not to MC3/4R activation. BP and heart rate, assessed by telemetry, were similar in TRPC6 KO and control mice, and BP responses to air-jet stress were attenuated in TRPC6 KO mice despite increased body weight and metabolic disorders that normally raise BP and increase BP responses to stress. Our results provide evidence for a novel and important role of TRPC6 in controlling energy balance, adiposity, and glucose homeostasis, which suggests that normal TRPC6 function may be necessary to link weight gain and hyperleptinemia with BP responses to acute stress.

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Zhen Wang

Transient receptor potential cation channel 6 contributes to kidney injury induced by diabetes and hypertension

Parental obesity alters offspring blood pressure regulation and cardiovascular responses to stress: role of P2X7R and sex differences

Transient receptor potential cation channel 6 deficiency leads to increased body weight and metabolic dysfunction

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