Hana Šutovska scite author profile

Circadian rhythms are an inherent property of physiological processes and can be disturbed by irregular environmental cycles, including artificial light at night (ALAN). Circadian disruption may contribute to many pathologies, such as hypertension, obesity, and type 2 diabetes, but the underlying mechanisms are not understood. Our study investigated the consequences of ALAN on cardiovascular and metabolic parameters in spontaneously hypertensive rats, which represent an animal model of essential hypertension and insulin resistance. Adult males were exposed to a 12 h light − 12 h dark cycle and the ALAN group experienced dim light at night (1–2 lx), either for 2 or 5 weeks. Rats on ALAN showed a loss of light–dark variability for systolic blood pressure, but not for heart rate. Moreover, a gradual increase of systolic blood pressure was recorded over 5 weeks of ALAN. Exposure to ALAN increased plasma insulin and hepatic triglyceride levels. An increased expression of metabolic transcription factors, Pparα and Pparγ, in the epididymal fat and a decreased expression of Glut4 in the heart was found in the ALAN group. Our results demonstrate that low-intensity ALAN can disturb blood pressure control and augment insulin resistance in spontaneously hypertensive rats, and may represent a serious risk factor for cardiometabolic diseases.

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Prenatal hypoxia increases blood pressure in male rat offspring and affects their response to artificial light at night

Šutovska

Molčan

Koprdova

et al. 2020

J Dev Orig Health Dis

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Prenatal hypoxia (PH) has negative consequences on the cardiovascular system in adulthood and can affect the responses to additional insults later in life. We explored the effects of PH imposed during embryonic day 20 (10.5% O2 for 12 h) on circadian rhythms of systolic blood pressure (BP) and heart rate (HR) in mature male rat offspring measured by telemetry. We evaluated: (1) stability of BP and HR changes after PH; (2) circadian variability of BP and HR after 2 and 5 weeks of exposure to artificial light at night (ALAN; 1–2 lx); and (3) response of BP and HR to norepinephrine. PH increased BP in the dark (134 ± 2 mmHg vs. control 127 ± 2 mmHg; p = 0.05) and marginally in the light (125 ± 1 mmHg vs. control 120 ± 2 mmHg) phase of the day but not HR. The effect of PH was highly repeatable between 21- and 27-week-old PH male offspring. Two weeks of ALAN decreased the circadian variability of HR (p < 0.05) and BP more in control than PH rats. After 5 weeks of ALAN, the circadian variability of HR and BP were damped compared to LD and did not differ between control and PH rats (p < 0.05). Responses of BP and HR to norepinephrine did not differ between control and PH rats. Hypoxia at the end of the embryonic period increases BP and affects the functioning of the cardiovascular system in mature male offspring. ALAN in adulthood decreased the circadian variability of cardiovascular parameters, more in control than PH rats.

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Prenatal Hypoxia Affects Foetal Cardiovascular Regulatory Mechanisms in a Sex- and Circadian-Dependent Manner: A Review

Šutovska

Babarikova

Zeman

et al. 2022

IJMS

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Prenatal hypoxia during the prenatal period can interfere with the developmental trajectory and lead to developing hypertension in adulthood. Prenatal hypoxia is often associated with intrauterine growth restriction that interferes with metabolism and can lead to multilevel changes. Therefore, we analysed the effects of prenatal hypoxia predominantly not associated with intrauterine growth restriction using publications up to September 2021. We focused on: (1) The response of cardiovascular regulatory mechanisms, such as the chemoreflex, adenosine, nitric oxide, and angiotensin II on prenatal hypoxia. (2) The role of the placenta in causing and attenuating the effects of hypoxia. (3) Environmental conditions and the mother’s health contribution to the development of prenatal hypoxia. (4) The sex-dependent effects of prenatal hypoxia on cardiovascular regulatory mechanisms and the connection between hypoxia-inducible factors and circadian variability. We identified that the possible relationship between the effects of prenatal hypoxia on the cardiovascular regulatory mechanism may vary depending on circadian variability and phase of the days. In summary, even short-term prenatal hypoxia significantly affects cardiovascular regulatory mechanisms and programs hypertension in adulthood, while prenatal programming effects are not only dependent on the critical period, and sensitivity can change within circadian oscillations.

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Artificial light at night suppresses the expression of sarco/endoplasmic reticulum Ca²⁺‐ATPase in the left ventricle of the heart in normotensive and hypertensive rats

Šutovska

Miklovič

Molčan

2021

Experimental Physiology

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Artificial light at night (ALAN) affects the circadian rhythm of the heart rate in normotensive Wistar rats (WT) and spontaneously hypertensive rats (SHR) through the autonomic nervous system, which regulates the heart's activity through calcium handling, an important regulator in heart contractility. We analysed the expression of the sarco/endoplasmic reticulum Ca 2+ -ATPase (SERCA2) and other selected regulatory proteins involved in the regulation of heart contractility, angiotensin II receptor type 1 (AT 1 R), endothelin-1 (ET-1) and tyrosine hydroxylase (TH), in the left ventricle of the heart in WT and SHR after 2 and 5 weeks of ALAN with intensity 1-2 lx.

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The exaggerated salt-sensitive response in hypertensive transgenic rats (TGR mRen-2) fostered by a normotensive female

et al. 2018

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Hypotensive effects of melatonin in rats: Focus on the model, measurement, application, and main mechanisms

et al. 2022

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Artificial Light at Night as a Risk Factor for Health

et al. 2018

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Hana Šutovska

Dim light at night attenuates circadian rhythms in the cardiovascular system and suppresses melatonin in rats

Consequences of low-intensity light at night on cardiovascular and metabolic parameters in spontaneously hypertensive rats

Prenatal hypoxia increases blood pressure in male rat offspring and affects their response to artificial light at night

Prenatal Hypoxia Affects Foetal Cardiovascular Regulatory Mechanisms in a Sex- and Circadian-Dependent Manner: A Review

Artificial light at night suppresses the expression of sarco/endoplasmic reticulum Ca²⁺‐ATPase in the left ventricle of the heart in normotensive and hypertensive rats

The exaggerated salt-sensitive response in hypertensive transgenic rats (TGR mRen-2) fostered by a normotensive female

Hypotensive effects of melatonin in rats: Focus on the model, measurement, application, and main mechanisms

Artificial Light at Night as a Risk Factor for Health

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Hana Šutovska

Dim light at night attenuates circadian rhythms in the cardiovascular system and suppresses melatonin in rats

Consequences of low-intensity light at night on cardiovascular and metabolic parameters in spontaneously hypertensive rats

Prenatal hypoxia increases blood pressure in male rat offspring and affects their response to artificial light at night

Prenatal Hypoxia Affects Foetal Cardiovascular Regulatory Mechanisms in a Sex- and Circadian-Dependent Manner: A Review

Artificial light at night suppresses the expression of sarco/endoplasmic reticulum Ca2+‐ATPase in the left ventricle of the heart in normotensive and hypertensive rats

The exaggerated salt-sensitive response in hypertensive transgenic rats (TGR mRen-2) fostered by a normotensive female

Hypotensive effects of melatonin in rats: Focus on the model, measurement, application, and main mechanisms

Artificial Light at Night as a Risk Factor for Health

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Artificial light at night suppresses the expression of sarco/endoplasmic reticulum Ca²⁺‐ATPase in the left ventricle of the heart in normotensive and hypertensive rats