Rapid free thiol rebound is a physiological response following cold‐induced vasoconstriction in healthy humans, primary Raynaud and systemic sclerosis

Raynaud's phenomenon (RP) is often the first sign of systemic sclerosis (SSc). Molecular mechanisms involved are incompletely understood, but reactive oxygen, nitrogen, and sulfur species are thought to play an important role in the pathogenesis of SSc. Free thiol groups play a protective role...

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Bibliographic Details
Published in:Physiological reports 2019-03, Vol.7 (6), p.e14017-n/a
Main Authors: Abdulle, Amaal Eman, van Roon, Anniek M., Smit, Andries J., Pasch, Andreas, Meurs, Matijs, Bootsma, Hendrika, Bakker, Stephan J. L., Said, Mohammad Y., Fernandez, Bernadette O., Feelisch, Martin, Goor, Harry, Mulder, Douwe J.
Format: Article
Language:English
Subjects:
Adaptation, Physiological
Adult
Aged
Antioxidants - metabolism
Cardiovascular Conditions, Disorders and Treatments
Case-Control Studies
Circulation
Cold Temperature
Cooling
Endothelins
Experiments
Female
Free radicals
Free thiols
Gender differences
Humans
Hypothermia
Immunology
Ischemia
Male
Medical research
Middle Aged
Molecular modelling
Mortality
nitric oxide
Original Research
Oxidation-Reduction
Oxidative stress
Pathogenesis
Physiology
Pilot Projects
Raynaud disease
Raynaud Disease - blood
Raynaud Disease - diagnosis
Raynaud Disease - physiopathology
Raynaud's phenomenon
Reactive oxygen species
redox system
Reperfusion
Scleroderma
Scleroderma, Systemic - blood
Scleroderma, Systemic - diagnosis
Scleroderma, Systemic - physiopathology
Species
Studies
Sulfates
Sulfhydryl Compounds - blood
Sulfur
Systemic sclerosis
Therapeutic applications
Thermoregulation
Thiols
Time Factors
Vasoconstriction
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Summary:Raynaud's phenomenon (RP) is often the first sign of systemic sclerosis (SSc). Molecular mechanisms involved are incompletely understood, but reactive oxygen, nitrogen, and sulfur species are thought to play an important role in the pathogenesis of SSc. Free thiol groups play a protective role against oxidative stress and may represent an attractive therapeutic target. We aimed to investigate the effects of hypothermia‐induced vasoconstriction on the responsiveness of redox‐related markers. Thirty participants (n = 10/group [SSc, primary Raynaud's phenomenon (PRP), healthy controls (HC)]) were included in this study. Fingertip photoelectric plethysmography was performed during a standardized cooling and recovery experiment. Venous blood was collected at four predetermined time points. Free thiols, NO‐derived species (nitros(yl)ated species, nitrite, nitrate), sulfate and endothelin‐1 were measured. Lower baseline concentrations of free thiols were observed in PRP and SSc patients (HC: 5.87 [5.41–5.99] μmol/g; PRP: 5.17 [4.74–5.61]; SSc 5.28 [4.75–5.80], P = 0.04). Redox‐related markers remained unchanged during cooling. However, an unexpected increase in systemic free thiol concentrations was observed in all groups during the recovery phase. The response of this marker differed between groups, with a higher increase found in SSc patients (HC Δ = 1.30 [1.48–1.17]; PRP Δ = 1.04 [1.06–1.03]; SSc Δ = 1.72 [1.13–1.49], P = 0.04). NO‐derived species, sulfate and endothelin‐1 levels remained unchanged throughout the recovery phase. This exploratory study sheds light on the rapid responsiveness of systemic free thiol concentrations following reperfusion, which may reflect overall redox balance. The robust response to reperfusion in SSc patients suggests that reductive systems involved in this response are functionally intact in these patients. In this exploratory study we show that circulating free thiols concentrations, which are an indirect measure of systemic oxidative stress, not only recover during reperfusion in all groups, but also reach levels that exceed baseline concentrations. This rapid antioxidant responsiveness may be the result of a physiological acute reaction to reperfusion, which may alter the oxidative balance.
ISSN:2051-817X
2051-817X
DOI:10.14814/phy2.14017