The circadian clock remains intact, but with dampened hormonal output in heart failureResearch in context
Sandra Crnko,
Markella I. Printezi,
Peter-Paul M. Zwetsloot,
Laurynas Leiteris,
Andrew I. Lumley,
Lu Zhang,
Isabelle Ernens,
Tijn P.J. Jansen,
Lilian Homsma,
Dries Feyen,
Martijn van Faassen,
Bastiaan C. du Pré,
Carlo A.J.M. Gaillard,
Hans Kemperman,
Marish I.F.J. Oerlemans,
Pieter A.F.M. Doevendans,
Anne M. May,
Nicolaas P.A. Zuithoff,
Joost P.G. Sluijter,
Yvan Devaux,
Linda W. van Laake
Affiliations
Sandra Crnko
Department of Cardiology, Experimental Cardiology Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands; Regenerative Medicine Centre, Circulatory Health Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands
Markella I. Printezi
Department of Cardiology, Experimental Cardiology Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands
Peter-Paul M. Zwetsloot
Department of Cardiology, Experimental Cardiology Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands
Laurynas Leiteris
Regenerative Medicine Centre, Circulatory Health Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands
Andrew I. Lumley
Cardiovascular Research Unit, Luxembourg Institute of Health, Luxembourg
Lu Zhang
Cardiovascular Research Unit, Luxembourg Institute of Health, Luxembourg
Isabelle Ernens
Cardiovascular Research Unit, Luxembourg Institute of Health, Luxembourg
Tijn P.J. Jansen
Department of Cardiology, Radboud University Medical Centre, Nijmegen, the Netherlands
Lilian Homsma
Department of Internal Medicine, Jeroen Bosch Hospital, ‘s-Hertogenbosch, the Netherlands
Dries Feyen
Department of Medicine and Cardiovascular Institute, Stanford University, Stanford, CA, USA
Martijn van Faassen
Department of Laboratory Medicine, University Medical Centre Groningen, University of Groningen, the Netherlands
Bastiaan C. du Pré
Division of Internal Medicine, Erasmus Medical Centre, Rotterdam, the Netherlands
Carlo A.J.M. Gaillard
Division of Internal Medicine and Dermatology, University Medical Centre Utrecht, Utrecht, the Netherlands
Hans Kemperman
Central Diagnostic Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands
Marish I.F.J. Oerlemans
Department of Cardiology, Experimental Cardiology Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands
Pieter A.F.M. Doevendans
Department of Cardiology, Experimental Cardiology Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands; Netherlands Heart Institute, Utrecht, the Netherlands; Central Military Hospital, Utrecht, the Netherlands
Anne M. May
Department of Epidemiology, Julius Centre for Health Sciences and Primary Care, University Medical Centre Utrecht, Utrecht University, Utrecht, Netherlands
Nicolaas P.A. Zuithoff
Department of Data Science and Biostatistics, Julius Centre for Health Sciences and Primary Care, University Medical Centre Utrecht, Utrecht University, Utrecht, Netherlands
Joost P.G. Sluijter
Department of Cardiology, Experimental Cardiology Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands; Regenerative Medicine Centre, Circulatory Health Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands; Utrecht University, Utrecht, the Netherlands
Yvan Devaux
Cardiovascular Research Unit, Luxembourg Institute of Health, Luxembourg
Linda W. van Laake
Department of Cardiology, Experimental Cardiology Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands; Regenerative Medicine Centre, Circulatory Health Laboratory, University Medical Centre Utrecht, Utrecht, the Netherlands; Corresponding author. Department of Cardiology, Division of Heart and Lungs, University Medical Centre Utrecht Heidelberglaan 100, 3584 CX, Utrecht, the Netherlands.
Summary: Background: Circadian (24-h) rhythms are important regulators in physiology and disease, but systemic disease may disrupt circadian rhythmicity. Heart failure (HF) is a systemic disease affecting hormonal regulation. We investigate whether HF affects the rhythmic expression of melatonin and cortisol, main endocrine products of the central clock, and cardiac-specific troponin in patients. We corroborate the functionality of the peripheral clock directly in the organs of translational models, inaccessible in human participants. Methods: We included 46 HF patients (71.7% male, median age of 60 years, NYHA class II (32.6%) or III (67.4%), ischemic cardiomyopathy (43.5%), comorbidities: diabetes 21.7%, atrial fibrillation 30.4%), and 24 matched controls. Blood was collected at seven time-points during a 24-h period (totalling 320 HF and 167 control samples) for melatonin, cortisol, and cardiac troponin T (cTnT) measurements after which circadian rhythms were assessed through cosinor analyses, both on the individual and the group level. Next, we analysed peripheral circadian clock functionality using cosinor analysis in male animal HF models: nocturnal mice and diurnal zebrafish, based on expression of core clock genes in heart, kidneys, and liver, every 4 h during a 24-h period in a light/darkness synchronised environment. Findings: Melatonin and cortisol concentrations followed a physiological 24-h pattern in both patients and controls. For melatonin, acrophase occurred during the night for both groups, with significantly decreased amplitude (median 5.2 vs 8.8, P = 0.0001) and circadian variation ([maximum]/[minimum]) in heart failure patients. For cortisol, mesor showed a significant increase for HF patients (mean 331.9 vs 275.1, P = 0.017) with a difference of 56.8 (95% CI 10.3–103.3) again resulting in a relatively lower variation: median 3.9 vs 6.3 (P = 0.0058). A nocturnal blood pressure dip was absent in 77.8% of HF patients.Clock gene expression profiles (Bmal, Clock, Per, Cry) were similar and with expected phase relations in animal HF models and controls, demonstrating preserved peripheral clock functionality in HF. Furthermore, oscillations in diurnal zebrafish were expectedly in opposite phases to those of nocturnal mice. Concordantly, cTnT concentrations in HF patients revealed significant circadian oscillations. Interpretation: Central clock output is dampened in HF patients while the molecular peripheral clock, as confirmed in animal models, remains intact. This emphasises the importance of taking timing into account in research and therapy for HF, setting the stage for another dimension of diagnostic, prognostic and therapeutic approaches. Funding: Hartstichting.
