Molecular Mechanisms Underlying Adverse Effects of Dexamethasone and Betamethasone in the Developing Cardiovascular System

Overview

Journal FASEB J

Specialties Biology
Physiology

Date 2023 May 3

PMID 37132324

Authors

Tessa A C Garrud

Noor E W D Teulings

Youguo Niu

Katie L Skeffington

Christian Beck

Nozomi Itani

Fiona G Conlon

Kimberley J Botting

Lisa M Nicholas

Wen Tong

Jan B Derks

Susan E Ozanne

Dino A Giussani

Affiliations

Soon will be listed here.

Abstract

Antenatal glucocorticoids accelerate fetal lung maturation and reduce mortality in preterm babies but can trigger adverse effects on the cardiovascular system. The mechanisms underlying off-target effects of the synthetic glucocorticoids mostly used, Dexamethasone (Dex) and Betamethasone (Beta), are unknown. We investigated effects of Dex and Beta on cardiovascular structure and function, and underlying molecular mechanism using the chicken embryo, an established model system to isolate effects of therapy on the developing heart and vasculature, independent of effects on the mother or placenta. Fertilized eggs were treated with Dex (0.1 mg kg ), Beta (0.1 mg kg ), or water vehicle (Control) on embryonic day 14 (E14, term = 21 days). At E19, biometry, cardiovascular function, stereological, and molecular analyses were determined. Both glucocorticoids promoted growth restriction, with Beta being more severe. Beta compared with Dex induced greater cardiac diastolic dysfunction and also impaired systolic function. While Dex triggered cardiomyocyte hypertrophy, Beta promoted a decrease in cardiomyocyte number. Molecular changes of Dex on the developing heart included oxidative stress, activation of p38, and cleaved caspase 3. In contrast, impaired GR downregulation, activation of p53, p16, and MKK3 coupled with CDK2 transcriptional repression linked the effects of Beta on cardiomyocyte senescence. Beta but not Dex impaired NO-dependent relaxation of peripheral resistance arteries. Beta diminished contractile responses to potassium and phenylephrine, but Dex enhanced peripheral constrictor reactivity to endothelin-1. We conclude that Dex and Beta have direct differential detrimental effects on the developing cardiovascular system.

Citing Articles

Electrical remodeling of atrioventricular junction: a study on retrogradely perfused chick embryonic heart.

Zabrodska E, Kvasilova A, Sedmera D, Olejnickova V Am J Physiol Heart Circ Physiol. 2024; 327(3):H555-H564.

PMID: 39028286 PMC: 11427115. DOI: 10.1152/ajpheart.00115.2024.

Molecular mechanisms underlying adverse effects of dexamethasone and betamethasone in the developing cardiovascular system.

Garrud T, Teulings N, Niu Y, Skeffington K, Beck C, Itani N FASEB J. 2023; 37(6):e22887.

PMID: 37132324 PMC: 10946807. DOI: 10.1096/fj.202200676RR.

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