Publications by authors named "Alyson Deprez"

Article Synopsis
  • Preterm individuals are at higher risk for heart disease due to changes in cardiac autonomic function, which can be influenced by factors during early development.
  • A study on rats showed that exposure to high oxygen levels (hyperoxia) in early life alters blood pressure patterns and heart rate variability, linked to the activation of a specific receptor (AT1).
  • Blocking the AT1 receptor with losartan mitigated some of these changes, highlighting the role of the renin-angiotensin system in altering cardiac function due to neonatal conditions.
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Prematurity is associated with lower exercise capacity, which relies on the integrity of the cardiovascular, pulmonary, and skeletal muscle systems. Our animal model mimicking prematurity-associated conditions showed altered muscle composition and atrophy in adulthood. This study aimed to compare muscle composition and strength in adults born preterm versus full-term controls.

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Individuals born preterm present lower exercise capacity. Along with the cardiopulmonary responses and activity level, muscle strength is a key determinant of exercise capacity. This systematic review aimed to summarize the current knowledge on the impact of preterm birth on skeletal muscle mass and function across the lifespan.

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Muscle stem cells, the engine of muscle repair, are affected in myotonic dystrophy type 1 (DM1); however, the underlying molecular mechanism and the impact on the disease severity are still elusive. Here, we show using patients' samples that muscle stem cells/myoblasts exhibit signs of cellular senescence in vitro and in situ. Single cell RNAseq uncovers a subset of senescent myoblasts expressing high levels of genes related to the senescence-associated secretory phenotype (SASP).

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Individuals born preterm are at higher risk of cardiovascular and metabolic diseases in adulthood, through mechanisms not completely understood. White adipose tissue in humans and rodents is a dynamic endocrine organ and a critical player in the regulation of metabolic homeostasis. However, the impact of preterm birth on white adipose tissue remains unknown.

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Skeletal muscle possesses a high plasticity and a remarkable regenerative capacity that relies mainly on muscle stem cells (MuSCs). Molecular and cellular components of the MuSC niche, such as immune cells, play key roles to coordinate MuSC function and to orchestrate muscle regeneration. An abnormal infiltration of immune cells and/or imbalance of pro- and anti-inflammatory cytokines could lead to MuSC dysfunctions that could have long lasting effects on muscle function.

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Article Synopsis
  • Individuals born preterm show changes in the left ventricle and have a higher risk of heart diseases, and this study explores how neonatal hyperoxia (high oxygen exposure) affects left ventricle mitochondria in rats, simulating preterm birth conditions.
  • The research found that rats exposed to high oxygen had smaller mitochondria, impaired function, and signs of oxidative stress, indicating potential cardiac issues.
  • In human young adults, those born preterm had lower levels of a mitochondrial peptide called humanin, which correlated with specific heart function metrics, suggesting lasting impacts of preterm birth on heart health.
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Individuals born preterm show reduced exercise capacity and increased risk for pulmonary and cardiovascular diseases, but the impact of preterm birth on skeletal muscle, an inherently critical part of cardiorespiratory fitness, remains unknown. We evaluated the impacts of preterm birth-related conditions on the development, growth, and function of skeletal muscle using a recognized preclinical rodent model in which newborn rats are exposed to 80% oxygen from days 3 to 10 of life. We analyzed different hindlimb muscles of male and female rats at 10 days (neonatal), 4 weeks (juvenile), and 16 weeks (young adults).

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