Gaelle Massoud scite author profile

Gaelle Massoud

4Publications

3Citation Statements Received

140Citation Statements Given

How they've been cited

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351

140

Affiliations

American University of Beirut Medical Center, American University of Beirut

Publications

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Unravelling the impact of intrauterine growth restriction on heart development: insights into mitochondria and sexual dimorphism from a non-hominoid primate

Booz

Massoud

Altara

et al. 2021

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Fetal exposure to an unfavorable intrauterine environment programs an individual to have a greater susceptibility later in life to non-communicable diseases, such as coronary heart disease, but the molecular processes are poorly understood. An article in Clinical Science recently reported novel details on the effects of maternal nutrient reduction (MNR) on fetal heart development using a primate model that is about 94% genetically similar to humans and is also mostly monotocous. MNR adversely impacted fetal left ventricular (LV) mitochondria in a sex-dependent fashion with a greater effect on male fetuses, although mitochondrial transcripts increased more so in females. Increased expression for several respiratory chain and adenosine triphosphate (ATP) synthase proteins were observed. However, fetal LV mitochondrial complex I and complex II/III activities were significantly decreased, likely contributing to a 73% decreased LV ATP content and increased LV lipid peroxidation. Moreover, MNR fetal LV mitochondria showed sparse and disarranged cristae. This study indicates that mitochondria are targets of the remodeling and imprinting processes in a sex-dependent manner. Mitochondrial ROS production and inadequate energy production add another layer of complexity. Altogether these observations raise the possibility that dysfunctional mitochondria in the fetus may contribute in turn to epigenetic memory of in utero stress in the adult. The role of mitoepigenetics and involvement of mitochondrial and genomic non-coding RNAs in mitochondrial functions and nuclei–mitochondria crosstalk with in utero stress awaits further investigation.

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Cannabinoids and Myocardial Ischemia: Novel insights, Updated Mechanisms, and Implications for Myocardial Infarction

Dahan

Machtoub

Massoud

et al. 2022

CMC

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: Cannabis is the most widely trafficked and abused illicit drug due to its calming psychoactive properties. It has been increasingly recognized as having potential health benefits and relatively less adverse health effects as compared to other illicit drugs; however, growing evidence clearly indicates that cannabis is associated with considerable adverse cardiovascular events. Recent studies have linked cannabis use to myocardial infarction (MI); yet, very little is known about the underlying mechanisms. A MI is a cardiovascular disease characterized by a mismatch in the oxygen supply and demand of the heart, resulting in ischemia and subsequent necrosis of the myocardium. Since cannabis is increasingly being considered a risk factor for MI, there is a growing need for better appreciating its potential health benefits and consequences. Here, we discuss the cellular mechanisms of cannabis that lead to an increased risk of MI. We provide a thorough and critical analysis of cannabinoids’ actions, which include modulation of adipocyte biology, regional fat distribution, and atherosclerosis, as well as precipitation of hemodynamic stressors relevant in the setting of a MI. By critically dissecting the modulation of signaling pathways in multiple cell types, this paper highlights the mechanisms through which cannabis may trigger life-threatening cardiovascular events. This then provides a framework for future pharmacological studies which can identify targets or develop drugs that modulate cannabis’ effects on the cardiovascular system as well as other organ systems. Cannabis’ impact on the autonomic outflow, vascular smooth muscle cells, myocardium, cortisol levels and other hemodynamic changes are also mechanistically reviewed.

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Interactions between the renin–angiotensin–aldosterone system and COVID-19

Habeichi

Amin

Massoud

et al. 2023

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The Angiotensin II Type 1(AT1) Receptor and Cardiac Hypertrophy: Did We Have It Wrong All Along?

Zouein

Altara

Massoud

et al. 2021

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An ongoing issue in cardiac pharmacology is whether angiotensin II has direct growth promoting effects on the heart via the angiotensin II type 1 (AT1) receptor. This question has relevance for whether angiotensin-converting enzyme inhibitors and AT1 receptor blockers offer additional benefit in preventing adverse cardiac remodeling in hypertension. In a recent study, 2 strains of mice were infused with angiotensin II. In both, AT1 receptors were deleted in the heart and conduit vessels, but in one, AT1 receptors were also deleted in resistance vessels. Angiotensin II caused hypertrophy and hypertension in the strain lacking AT1 receptors in the heart and conduit vessels, but not in the strain without AT1 receptors in resistance vessels. This finding supports the conclusion that blood pressure is more important in determining cardiac hypertrophy than direct AT1 activation by angiotensin II, when the two are rapidly and simultaneously introduced. Surprisingly, mice with no cardiac AT1 receptor expression developed ventricular dilation and eccentric hypertrophy with pressure overload, in contrast to wild type mice that exhibited concentric hypertrophy, suggesting that cardiac AT1 receptors protect against high blood pressure. This interpretation revives issues related to b-arrestinbiased signaling and mechanosensitivity of AT1 receptors. Synthetic nanobodies, which are based on the variable regions of camelidderived heavy chain-only antibodies, could be applied to explore the therapeutic potential of exploiting different activation states of AT1 under stress conditions, such as hypertension and heart failure. At the very least, this experimental approach is likely to reveal new facets of AT1 receptor signaling in the heart.

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Gaelle Massoud

Unravelling the impact of intrauterine growth restriction on heart development: insights into mitochondria and sexual dimorphism from a non-hominoid primate

Cannabinoids and Myocardial Ischemia: Novel insights, Updated Mechanisms, and Implications for Myocardial Infarction

Interactions between the renin–angiotensin–aldosterone system and COVID-19

The Angiotensin II Type 1(AT1) Receptor and Cardiac Hypertrophy: Did We Have It Wrong All Along?

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