Matteo Pedrelli scite author profile

Disorders of lipid and lipoprotein metabolism and transport are responsible for the development of a large spectrum of pathologies, ranging from cardiovascular diseases, to metabolic syndrome, even to tumour development. Recently, a deeper knowledge of the molecular mechanisms that control our biological clock and circadian rhythms has been achieved. From these studies it has clearly emerged how the molecular clock tightly regulates every aspect of our lives, including our metabolism. This review analyses the organisation and functioning of the circadian clock and its relevance in the regulation of physiological processes. We also describe metabolism and transport of lipids and lipoproteins as an essential aspect for our health, and we will focus on how the circadian clock and lipid metabolism are greatly interconnected. Finally, we discuss how a deeper knowledge of this relationship might be useful to improve the recent spread of metabolic diseases.

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Functional LCAT is not required for macrophage cholesterol efflux to human serum

Calabresi

Favari

Moleri

et al. 2009

Atherosclerosis

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The LXR agonist T0901317 promotes the reverse cholesterol transport from macrophages by increasing plasma efflux potential

Zanotti

Potì

Pedrelli

et al. 2008

Journal of Lipid Research

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The liver X receptors (LXRs) have been shown to affect lipoprotein plasma profile, lipid metabolism, and reverse cholesterol transport (RCT). In the present study, we investigated whether a short-term administration of the synthetic LXR agonist T0901317 (T0) to mice may affect RCT by modulating the capacity of plasma to promote cellular lipid efflux. Consistent with previous data, the pharmacological treatment of mice caused a significant increase of macrophage-derived [ 3 H]cholesterol content in plasma, liver, and feces and resulted in improved capacity of plasma to promote cellular cholesterol release through passive diffusion and scavenger receptor class B type I (SR-BI)-mediated mechanisms. Differently, plasma from treated mice possessed similar or reduced capacity to drive lipid efflux via ABCA1. Consistent with these data, the analysis of plasma HDL fractions revealed that T0 caused the formation of larger, lipid-enriched particles. These results suggest that T0 promotes in vivo RCT from macrophages at least in part by inducing an enrichment of those HDL subclasses that increase plasma capacity to promote cholesterol efflux by passive diffusion and SR-BI-mediated mechanisms.-Zanotti, I., F. Potì, M. Pedrelli, E. Favari, E. Moleri, G. Franceschini, L. Calabresi, and F. Bernini. The LXR agonist T0901317 promotes the reverse cholesterol transport from macrophages by increasing plasma efflux potential. J. Lipid Res. 2008. 49: 954-960.

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Matteo Pedrelli

Lipids around the Clock: Focus on Circadian Rhythms and Lipid Metabolism

Functional LCAT is not required for macrophage cholesterol efflux to human serum

The LXR agonist T0901317 promotes the reverse cholesterol transport from macrophages by increasing plasma efflux potential

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