Butyrylcholinesterase and lipid metabolism: Possible dual role in metabolic disorders

• Published in: Chemico-biological interactions Vol. 383; p. 110680
• Main Authors: Furtado-Alle, Lupe, Tureck, Luciane V., de Oliveira, Carolina S., Hortega, João V.M., Souza, Ricardo L.R.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 25.09.2023
• Subjects: Butyrylcholinesterase; Energy homeostasis; Lipid homeostasis; Lipid metabolism; Metabolic disorders; Obesity; Obesity; Energy homeostasis; Lipid metabolism; Butyrylcholinesterase; Lipid homeostasis; Metabolic disorders
• ISSN: 0009-2797; 1872-7786; 1872-7786
• DOI: 10.1016/j.cbi.2023.110680

Butyrylcholinesterase (BChE), an enzyme primarily found in the liver, plasma, and brain, has been recognized for its role in the hydrolysis of choline esters. Recent studies have shed light on its involvement in lipid metabolism, revealing its potential as a crucial player in maintaining lipid homeostasis. However, the interactions between external factors and BChE activity in lipid metabolic pathways remain a complex subject of study. This review summarizes the current knowledge regarding BChE activity and lipid metabolism and seeks to clarify the nature of this relationship as causal or consequential. Evidence supports the role of BChE in energy homeostasis disruption, such as obesity and related metabolic disorders, where it exhibits lipolytic activity and mediates fatty acid use and storage. The unexpected functions of BChE in lipoprotein synthesis and the impact of polymorphic variants of the BCHE gene suggest a central role in lipid metabolism; however, further investigation is needed to confirm and describe these functions, especially considering the metabolic context. Furthermore, exploring therapeutic interventions in lipid metabolism disorders contributes to elucidating their implications on BChE activity, but attention to the metabolic status and genotypes as possible factors in this interaction is needed. In summary, further research in this field holds promise for improving our understanding of the complex interplay between BChE and lipid metabolism, and its potential clinical applications. However, the available data corroborate the dual role of BChE activity, both as a critical responsive element to metabolic challenges and as a predisposition factor to metabolic diseases. [Display omitted] •Recent studies reveal BChE's dual role: vital metabolic element and predisposing factor.•BChE's dynamic activity links to lipid metabolism, impacting homeostasis and disorders.•Obesity's connection to heightened BChE suggests compensatory response to imbalance.•Genetic variants affecting BChE tie to metabolic challenges and systemic imbalances.