Chronic inflammation plays a significant role in the development and progression of metabolic dysfunction-related diseases. This study investigating a protein hydrolysate from Lupinus angustifolius (LPH) in mice model on a western diet (WD) aimed to elucidate its potential beneficial role in improving the lipidomic and anti-inflammatory profile. To achieve this objective, a lipidomic approach in combination with the evaluation of protein level modulation of selected key enzymes that are pivotal involved in the bioactive lipid pathway synthesis/regulation was performed on liver homogenates. Specifically, LPH positively impacted DHCer, SM, LacCer, Sph 1, DHSph 1, and S1P 1 concentrations, and restored the basal conditions of ASAH1 and ASM, proteins involved in sphingolipid metabolism. LPH also reduced the FASN and PPARγ levels and eicosanoids, with positive modulation of the COX-2 and ALOX5. Additionally, LPH reduced the WB-induced AEA and 2AG concentrations.
Integratomic investigation to assess the liver lipidomic and antiinflammatory activity of lupin protein hydrolysate / S. Casati, M. Dei Cas, L. D'Adduzio, I. Cruz-Chamorro, G. Santos- Sánchez, C. Bollati, M. Fanzaga, J. Pedroche, M.D.C. Millán-Linares, G. Roda, A. Carrillo-Vico, C. Lammi. - In: NPJ SCIENCE OF FOOD. - ISSN 2396-8370. - 9:1(2025 Jul 28), pp. 154.1-154.10. [10.1038/s41538-025-00515-7]
Integratomic investigation to assess the liver lipidomic and antiinflammatory activity of lupin protein hydrolysate
S. CasatiCo-primo
;M. Dei CasCo-primo
;L. D'AdduzioSecondo
;C. Bollati;M. Fanzaga;G. Roda;C. Lammi
Ultimo
2025
Abstract
Chronic inflammation plays a significant role in the development and progression of metabolic dysfunction-related diseases. This study investigating a protein hydrolysate from Lupinus angustifolius (LPH) in mice model on a western diet (WD) aimed to elucidate its potential beneficial role in improving the lipidomic and anti-inflammatory profile. To achieve this objective, a lipidomic approach in combination with the evaluation of protein level modulation of selected key enzymes that are pivotal involved in the bioactive lipid pathway synthesis/regulation was performed on liver homogenates. Specifically, LPH positively impacted DHCer, SM, LacCer, Sph 1, DHSph 1, and S1P 1 concentrations, and restored the basal conditions of ASAH1 and ASM, proteins involved in sphingolipid metabolism. LPH also reduced the FASN and PPARγ levels and eicosanoids, with positive modulation of the COX-2 and ALOX5. Additionally, LPH reduced the WB-induced AEA and 2AG concentrations.
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