Effects of superoxide anion attack on the lipoprotein HDL.

Napolitano, Gaetana; Fasciolo, Gianluca; Tomajoli, Maria Teresa Muscari; Carlucci, Alessandro; Ascione, Ester; Salvatore, Alfonso

Published October 11, 2022

0 views Journal article Open Access

Effects of superoxide anion attack on the lipoprotein HDL.

1. Dipartimento di Scienze e Tecnologie, Università degli Studi di Napoli Parthenope, via Acton n. 38-I, 80133, Naples, Italy. gaetana.napolitano@uniparthenope.it.
2. International PhD Programme/UNESCO Chair "Environment, Resources and Sustainable Development", Department of Science and Technology, Parthenope University of Naples, Naples, Italy. gaetana.napolitano@uniparthenope.it.
3. Dipartimento di Biologia, Università di Napoli Federico II, Complesso Universitario Monte Sant'Angelo, Via Cinthia, 80126, Naples, Italy.
4. Dipartimento di Scienze e Tecnologie, Università degli Studi di Napoli Parthenope, via Acton n. 38-I, 80133, Naples, Italy.
5. International PhD Programme/UNESCO Chair "Environment, Resources and Sustainable Development", Department of Science and Technology, Parthenope University of Naples, Naples, Italy.
6. S. Antimo Industrial Development Department, Kedrion Biopharma, Strada Statale 7 Bis 19, Sant'Antimo, 80029, Napoli, Italia.
7. University of Milan

High-density lipoprotein (HDL) is an anti-atherosclerotic lipoprotein. Thanks to the activity of apolipoprotein ApoA1, the principal protein component of HDL, this last is responsible for converting cholesterol into ester form and transporting excessive cholesterol to the liver ("reverse cholesterol transport" RCT). When HDL undergoes oxidation, it becomes dysfunctional and proatherogenic. ApoA1 is a target of oxidation, and its alteration affects RCT and contributes to atherosclerosis development. Until now, the mechanism of HDL oxidation is not fully understood and only hydroxyl radicals seem to induce direct oxidation of protein and lipidic components of lipoproteins. Here we demonstrate that superoxide radical, widely produced in early atherosclerosis, directly oxidizes HDL, and as a consequence, ApoA1 undergoes structural alterations impairing its anti-atherosclerotic functions. Our results highlight in an in vitro system the potential mechanism by which O2·- triggers atherosclerotic pathogenesis in vivo. Our study gets the basis for therapeutic approaches focused on the management of superoxide generation in early atherosclerosis onset.

Enabled by The Lens

Open Access

Licence Attribution (CC BY)

Publisher Website Access full text

Publication Details

Journal article

Journal: Molecular and cellular biochemistry

Publisher: Springer Science and Business Media LLC

ISSN: 15734919

Volume: 478

Pages: 1059-1066

Persistent Identifiers

PMCID PMC10126046 Read more

DOI 10.1007/s11010-022-04563-5 Read more

PMID 36219354 Read more

Funding

Financial Support

Università Parthenope di Napoli Read more

References

Griendling KK, Sorescu D, Ushio-Fukai M (2000) NAD(P)H oxidase: role in cardiova... Read more

Gao D, Podrez EA (2018) Characterization of covalent modifications of HDL apopro... Read more

Hathaway CA, Heistad DD, Piegors DJ, Miller FJ Jr (2002) Regression of atheroscl... Read more

Ohara Y, Peterson TE, Harrison DG (1993) Hypercholesterolemia increases endothel... Read more

Collin B, Busseuil D, Zeller M, Perrin C, Barthez O, Duvillard L et al (2007) In... Read more

Showing first 5 of 44 references.

Scholarly Citations

Cited by other scholarly works

038-710-781-385-316 Read more

056-894-995-238-09X Read more

147-523-318-221-879 Read more

164-087-996-233-025 Read more

171-751-491-210-043 Read more

Showing first 5 of 5 scholarly citations.

MeSH Terms

Humans Lipoproteins Superoxides Atherosclerosis Cholesterolmetabolism Biological Transport Apolipoprotein A-Imetabolism Cholesterol

MeSH (Medical Subject Headings) is the NLM controlled vocabulary for indexing biomedical articles. Click any term to view its definition and hierarchy.