Defining As a Model System to Investigate Lipoic Acid Metabolism

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2020 Aug 27

PMID 32843480

Citations 4

Authors

Antonela Lavatelli

Diego de Mendoza

Maria Cecilia Mansilla

Affiliations

Soon will be listed here.

Abstract

Lipoic acid (LA) is a sulfur-containing cofactor that covalently binds to a variety of cognate enzymes that are essential for redox reactions in all three domains of life. Inherited mutations in the enzymes that make LA, namely lipoyl synthase, octanoyltransferase, and amidotransferase, result in devastating human metabolic disorders. Unfortunately, because many aspects of this essential pathway are still obscure, available treatments only serve to alleviate symptoms. We envisioned that the development of an organismal model system might provide new opportunities to interrogate LA biochemistry, biology, and physiology. Here we report our investigations on three orthologous proteins involved in this post-translational modification. We established that M01F1.3 is a lipoyl synthase, ZC410.7 an octanoyltransferase, and C45G3.3 an amidotransferase. Worms subjected to RNAi against and manifest larval arrest in the second generation. The arrest was not rescued by LA supplementation, indicating that endogenous synthesis of LA is essential for development. Expression of the enzymes M01F1.3, ZC410.7, and C45G3.3 completely rescue bacterial or yeast mutants affected in different steps of the lipoylation pathway, indicating functional overlap. Thus, we demonstrate that, similarly to humans, is able to synthesize LA via a lipoyl-relay pathway, and suggest that this nematode could be a valuable model to dissect the role of protein mislipoylation and to develop new therapies.

Citing Articles

A Multi-Target Pharmacological Correction of a Lipoyltransferase Gene Mutation in Patient-Derived Cellular Models.

Gomez-Fernandez D, Romero-Gonzalez A, Suarez-Rivero J, Cilleros-Holgado P, Alvarez-Cordoba M, Pinero-Perez R Antioxidants (Basel). 2024; 13(8).

PMID: 39199267 PMC: 11351668. DOI: 10.3390/antiox13081023.

Substrate Analogues Entering the Lipoic Acid Salvage Pathway via Lipoate-Protein Ligase 2 Interfere with Virulence.

Scattolini A, Grammatoglou K, Nikitjuka A, Jirgensons A, Mansilla M, Windshugel B ACS Infect Dis. 2024; 10(6):2172-2182.

PMID: 38724014 PMC: 11184557. DOI: 10.1021/acsinfecdis.4c00148.

Lipoic acid attachment to proteins: stimulating new developments.

Cronan J Microbiol Mol Biol Rev. 2024; 88(2):e0000524.

PMID: 38624243 PMC: 11332335. DOI: 10.1128/mmbr.00005-24.

A Novel Lipoate-Protein Ligase, Mhp-LplJ, Is Required for Lipoic Acid Metabolism in .

Jin J, Chen H, Wang N, Zhu K, Liu H, Shi D Front Microbiol. 2021; 11:631433.

PMID: 33584596 PMC: 7873978. DOI: 10.3389/fmicb.2020.631433.

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