# Methyl-Jasmonate Functions as a Molecular Switch Promoting Cross-Talk between Pathways for the Biosynthesis of Isoprenoid Backbones Used to Modify Proteins in Plants

**Authors:** Quentin Chevalier, Alexandre Huchelmann, Pauline Debié, Pierre Mercier, Michael Hartmann, Catherine Vonthron-Sénécheau, Thomas J. Bach, Hubert Schaller, Andréa Hemmerlin

PMC · DOI: 10.3390/plants13081110 · 2024-04-16

## TL;DR

The study shows that methyl-jasmonate helps switch between different biochemical pathways in plants to modify proteins.

## Contribution

Methyl-jasmonate is shown to promote metabolic cross-talk, allowing protein farnesyltransferase to modify a substrate it normally does not recognize.

## Key findings

- Methyl-jasmonate allows PFT to modify the GFP-CaM-CVIL sensor in the presence of fosmidomycin.
- MVA or MVA-derived metabolites are key intermediates in the switch of prenyl group origin for protein modification.

## Abstract

In plants, the plastidial mevalonate (MVA)-independent pathway is required for the modification with geranylgeranyl groups of CaaL-motif proteins, which are substrates of protein geranylgeranyltransferase type-I (PGGT-I). As a consequence, fosmidomycin, a specific inhibitor of 1-deoxy-d-xylulose (DX)-5 phosphate reductoisomerase/DXR, the second enzyme in this so-called methylerythritol phosphate (MEP) pathway, also acts as an effective inhibitor of protein prenylation. This can be visualized in plant cells by confocal microscopy by expressing GFP-CaM-CVIL, a prenylation sensor protein. After treatment with fosmidomycin, the plasma membrane localization of this GFP-based sensor is altered, and a nuclear distribution of fluorescence is observed instead. In tobacco cells, a visual screen of conditions allowing membrane localization in the presence of fosmidomycin identified jasmonic acid methyl esther (MeJA) as a chemical capable of gradually overcoming inhibition. Using Arabidopsis protein prenyltransferase loss-of-function mutant lines expressing GFP-CaM-CVIL proteins, we demonstrated that in the presence of MeJA, protein farnesyltransferase (PFT) can modify the GFP-CaM-CVIL sensor, a substrate the enzyme does not recognize under standard conditions. Similar to MeJA, farnesol and MVA also alter the protein substrate specificity of PFT, whereas DX and geranylgeraniol have limited or no effect. Our data suggest that MeJA adjusts the protein substrate specificity of PFT by promoting a metabolic cross-talk directing the origin of the prenyl group used to modify the protein. MVA, or an MVA-derived metabolite, appears to be a key metabolic intermediate for this change in substrate specificity.

## Linked entities

- **Proteins:** PGGT-I (Prenyltransferase family protein)
- **Chemicals:** fosmidomycin (PubChem CID 572), MeJA (PubChem CID 5319693), farnesol (PubChem CID 445070), MVA (PubChem CID 449), geranylgeraniol (PubChem CID 5281365)
- **Species:** Arabidopsis (taxon 3701)

## Full-text entities

- **Genes:** PGGT-I (Prenyltransferase family protein) [NCBI Gene 818540] {aka ATGGT-IB, GERANYLGERANYLTRANSFERASE-I BETA SUBUNIT, GGB}, DXR (1-deoxy-D-xylulose 5-phosphate reductoisomerase) [NCBI Gene 836400] {aka 1-DEOXY-D-XYLULOSE 5-PHOSPHATE REDUCTOISOMERASE, 1-deoxy-D-xylulose 5-phosphate reductoisomerase, MQB2.90, MQB2_90, PDE129, PIGMENT-DEFECTIVE EMBRYO 129}
- **Chemicals:** Methyl-Jasmonate (MESH:C072239), MEP (-), fosmidomycin (MESH:C024640), MVA (MESH:D008798), farnesol (MESH:D005204), geranylgeraniol (MESH:C017338)
- **Species:** Arabidopsis thaliana (mouse-ear cress, species) [taxon 3702], Nicotiana tabacum (American tobacco, species) [taxon 4097]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11055089/full.md

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Source: https://tomesphere.com/paper/PMC11055089