# The reaction specificity of mammalian ALOX15B orthologs does not depend on the evolutionary ranking of the animals

**Authors:** Eda Gündem, Sabine Stehling, Astrid Borchert, Hartmut Kuhn

PMC · DOI: 10.1016/j.jlr.2025.100768 · Journal of Lipid Research · 2025-03-03

## TL;DR

This study shows that the reaction specificity of ALOX15B enzymes in mammals is not determined by their evolutionary ranking.

## Contribution

The study reveals that ALOX15B's reaction specificity in mammals is not a result of targeted enzyme evolution.

## Key findings

- ALOX15B genes are common in Prototheria and Eutheria but rare in Metatheria.
- Most mammalian ALOX15B enzymes oxygenate arachidonic acid at the 15-position.
- Only certain Muridae species express ALOX15B enzymes that oxygenate at the 8-position.

## Abstract

Arachidonic acid lipoxygenases (ALOXs) play important roles in cell differentiation and in the pathogenesis of cardiovascular, hyperproliferative, neurodegenerative, and metabolic diseases. The human genome involves six intact ALOX genes and knockout studies of the corresponding mouse orthologs indicated that the coding multiplicity of ALOX isoforms is not an indication for functional redundancy. Despite their evolutionary relatedness human and mouse ALOX15 and ALOX15B orthologs exhibit different catalytic properties. Human ALOX15 oxygenates arachidonic acid mainly to 15S-hydroperoxy-5Z,8Z,11Z,13E-eicosatetraenoic acid but 12S-hydroperoxy-5Z,8Z,10E,14Z-eicosatetraenoic acid is the dominant oxygenation product of mouse Alox15. This functional difference is the results of a targeted enzyme evolution but the driving forces for this process have not been well defined. For human and mouse ALOX15B orthologs similar functional differences have been reported but for the time being it was unclear whether these differences might also be a consequence of targeted enzyme evolution. To address this question, we systematically searched the public databases for ALOX15B genes, expressed selected enzymes, and characterized their functional properties. We found that functional ALOX15B genes frequently occur in Prototheria and Eutheria but orthologous genes are rare in Metatheria. The vast majority of mammalian ALOX15B orthologs constitute arachidonic acid 15-lipoxygenating enzymes and this property did not depend on the evolutionary ranking of the animals. Only several Muridae species including M. musculus, M. pahari, M. caroli, M. coucha, and A. niloticus express arachidonic acid 8-lipoxygenating ALOX15B orthologs. Consequently, the difference in the reaction specificity of mouse and human ALOX15B orthologs may not be considered a functional consequence of targeted enzyme evolution.

## Linked entities

- **Genes:** ALOX15 (arachidonate 15-lipoxygenase) [NCBI Gene 246], ALOX15B (arachidonate 15-lipoxygenase type B) [NCBI Gene 247]
- **Chemicals:** arachidonic acid (PubChem CID 444899), 15S-hydroperoxy-5Z,8Z,11Z,13E-eicosatetraenoic acid (PubChem CID 5280893), 12S-hydroperoxy-5Z,8Z,10E,14Z-eicosatetraenoic acid (PubChem CID 5280892)
- **Species:** Mus musculus (taxon 10090), Mus pahari (taxon 10093), Mus caroli (taxon 10089)

## Full-text entities

- **Genes:** ALOX15B (arachidonate 15-lipoxygenase type B) [NCBI Gene 247] {aka 15-LOX-2}, ALOX15 (arachidonate 15-lipoxygenase) [NCBI Gene 246] {aka 12-LOX, 15-LOX, 15-LOX-1, LOG15}
- **Diseases:** cardio-vascular, hyperproliferative, neurodegenerative and metabolic diseases (MESH:D019636)
- **Chemicals:** 12-HpETE (MESH:C021201), 15-HpETE (MESH:C025086), arachidonic acid (MESH:D016718)
- **Species:** Muridae (family) [taxon 10066], Mus musculus (house mouse, species) [taxon 10090], Mus pahari (Gairdner's shrew-mouse, species) [taxon 10093], Mus caroli (ricefield mouse, species) [taxon 10089], Mastomys coucha (southern multimammate mouse, species) [taxon 35658], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11999201/full.md

## References

54 references — full list in the complete paper: https://tomesphere.com/paper/PMC11999201/full.md

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Source: https://tomesphere.com/paper/PMC11999201