Differential regulation of host plant adaptive genes in Pieris butterflies exposed to a range of glucosinolate profiles in their host plants

Specialist herbivores have often evolved highly sophisticated mechanisms to counteract defenses mediated by major plant secondary-metabolites. Plant species of the herbivore host range often display high chemical diversity and it is not well understood how specialist herbivores respond to this chemi...

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Bibliographic Details
Published in:Scientific reports 2019-05, Vol.9 (1), p.7256, Article 7256
Main Authors: Okamura, Yu, Sato, Ai, Tsuzuki, Natsumi, Sawada, Yuji, Hirai, Masami Yokota, Heidel-Fischer, Hanna, Reichelt, Michael, Murakami, Masashi, Vogel, Heiko
Format: Article
Language:English
Subjects:
101/58
38/91
631/158/2452
631/158/670
631/181/2481
Adaptation, Biological - genetics
Allergens
Allergens - genetics
Animals
Arabidopsis - genetics
Brassicaceae
Butterflies & moths
Butterflies - genetics
Chemical defense
Ericaceae - genetics
Gene expression
Gene regulation
Genes, Plant - genetics
Glucosinolates - genetics
Herbivores
Host plants
Host range
Humanities and Social Sciences
Larva - genetics
Larvae
Metabolites
multidisciplinary
Plant species
Science
Science (multidisciplinary)
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Summary:Specialist herbivores have often evolved highly sophisticated mechanisms to counteract defenses mediated by major plant secondary-metabolites. Plant species of the herbivore host range often display high chemical diversity and it is not well understood how specialist herbivores respond to this chemical diversity. Pieris larvae overcome toxic products from glucosinolate hydrolysis, the major chemical defense of their Brassicaceae hosts, by expressing nitrile-specifier proteins (NSP) in their gut. Furthermore, Pieris butterflies possess so-called major allergen (MA) proteins, which are multi-domain variants of a single domain major allergen (SDMA) protein expressed in the guts of Lepidopteran larvae. Here we show that Pieris larvae fine-tune NSP and MA gene expression depending on the glucosinolate profiles of their Brassicaceae hosts. Although the role of MA is not yet fully understood, the expression levels of NSP and MA in larvae that fed on plants whose glucosinolate composition varied was dramatically changed, whereas levels of SDMA expression remained unchanged. In addition, we found a similar regulation pattern among these genes in larvae feeding on Arabidopsis mutants with different glucosinolate profiles. Our results demonstrate that Pieris larvae appear to use different host plant adaptive genes to overcome a wide range of glucosinolate profiles in their host plants.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-43703-8