Synthetic Peptide Inhibition of Trypsin‐Like Proteases in Spodoptera frugiperda (Lepidoptera: Noctuidae): Evaluating the Influence of Gut Microbiota
Halina Schultz, Daniel Guimarães Silva Paulo, Yaremis Meriño‐Cabrera, Rafael Júnior de Andrade, Ian Lucas Batista Santos, Maria Clara Neves Gomes Rodrigues, Geisiane Aparecida Mariano, Milena Godoi Lima, Humberto Josué Ramos de Oliveira, Maria Goreti de Almeida Oliveira

TL;DR
Researchers tested synthetic peptides that inhibit digestive enzymes in a major pest insect and found they impair digestion and growth, with limited impact from gut microbiota disruption.
Contribution
The study introduces two synthetic tripeptides as effective inhibitors of trypsin-like proteases in Spodoptera frugiperda, exploring their efficacy under gut microbiota disruption.
Findings
GORE1 and GORE2 competitively inhibit trypsin-like proteases in S. frugiperda with Ki values of 1.41 mM and 0.49 mM, respectively.
Peptide treatments reduced nutritional indices and larval body mass, with GORE1 impairing growth even when gut microbiota was disrupted.
Microbiota disruption did not significantly alter enzymatic inhibition but modulated developmental responses like prolonged larval growth.
Abstract
Spodoptera frugiperda J.E. Smith (Lepidoptera: Noctuidae) is a major agricultural pest whose control has been increasingly challenged by resistance to conventional insecticides. Synthetic protease inhibitors represent promising alternatives; however, the potential modulation of their efficacy by gut microbiota remains poorly understood. Here, we evaluated two rationally designed synthetic tripeptides, GORE1 and GORE2, as inhibitors of trypsin‐like digestive proteases and investigated whether gut microbiota disruption alters their inhibitory performance in S. frugiperda. Enzymatic assays revealed competitive inhibition patterns, with Ki values of 1.41 mM for GORE1 and 0.49 mM for GORE2. Most treatments increased apparent KM values, indicating reduced substrate affinity, whereas GORE2 consistently showed lower KM values. Despite stronger in vitro affinity (lower Ki ), GORE2 did not…
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Taxonomy
TopicsInvertebrate Immune Response Mechanisms · Insect Resistance and Genetics · Insect symbiosis and bacterial influences
