Inhibition kinetics of digestive proteases for Anticarsia gemmatalis

Patarroyo-Vargas, Adriana M; Cordeiro, Gláucia; Silva, Carolina R Da; Silva, Camila R. Da; Mendonça, Eduardo Gomes de; Visôtto, Liliane Evangelista; Zanuncio, José Cola; Campos, Wellington G.; Oliveira, M. G. A.

doi:10.1590/0001-3765202020180477

Cited by 3 publications

(3 citation statements)

References 26 publications

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“…At the kinetic level, SKTI show lower inhibition constant (Ki) compared with those from synthetic inhibitors, which allow them to occupy all the binding sites available in the active centre of the enzyme and thus an optimised adjustment occurs in the enzyme‐inhibitor (EI) complex formation. The synthetic inhibitors, being smaller, do not occupy all the available sites of the enzyme, forming less stable EI complex (Meriño‐Cabrera, de Oliveira Mendes, et al, 2020; Meriño‐Cabrera, Severiche Castro, et al, 2020; Patarroyo‐Vargas et al, 2020; Volpicella et al, 2003). In this study, we found that protein synthesis is accompanied by changes in the insect's enzymes profile.…”

Section: Discussionmentioning

confidence: 99%

“…In fact, potency and specificity for different serine proteases can be attained by incorporating the small inhibitor benzamidine into larger and more complex synthetic inhibitors such as a bis-benzamidine, an active compound of Berenil ® . This inhibitor is an example of a synthetic trypsin inhibitor (Oliveira et al, 1993) but its potential effect as insecticide, repellent and antifeedant against pests has been poorly tested in comparison with the natural soybean inhibitor SKTI (Marinho-Prado et al, 2012;Patarroyo-Vargas et al, 2020).…”

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confidence: 99%

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Extensive reprogramming of protein isoforms and histopathological alterations in the midgut of Anticarsia gemmatalis fed with protease inhibitors

Coura

Silva

Meriño‐Cabrera

et al. 2021

Annals of Applied Biology

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Protease inhibitors (PIs) interfere with digestion, leading to poor nutrient absorption and decreasing amino acid availability in insects. Ingestion of PIs can delay development, cause anatomical malformations, reduce fertility and change the set of proteases in the insect gut. This study evaluated the proteomic profile in the midgut of Anticarsia gemmatalis fed on synthetic (Berenil® with a bis‐benzamidine as active ingredient) and natural (SKTI) protease inhibitors and their effect on the gut physiology, proteolytic activity and the structural characteristics of the trypsin‐inhibitor binding. Larger numbers of protein isoforms were identified specially related to protease activity and stress processes, being that the synthetic PI triggered a lower reprogramming than SKTI. Furthermore, Berenil also promoted higher reduction on midgut protease activity at first times of PI treatment. Molecular modelling of the interactions between the identified proteases and PIs indicated that Berenil can interact with the trypsin enzymes and access to a more hydrophobic site promoting the inhibitory effect on serine proteases. Besides, its inhibitory capacity and structural damage on the midgut cells was sped up possibly by the delay in the expression of proteases, the reprogramming less extensive and the lower expression of upregulated isoforms. Thus, the integration of our results shows that the use of synthetic PIs, such as Berenil, can be efficient for the management of A. gemmatalis.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Extensive reprogramming of protein isoforms and histopathological alterations in the midgut of Anticarsia gemmatalis fed with protease inhibitors

Coura

Silva

Meriño‐Cabrera

et al. 2021

Annals of Applied Biology

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“…The inhibitory effect of the peptides (GORE1 and GORE2) was studied for 12 days at room temperature (25–30°C). All the experimental analyzes were compared with the known trypsin inhibitor Soybean Kunitz trypsin inhibitor (SKTI), was used because it is a stable protein that under physiological conditions binds to the active site of tipsins of soybean pests such as A. gemmatalis and has been characterized by being a competitive inhibitor (Koide et al, 1973; Patarroyo‐Vargas et al, 2020). Three aqueous solutions (6.5 mg/ml) of inhibitors were prepared.…”

Section: Methodsmentioning

confidence: 99%

Inhibition constant and stability of tripeptide inhibitors of gut trypsin‐like enzyme of the soybean pest Anticarsia gemmatalis

Barros

Meriño‐Cabrera

Castro

et al. 2022

Arch Insect Biochem Physiol

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Insects overcome the action of natural protease inhibitors (PIs) due to evolutionary adaptations through endogenous proteolysis and reprogramming proteases. Insect adaptations complicate the formulation of IP‐based crop protection products. However, small peptides designed based on the active site of enzymes have shown promising results that could change this scenario. GORE1 and GORE2 are designed tripeptides that reduce the survival of Anticarsia gemmatalis when ingested orally. In this article, the stability and ability of the peptides to bind trypsin‐like enzymes of A. gemmatalis were evaluated by molecular dynamics (MD) simulations. The ability of the peptides to inhibit trypsin‐like enzymes in vivo was compared with the SKTI protein by feeding A. gemmatalis larvae at different concentrations, followed by an inhibition persistence assay. During the MD simulation of enzyme–ligand complexes, both peptides showed a small variation of root‐mean‐square deviation and root‐mean‐square fluctuation, suggesting that these molecules reach equilibrium when forming a complex with the trypsin‐like enzyme. Furthermore, both peptides form hydrogen bonds with substrate recognition sites of A. gemmatalis trypsin‐like enzyme, with GORE2 having more interactions than GORE1. Larvae of A. gemmatalis exposed to the peptides and SKTI showed a similar reduction in proteolytic activity, but the persistence of inhibition of trypsin‐like enzyme was longer in peptide‐fed insects. Despite their size, the peptides exhibit important active and substrate binding site interactions, stability during complex formation, and steadiness effects in vivo. The results provide fundamental information for the development of mimetic molecules and help in decision‐making for the selection of delivery methods for larger‐scale experiments regarding similar molecules.

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