Sociedad Americana de Hirudoterapia

The full-length cDNA of anticoagulant protein infestin revealed a novel releasable Kazal domain, a neutrophil elastase inhibitor lacking anticoagulant activity

Research article published in Biochimie (2006)

Última actualización: June 18, 2026Revisado por: ASH Editorial Board
Research article — evidence reviewArticle reference
Evidence: Preclinical (animal)Desarrollo de fármacosLovato et al. · Biochimie, 2006

Abstract

Infestins are Kazal-type serine proteinase inhibitors found in the midgut of the Chagas' disease vector, Triatoma infestans. In previous studies, we characterized two double-headed infestins with potent anticoagulant activity; infestin 1-2, which inhibits thrombin and infestin 3-4, a factor XIIa inhibitor. In the present work, we have cloned the full-length cDNA of infestins' precursor. The translated cDNA predicted a polypeptide containing a signal peptide and seven Kazal-type domains, four domains from infestin 1-2 and infestin 3-4, and three new domains. Northern blot analysis confirmed that infestins are synthesized in a single transcript (approximately 1,800 bp) in the insect midgut, but not in salivary glands. Based on the cDNA sequence, the three new Kazal domains were named infestin 1R, 2R and 3R. Infestin 2R-3R has 77% amino acid sequence identity to infestin 1-2 and the same basic amino acid residue at P1 position in the inhibitory reactive site suggesting that these two proteins have a similar inhibitory specificity. In contrast, infestin 1R has two different characteristics when compared to the other infestins: i) a hydrophobic amino acid residue at P1 position in the inhibitory reactive site and ii) a prediction to be processed as a single Kazal domain. These two characteristics were experimentally demonstrated by the purification of native infestin 1R from T. infestans midgut. Native infestin 1R was shown to be processed as a single Kazal domain by mass spectrometry and it was able to inhibit neutrophil elastase, subtilisin A and chymotrypsin. To further characterize infestin 1R inhibitory activity, it was expressed as a recombinant protein in bacteria. Recombinant infestin 1R inhibited neutrophil elastase with the same K(i) of the native inhibitor. Moreover, it inhibited subtilisin A, chymotrypsin and proteinase K but did inhibit neither thrombin nor coagulation assays. In conclusion, unlike the other described infestins, infestin 1R did not present anticoagulant activity and is processed as a single Kazal domain with inhibitory specificity towards proteases that hydrolyze peptide bonds after hydrophobic amino acid residues.

Abstract sourced from PubMed (NCBI) for the cited record. See the original publication for the authoritative version.

Publication typeJournal ArticleResearch Support, Non-U.S. Gov't
Indexed MeSH termsAmino Acid SequenceAnimalsAnticoagulantsBase SequenceChagas DiseaseCloning, MolecularDNA, ComplementaryGenes, InsectInsect ProteinsInsect VectorsMolecular Sequence DataProtein Structure, Tertiary

Resumen

Peer-reviewed research on anticoagulant and antithrombotic drug development relevant to thrombin and factor inhibition. Indexed in PubMed and verified against the NCBI record.

Por qué esto importa para la hirudoterapia

Este estudio molecular clonó el cDNA de longitud completa del precursor de la infestina del intestino medio del vector de la enfermedad de Chagas Triatoma infestans, revelando un polipéptido con siete dominios de tipo Kazal e identificando tres dominios nuevos; se demostró que uno de ellos, la infestina 1R, inhibe la elastasa neutrofílica, la subtilisina A, la quimotripsina y la proteinasa K pero, a diferencia de las otras infestinas, carece de actividad anticoagulante (no inhibió la trombina ni afectó los ensayos de coagulación). Para ASH, este es un caso de advertencia sobre la nomenclatura/fuente: las infestinas provienen de un INSECTO hematófago, no de una sanguijuela Hirudo medicinalis/verbana, por lo que el artículo no debe presentarse como evidencia para la terapia con sanguijuelas medicinales. Su valor legítimo es comparativo: ilustra cómo los animales hematófagos evolucionan familias de inhibidores de proteasas de tipo Kazal con especificidades distintas y ajustables (anticoagulantes frente a dirigidas a la elastasa), lo cual es paralelo a la diversidad observada en el secretoma de la sanguijuela e informa la narrativa más amplia del descubrimiento de fármacos en torno a los inhibidores derivados de animales hematófagos. Advertencia honesta: se trata de un trabajo de clonación molecular y especificidad enzimática in-vitro sin resultados animales o clínicos, y no se involucra material de sanguijuela.

Citación

The full-length cDNA of anticoagulant protein infestin revealed a novel releasable Kazal domain, a neutrophil elastase inhibitor lacking anticoagulant activity.

Lovato et al. · Biochimie, 2006

Contexto clínico relacionado

Añadido a la biblioteca ASH: May 28, 2026 · Última actualización del sitio: June 18, 2026

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