Resumo
Background: Lethal factors are multifunctional oligomeric proteins found in the venomous apparatus of Scorpaeniformes fish. These toxins elicit not only an array of biological responses in vitro but also cardiovascular disorders and strong hemolytic, nociceptive and edematogenic activities in vivo. This work describes the cloning and molecular identification of two toxin subunits, denominated Sp-CTx- and Sp-CTx-, from scorpionfish venom ( Scorpaena plumieri ). Methods: The primary structures were deduced after cDNA amplification by PCR with primers from conserved sequences described in Scorpaeniformes toxins. Following DNA sequencing and bioinformatic analysis, the tridimensional structures of both subunits were modeled. Results: The translated sequences (702 amino acids, each subunit) show homology with other lethal factors, while alignment between Sp-CTx- and Sp-CTx- shows 54% identity. The subunits lack N-terminal signal sequences and display masses of approximately 80 kDa each. Both Sp-CTx subunits display a B30.2/SPRY domain at the C-terminal region with typically conserved motifs as described in these toxins. Secondary structure prediction identified six -helices 18 residues long in both and subunits, some of them amphiphilic with their N-terminal flanked by many basic residues, creating a cationic site associated with the cytolytic activity of these toxins. Antimicrobial potential sites were identified in Sp-CTx and share some features with other peptides presenting variable and broad-spectrum activity...(AU)
Assuntos
Animais , Peixes Venenosos , Venenos de Peixe/química , DNA Complementar/análiseResumo
Background: Lethal factors are multifunctional oligomeric proteins found in the venomous apparatus of Scorpaeniformes fish. These toxins elicit not only an array of biological responses in vitro but also cardiovascular disorders and strong hemolytic, nociceptive and edematogenic activities in vivo. This work describes the cloning and molecular identification of two toxin subunits, denominated Sp-CTx- and Sp-CTx-, from scorpionfish venom ( Scorpaena plumieri ). Methods: The primary structures were deduced after cDNA amplification by PCR with primers from conserved sequences described in Scorpaeniformes toxins. Following DNA sequencing and bioinformatic analysis, the tridimensional structures of both subunits were modeled. Results: The translated sequences (702 amino acids, each subunit) show homology with other lethal factors, while alignment between Sp-CTx- and Sp-CTx- shows 54% identity. The subunits lack N-terminal signal sequences and display masses of approximately 80 kDa each. Both Sp-CTx subunits display a B30.2/SPRY domain at the C-terminal region with typically conserved motifs as described in these toxins. Secondary structure prediction identified six -helices 18 residues long in both and subunits, some of them amphiphilic with their N-terminal flanked by many basic residues, creating a cationic site associated with the cytolytic activity of these toxins. Antimicrobial potential sites were identified in Sp-CTx and share some features with other peptides presenting variable and broad-spectrum activity...
Assuntos
Animais , DNA Complementar/análise , Peixes Venenosos , Venenos de Peixe/químicaResumo
The most poisonous fish species found along the Brazilian coast is the spotted scorpionfish Scorpaena plumieri. Though hardly ever life-threatening to humans, envenomation by S. plumieri can be quite hazardous, provoking extreme pain and imposing significant socioeconomic costs, as the victims may require days to weeks to recover from their injuries. In this review we will walk the reader through the biological features that distinguish this species as well as the current epidemiological knowledge related to the envenomation and its consequences. But above all, we will discuss the challenges involved in the biochemical characterization of the S. plumieri venom and its compounds, focusing then on the successful isolation and pharmacological analysis of some of the bioactive molecules responsible for the effects observed upon envenomation as well as on experimental models. Despite the achievement of considerable progress, much remains to be done, particularly in relation to the non-proteinaceous components of the venom. Therefore, further studies are necessary in order to provide a more complete picture of the venom's chemical composition and physiological effects. Given that fish venoms remain considerably less studied when compared to terrestrial venoms, the exploration of their full potential opens a myriad of possibilities for the development of new drug leads and tools for elucidating the complex physiological processes.(AU)
Assuntos
Animais , Peptídeo Hidrolases , Venenos de Peixe/toxicidade , Peixes , InflamaçãoResumo
Species of the family Scorpaenidae are responsible for accidents and sporadic casualties by the shore they inhabit. The species Scorpaena plumieri from this family populate the Northeastern and Eastern coast of Brazil causing human envenomation characterized by local and systemic symptoms. In experimental animals the venom induces cardiotoxic, hypotensive, and airway respiratory effects. As first step to identify the venom components we isolated gland mRNA to produce a cDNA library from the fish gland. This report describes the partial sequencing of 356 gland transcripts from S. plumieri. BLAST analysis of transcripts showed that 30% were unknown sequences, 17% hypothetical proteins, 17% related to metabolic enzymes, 14% belonged to signal transducing functions and the remaining groups (7-8%) composed by gene related with expressing proteins, regulatory proteins and structural proteins. A considerable number of these EST were not found in available databases suggesting the existence of new proteins and/or functions yet to be discovered. By screening the library with antibodies against a lectin fraction from S. plumieri venom we identified several clones whose DNA sequence showed similarities with lectins found in fish. In silico analysis of these clones confirm the identity of these molecules in the venom gland of S. plumieri. .(AU)
Espécies da família Scorpaenidae são responsáveis por acidentes e mortes esporádicas ao longo da costa que habitam. A espécie Scorpaena plumieri desta família povoam a costa Leste e Nordeste do Brasil, causando envenenamento humano caracterizado por sintomas locais e sistêmicos. Em modelos experimentais animais a peçonha induz cardiotoxicidade, efeitos hipotensivos e alterações nas vias aéreas respiratórias. Como primeiro passo para identificar os componentes da peçonha foram isolados os mRNA das glândulas do peixe para produzir uma biblioteca de cDNAs. Esse artigo descreve o sequenciamento parcial de 356 transcritos das glândulas de S. plumieri. Análises em bancos de dados (BLAST) dos transcritos demonstraram que 30% eram sequências desconhecidas, 17% proteínas hipotéticas, 17% relacionadas às enzimas do metabolismo, 14% pertenciam a funções de transdução de sinais e os demais grupos (7-8%) formados por genes relacionados com a expressão de proteínas, proteínas regulatórias e estruturais. Um número considerável destes EST não foi encontrado em bases de dados disponíveis, sugerindo a existência de novas proteínas e/ou funções ainda a serem descobertas. Ao fazer um barrido da biblioteca com anticorpos produzidos contra uma fração das lectinas do veneno de S. plumieri, identificamos vários clones, cuja sequência de DNA mostram semelhanças com lectinas encontradas em peixes. A análise in silico destes clones confirmam a identidade destas moléculas na glândula de peçonha de S. plumieri.(AU)