Deep profiling of the cleavage specificity and human substrates of snake venom metalloprotease HF3 by proteomic identification of cleavage site specificity (PICS) using proteome derived peptide libraries and terminal amine isotopic labeling of substrates (TAILS) n-terminomics

Snakebite is a major medical concern in many parts of the world with metalloproteases playing important roles in the pathological effects of Viperidae venoms, including local tissue damage, hemorrhage, and coagulopathy. Hemorrhagic Factor 3 (HF3), a metalloprotease from Bothrops jararaca venom, induces local hemorrhage and targets extracellular matrix (ECM) components, including collagens and proteoglycans, and plasma proteins. However, the full substrate repertoire of this metalloprotease is unknown. We report positional proteomic studies identifying >2000 N-termini, including neo-N-termini of HF3 cleavage sites in mouse embryonic fibroblast secretome proteins. Terminal amine isotopic labeling of substrates (TAILS) analysis identified a preference for Leu at the P1′ position among candidate HF3 substrates including proteins of the ECM and focal adhesions and the cysteine protease inhibitor cystatin-C. Interestingly, 190 unique peptides matched to annotated cleavage sites in the TopFIND N-termini database, suggesting that these cleavages occurred at a site prone to cleavage or might have been generated by other proteases activated upon incubation with HF3, including caspases-3 and -7, cathepsins D and E, granzyme B, and MMPs 2 and 9. Using Proteomic identification of cleavage site specificity (PICS), a tryptic library derived from THP-1 monocytic cells was used as HF3 substrates for identifying protease cleavage sites and sequence preferences in peptides. A total of 799 unique cleavage sites were detected and, in accordance with TAILS analysis using native secreted protein substrates of MEF cells, revealed a clear preference for Leu at P1′. Taken together, these results greatly expand the known substrate degradome of HF3 and reveal potential new targets, which may serve as a basis to better elucidate the complex pathophysiology of snake envenomation.

Proteômica e transcriptômica aplicadas ao estudo da variabilidade do veneno Bothrops jararaca ( Serpentes Viperidae) / A proteomics and transcriptomics applied to the study of Bothrops jararaca venom variability ( Serpentes viperidae)

Estudos prévios demonstram que as atividades biológicas do veneno da serpente Bothrops jararaca sofrem significantes modificações ontogenéticas. Neste estudo é apresentada uma análise comparativa do proteoma, peptidoma e transcriptoma da glândula de veneno de filhotes e adultos de B. jararaca, correlacionando os resultados obtidos com algumas catacterísticas funcionais dos venenos...

Previous studies have demonstrated that the biological activities displayed by the venom of snake Bothrops jararaca undergo a significant ontogenic shift. In this investigation, we performed comparative proteomic, peptidomic and transcriptomic analyses of venoms and venom glands from newborn and adult specimens of B. jararaca and correlated the results with the evaluation of functional venom features...

Proteômica e transcriptômica aplicadas ao estudo da variabilidade do veneno de Bothrops jararaca (serpentes:viperidae) / Proteomics and transcriptomics applied to the study of Bothrops jararaca venom variability (Serpentes: Viperidae)

Estudos prévios demonstraram que as atividades biológicas do veneno da serpente Bothrops jararaca sofrem significantes modificações ontogenéticas. Neste estudo é apresentada uma análise comparativa do proteoma, peptidoma e transcriptoma da glândula de veneno de filhotes e adultos de B. jararaca, correlacionando os resultados obtidos com algumas características funcionais dos venenos. Venenos de 694 filhotes de até duas semanas de idade e 110 adultos, provenientes do Estado de São Paulo foram extraídos e liofilizados para as análises proteômicas/peptidômicas e funcionais. O mRNA de glândulas de veneno de 20 filhotes e 10 adultos foi obtido para a contrução de bibliotecas de cDNA e a análise de Expressed Sequence Tag (ESTs). Demonstramos que a atividade hemorrágica é similar para os venenos de filhotes e adultos, enquanto que o veneno de adultos é discretamente mais letal para camundongos; entretanto, o veneno de filhotes mostrou-se extremamente mais letal para aves, uma característica que pode garantir proteção contra potenciais predadores nas fases iniciais de vida da espécie. A atividade coagulante do veneno de filhotes é cerca de 10 vezes mais alta que aquela verificada para o veneno de adultos e é atribuída sobretudo à atividade de metaloproteinases. Essas diferenças nas atividades funcionais se refletiram nos diferentes perfis verificados por eletroforese bidimensional e identificação de spots de proteínas por digestão tripsínica in-gel seguida de análise por cromatografia líquida acoplada à espectrometria de massas em tandem, zimografia com gelatina, imunocoloração utilizando anticorpos específicos anti-proteinases, e glicoproteínas com afinidade pela concanavalina -A. A comparação dos venenos por derivatização com tags isóbaros (iTRAQ) e a análise das ESTs revelaram diferenças claras entre os níveis de toxinas presentes nos venenos e as metaloproteinases foram a classe de toxinas mais expressa, além de serem as toxinas cujos perfis estruturais ...

Previous studies have demonstrated that the biological activities displayed by the venom of the snake Bothrops jararaca undergo a significant ontogenetic shift. In this investigation, we performed comparative proteomic, peptidomic and transcriptomic analyses of venoms and venom glands from newborn and adult specimens of B. jararaca and correlated the results with the evaluation of functional venom features. Venoms from 694 two-week old newborns and 110 adults from São Paulo state were milked and lyophilized for functional and proteomic/peptidomic analyses. Additionally, mRNA was obtained from the venom glands of 20 newborns and 10 adults and used for the construction of cDNA libraries and Expressed Sequence Tag (ESTs). We demonstrate that newborn and adult venoms have similar hemorrhagic activities, while the adult venom has a slightly higher lethal activity upon mice; however, the newborn venom is extremely more potent to kill chicks, a feature that might ensure protection against potential predators in early stages of B. jararaca life. Interestingly, the coagulant activity of the newborn venom upon human plasma is ten times higher than that of the adult venom and is contributed mainly by metalloproteinases. Differences in functional activities were clearly reflected in the venom different profiles of two-dimensional gel electrophoresis (2D-PAGE) and protein spot identification by in-gel trypsin digestion followed by liquid chromatography and tandem mass spectrometry (LC-MS/MS), gelatin zimography, immunostaining using specific anti-proteinase antibodies, and concanavalin A-binding proteins. The venom comparison by isobaric tag peptide labeling (iTRAQ) and ESTs analysis revealed clear differences in toxin levels. The metalloproteinases were detected as the toxin class most expressed in the venoms in addition to being the toxins whose structural profile most changed, as illustrated by the ratio P-III/P-I class being higher in newborn venoms. Sexual ...

Bothrops jararaca venom proteome rearrangement upon neonate to adult transition

The pharmacological activities displayed by Bothrops jararaca venom undergo a significant ontogenetic shift. Similarly, the diet of this species changes from ectothermic prey in early life to endothermic prey in adulthood. In this study we used large and representative newborn and adult venom samples consisting of pools from 694 and 110 specimens, respectively, and demonstrate a significant ontogenetic shift in the venom proteome complexity of B. jararaca. 2‐DE coupled to MS protein identification showed a clear rearrangement of the toxin arsenal both in terms of the total proteome, as of the glycoproteome. N‐glycosylation seems to play a key role in venom protein variability between newborn and adult specimens. Upon the snake development, the subproteome of metalloproteinases undergoes a shift from a P‐III‐rich to a P‐I‐rich profile while the serine proteinase profile does not vary significantly. We also used isobaric tag labeling (iTRAQ) of venom tryptic peptides for the first time to examine the quantitative changes in the venom toxins of B. jararaca upon neonate to adult transition. The iTRAQ analysis showed changes in various toxin classes, especially the proteinases. Our study expands the in‐depth understanding of venom complexity variation particularly with regard to toxin families that have been associated with envenomation pathogenesis.