Martín Fló scite author profile

The cestode Echinococcus granulosus, the agent of hydatidosis/echinococcosis, is remarkably well adapted to its definitive host. However, the molecular mechanisms underlying the successful establishment of larval worms (protoscoleces) in the dog duodenum are unknown. With the aim of identifying molecules participating in the E. granulosus-dog cross-talk, we surveyed the transcriptomes of protoscoleces and protoscoleces treated with pepsin at pH 2. This analysis identified a multigene family of secreted monodomain Kunitz proteins associated mostly with pepsin/H+-treated worms, suggesting that they play a role at the onset of infection. We present the relevant molecular features of eight members of the E. granulosus Kunitz family (EgKU-1 – EgKU-8). Although diverse, the family includes three pairs of close paralogs (EgKU-1/EgKU-4; EgKU-3/EgKU-8; EgKU-6/EgKU-7), which would be the products of recent gene duplications. In addition, we describe the purification of EgKU-1 and EgKU-8 from larval worms, and provide data indicating that some members of the family (notably, EgKU-3 and EgKU-8) are secreted by protoscoleces. Detailed kinetic studies with native EgKU-1 and EgKU-8 highlighted their functional diversity. Like most monodomain Kunitz proteins, EgKU-8 behaved as a slow, tight-binding inhibitor of serine proteases, with global inhibition constants (K I *) versus trypsins in the picomolar range. In sharp contrast, EgKU-1 did not inhibit any of the assayed peptidases. Interestingly, molecular modeling revealed structural elements associated with activity in Kunitz cation-channel blockers. We propose that this family of inhibitors has the potential to act at the E. granulosus-dog interface and interfere with host physiological processes at the initial stages of infection.

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Identification of Thioredoxin Glutathione Reductase Inhibitors That Kill Cestode and Trematode Parasites

Ross

Hernández

Porcal

et al. 2012

PLoS ONE

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Parasitic flatworms are responsible for serious infectious diseases that affect humans as well as livestock animals in vast regions of the world. Yet, the drug armamentarium available for treatment of these infections is limited: praziquantel is the single drug currently available for 200 million people infected with Schistosoma spp. and there is justified concern about emergence of drug resistance. Thioredoxin glutathione reductase (TGR) is an essential core enzyme for redox homeostasis in flatworm parasites. In this work, we searched for flatworm TGR inhibitors testing compounds belonging to various families known to inhibit thioredoxin reductase or TGR and also additional electrophilic compounds. Several furoxans and one thiadiazole potently inhibited TGRs from both classes of parasitic flatworms: cestoda (tapeworms) and trematoda (flukes), while several benzofuroxans and a quinoxaline moderately inhibited TGRs. Remarkably, five active compounds from diverse families possessed a phenylsulfonyl group, strongly suggesting that this moiety is a new pharmacophore. The most active inhibitors were further characterized and displayed slow and nearly irreversible binding to TGR. These compounds efficiently killed Echinococcus granulosus larval worms and Fasciola hepatica newly excysted juveniles in vitro at a 20 µM concentration. Our results support the concept that the redox metabolism of flatworm parasites is precarious and particularly susceptible to destabilization, show that furoxans can be used to target both flukes and tapeworms, and identified phenylsulfonyl as a new drug-hit moiety for both classes of flatworm parasites.

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Tuned Escherichia coli as a host for the expression of disulfide‐rich proteins

Salinas

Pellizza

Margenat

et al. 2011

Biotechnology Journal

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Disulfide-bond formation is a major post-translational modification and is essential for protein folding, stability, and function. This is especially true for secreted proteins, many of which possess great potential for biotechnological applications. Focusing on the use of Escherichia coli for the production of this class of proteins, we describe the mechanisms that maintain redox compartmentalization in the cell, with an emphasis on those that promote the formation and isomerization of disulfide bonds in the bacterial periplasm, while presenting parallel pathways in the eukaryotic endoplasmic reticulum. Based on these concepts, we review the use of E. coli as a cell factory for the production of heterologous disulfide-containing proteins using either peri- or cytoplasmic expression and, in particular, how these compartments can be tuned to improve the yield of correctly folded recombinant proteins. Finally, we describe a few examples of the production of small disulfide-rich proteins (protease inhibitors) to illustrate how soluble, active, and fully oxidized recombinants may be successfully obtained upon peri- or cytoplasmic expression in E. coli.

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Selenosemicarbazones as potent cruzipain inhibitors and their antiparasitic properties against Trypanosoma cruzi

et al. 2012

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The cysteine protease cruzipain is an essential T. cruzi enzyme and one of the few validated drug targets for Chagas disease. Thiosemicarbazones have been described as cruzipain inhibitors. While searching for new antichagasic drugs, we synthesized a series of selenosemicarbazone analogs and demonstrated that the isosteric replacement of the sulfur atom with selenium resulted in an enhancement of the cysteine protease inhibitory effect. Three selenosemicarbazones were characterized enzymatically and proved to be reversible, slow-binding inhibitors for the Z-Phe-Arg-AMC substrate. Their K I values were in the low nM range (3.7 to 29.7 nM), suggesting a strong interaction with the enzyme, approaching a tight binding definition. All selenosemicarbazones tested showed better activities against epimastigotes than Benznidazole, the currently used drug, with IC 50 values ranging from 1.2 to 5.9 mM (Bnz IC 50 ¼ 12.5 mM). Three of these compounds showed a better Selectivity Index (SI) than Benznidazole. These compounds also displayed activity against the infective intracellular amastigote form at low micromolar range. Overall, our results support the role of these novel organoselenium compounds as promising lead candidates for further drug development studies.

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α-Dendrotoxin inhibits the ASIC current in dorsal root ganglion neurons from rat

Báez

Salceda

Fló

et al. 2015

Neuroscience Letters

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Functional diversity of secreted cestode Kunitz proteins: Inhibition of serine peptidases and blockade of cation channels

et al. 2017

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We previously reported a multigene family of monodomain Kunitz proteins from Echinococcus granulosus (EgKU-1-EgKU-8), and provided evidence that some EgKUs are secreted by larval worms to the host interface. In addition, functional studies and homology modeling suggested that, similar to monodomain Kunitz families present in animal venoms, the E. granulosus family could include peptidase inhibitors as well as channel blockers. Using enzyme kinetics and whole-cell patch-clamp, we now demonstrate that the EgKUs are indeed functionally diverse. In fact, most of them behaved as high affinity inhibitors of either chymotrypsin (EgKU-2-EgKU-3) or trypsin (EgKU-5-EgKU-8). In contrast, the close paralogs EgKU-1 and EgKU-4 blocked voltage-dependent potassium channels (Kv); and also pH-dependent sodium channels (ASICs), while showing null (EgKU-1) or marginal (EgKU-4) peptidase inhibitory activity. We also confirmed the presence of EgKUs in secretions from other parasite stages, notably from adult worms and metacestodes. Interestingly, data from genome projects reveal that at least eight additional monodomain Kunitz proteins are encoded in the genome; that particular EgKUs are up-regulated in various stages; and that analogous Kunitz families exist in other medically important cestodes, but not in trematodes. Members of this expanded family of secreted cestode proteins thus have the potential to block, through high affinity interactions, the function of host counterparts (either peptidases or cation channels) and contribute to the establishment and persistence of infection. From a more general perspective, our results confirm that multigene families of Kunitz inhibitors from parasite secretions and animal venoms display a similar functional diversity and thus, that host-parasite co-evolution may also drive the emergence of a new function associated with the Kunitz scaffold.

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Humoral immune response characterization of heterologous prime-boost vaccination with CoronaVac and BNT162b2

Rammauro

Carrión

Olivero-Deibe

et al. 2022

Vaccine

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Expression, purification and initial characterization of human serum albumin domain I and its cysteine 34

et al. 2020

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Human serum albumin presents in its primary structure only one free cysteine (Cys34) which constitutes the most abundant thiol of plasma. An antioxidant role can be attributed to this thiol, which is located in domain I of the protein. Herein we expressed domain I as a secretion protein using the yeast Pichia pastoris. In the initial step of ammonium sulfate precipitation, a brown pigment co-precipitated with domain I. Three chromatographic methods were evaluated, aiming to purify domain I from the pigment and other contaminants. Purification was achieved by cation exchange chromatography. The protein behaved as a noncovalent dimer. The primary sequence of domain I and the possibility of reducing Cys34 to the thiol state while avoiding the reduction of internal disulfides were confirmed by mass spectrometry. The reactivity of the thiol towards the disulfide 5,5´-dithiobis(2-nitrobenzoate) was studied and compared to that of full-length albumin. A~24-fold increase in the rate constant was observed for domain I with respect to the entire protein. These results open the door to further characterization of the Cys34 thiol and its oxidized derivatives.

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Martín Fló

A Family of Diverse Kunitz Inhibitors from Echinococcus granulosus Potentially Involved in Host-Parasite Cross-Talk

Identification of Thioredoxin Glutathione Reductase Inhibitors That Kill Cestode and Trematode Parasites

Tuned Escherichia coli as a host for the expression of disulfide‐rich proteins

Selenosemicarbazones as potent cruzipain inhibitors and their antiparasitic properties against Trypanosoma cruzi

α-Dendrotoxin inhibits the ASIC current in dorsal root ganglion neurons from rat

Functional diversity of secreted cestode Kunitz proteins: Inhibition of serine peptidases and blockade of cation channels

Humoral immune response characterization of heterologous prime-boost vaccination with CoronaVac and BNT162b2

Expression, purification and initial characterization of human serum albumin domain I and its cysteine 34

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