Federico Carrión scite author profile

Single-domain antibodies (sdAbs) found in camelids, lack a light chain and their antigen-binding site sits completely in the heavy-chain variable domain (VHH). Their simplicity, thermostability, and ease in expression have made VHHs highly attractive. While this has been successfully exploited for macromolecular antigens, their application to the detection of small molecules is still limited to a very few reports, mostly describing low affinity VHHs. Using triclocarban (TCC) as a model hapten, we found that conventional antibodies, IgG1 fraction, reacted with free TCC with a higher relative affinity (IC50 51.0 ng/mL) than did the sdAbs (IgG2 and IgG3, 497 and 370 ng/mL, respectively). A VHH library was prepared, and by elution of phage with limiting concentrations of TCC and competitive selection of binders, we were able to isolate high-affinity clones, KD 0.98–1.37 nM (SPR) which allowed development of a competitive assay for TCC with an IC50 = 3.5 ng/mL (11 nM). This represents a 100-fold improvement with regard to the performance of the sdAb serum fraction, and it is 100-fold better than the IC50 attained with other anti-hapten VHHs reported thus far. Despite the modest overall anti-hapten sdAbs response in llamas, a small subpopulation of high affinity VHHs are generated that can be isolated by carefully design of the selection process.

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Mechanistic and biological characterisation of novelN⁵-substituted paullones targeting the biosynthesis of trypanothione inLeishmania

Medeiros

Benítez

Ferreira

et al. 2020

Journal of Enzyme Inhibition and Medicinal Chemistry

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Trypanothione synthetase (TryS) produces N 1 ,N 8-bis(glutathionyl)spermidine (or trypanothione) at the expense of ATP. Trypanothione is a metabolite unique and essential for survival and drug-resistance of trypanosomatid parasites. In this study, we report the mechanistic and biological characterisation of optimised N 5-substituted paullone analogues with anti-TryS activity. Several of the new derivatives retained submicromolar IC 50 against leishmanial TryS. The binding mode to TryS of the most potent paullones has been revealed by means of kinetic, biophysical and molecular modelling approaches. A subset of analogues showed an improved potency (EC 50 0.5-10 mM) and selectivity (20-35) against the clinically relevant stage of Leishmania braziliensis (mucocutaneous leishmaniasis) and L. infantum (visceral leishmaniasis). For a selected derivative, the mode of action involved intracellular depletion of trypanothione. Our findings shed light on the molecular interaction of TryS with rationally designed inhibitors and disclose a new set of compounds with on-target activity against different Leishmania species.

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A detailed molecular analysis of complete Bovine Leukemia Virus genomes isolated from B-cell lymphosarcomas

Moratorio

Fischer

Bianchi

et al. 2013

Vet Res

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It is widely accepted that the majority of cancers result from multiple cellular events leading to malignancy after a prolonged period of clinical latency, and that the immune system plays a critical role in the control of cancer progression. Bovine leukemia virus (BLV) is an oncogenic member of the Retroviridae family. Complete genomic sequences of BLV strains isolated from peripheral blood mononuclear cells (PBMC) from cattle have been previously reported. However, a detailed characterization of the complete genome of BLV strains directly isolated from bovine tumors is much needed in order to contribute to the understanding of the mechanisms of leukemogenesis induced by BLV in cattle. In this study, we performed a molecular characterization of BLV complete genomes from bovine B-cell lymphosarcoma isolates. A nucleotide substitution was found in the glucocorticoid response element (GRE) site of the 5' long terminal repeat (5'LTR) of the BLV isolates. All amino acid substitutions in Tax previously found to be related to stimulate high transcriptional activity of 5'LTR were not found in these studies. Amino acid substitutions were found in the nucleocapsid, gp51 and G4 proteins. Premature stop-codons in R3 were observed. Few mutations or amino acid substitutions may be needed to allow BLV provirus to achieve silencing. Substitutions that favor suppression of viral expression in malignant B cells might be a strategy to circumvent effective immune attack.

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New substrates and interactors of the mycobacterial Serine/Threonine protein kinase PknG identified by a tailored interactomic approach

Gil

Lima

Rivera

et al. 2019

Journal of Proteomics

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PknG from Mycobacterium tuberculosis is a multidomain Serine/Threonine protein kinase that regulates bacterial metabolism as well as the pathogen's ability to survive inside the host by still uncertain mechanisms. To uncover PknG interactome we developed an affinity purification-mass spectrometry strategy to stepwise recover PknG substrates and interactors; and to identify those involving PknG autophosphorylated docking sites. We report a confident list of 7 new putative substrates and 66 direct or indirect partners indicating that PknG regulates many physiological processes, such as nitrogen and energy metabolism, cell wall synthesis and protein translation. GarA and the 50S ribosomal protein L13, two previously reported substrates of PknG, were recovered in our interactome. Comparative proteome analyses of wild type and pknG null mutant M. tuberculosis strains provided evidence that two kinase interactors, the FHA-domain containing protein GarA and the enzyme glutamine synthetase, are indeed endogenous substrates of PknG, stressing the role of this kinase in the regulation of nitrogen metabolism. Interestingly, a second FHA protein was identified as a PknG substrate. Our results show that PknG phosphorylates specific residues in both glutamine synthetase and FhaA in vitro, and suggest that these proteins are phosphorylated by PknG in living mycobacteria.

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Conformational plasticity of a native retroviral capsid revealed by x-ray crystallography

Obal

Trajtenberg

Carrión

et al. 2015

Science

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Retroviruses depend on self-assembly of their capsid proteins (core particle) to yield infectious mature virions. Despite the essential role of the retroviral core, its high polymorphism has hindered high-resolution structural analyses. Here, we report the x-ray structure of the native capsid (CA) protein from bovine leukemia virus. CA is organized as hexamers that deviate substantially from sixfold symmetry, yet adjust to make two-dimensional pseudohexagonal arrays that mimic mature retroviral cores. Intra- and interhexameric quasi-equivalent contacts are uncovered, with flexible trimeric lateral contacts among hexamers, yet preserving very similar dimeric interfaces making the lattice. The conformation of each capsid subunit in the hexamer is therefore dictated by long-range interactions, revealing how the hexamers can also assemble into closed core particles, a relevant feature of retrovirus biology.

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