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1.
Biochim Biophys Acta Biomembr ; 1866(8): 184389, 2024 12.
Article de Anglais | MEDLINE | ID: mdl-39378913

RÉSUMÉ

Acetylcholinesterase (AChE) plays a pivotal role in the cholinergic system, and its inhibition is sought after in a wide range of applications, from insect control to Alzheimer's disease treatment. While the primary physiological isoforms of AChE are membrane-bound proteins, most assays for discovering new, safer, and potent inhibitors are conducted using commercially available soluble isoforms, such as the electric eel AChE (eeAChE). In this study, we conducted a comparative analysis of the activity and selectivity to phenolic inhibitors of recombinant human AChE, eeAChE and a mutant variant of human AChE known as dAChE4. Despite numerous mutations, dAChE4 closely resembles its parental protein and serves as a suitable model for monomeric human AChE. We also established an in vitro system of membrane-bound AChE to create a model that closely mimics the physiological isoforms. This system ensures the proper work of the enzyme and allowed us to control the exact concentration of enzyme and lipids per assay.


Sujet(s)
Acetylcholinesterase , Anticholinestérasiques , Acetylcholinesterase/métabolisme , Acetylcholinesterase/composition chimique , Anticholinestérasiques/pharmacologie , Anticholinestérasiques/composition chimique , Humains , Animaux , Phénols/pharmacologie , Phénols/composition chimique , Electrophorus , Protéines recombinantes/métabolisme , Protéines recombinantes/génétique , Protéines recombinantes/composition chimique , Nanostructures/composition chimique
2.
Int J Mol Sci ; 25(14)2024 Jul 19.
Article de Anglais | MEDLINE | ID: mdl-39063171

RÉSUMÉ

Lipases are enzymes that hydrolyze long-chain carboxylic esters, and in the presence of organic solvents, they catalyze organic synthesis reactions. However, the use of solvents in these processes often results in enzyme denaturation, leading to a reduction in enzymatic activity. Consequently, there is significant interest in identifying new lipases that are resistant to denaturing conditions, with extremozymes emerging as promising candidates for this purpose. Lip7, a lipase from Geobacillus sp. ID17, a thermophilic microorganism isolated from Deception Island, Antarctica, was recombinantly expressed in E. coli C41 (DE3) in functional soluble form. Its purification was achieved with 96% purity and 23% yield. Enzymatic characterization revealed Lip7 to be a thermo-alkaline enzyme, reaching a maximum rate of 3350 U mg-1 at 50 °C and pH 11.0, using p-nitrophenyl laurate substrate. Notably, its kinetics displayed a sigmoidal behavior, with a higher kinetic efficiency (kcat/Km) for substrates of 12-carbon atom chain. In terms of thermal stability, Lip7 demonstrates stability up to 60 °C at pH 8.0 and up to 50 °C at pH 11.0. Remarkably, it showed high stability in the presence of organic solvents, and under certain conditions even exhibited enzymatic activation, reaching up to 2.5-fold and 1.35-fold after incubation in 50% v/v ethanol and 70% v/v isopropanol, respectively. Lip7 represents one of the first lipases from the bacterial subfamily I.5 and genus Geobacillus with activity and stability at pH 11.0. Its compatibility with organic solvents makes it a compelling candidate for future research in biocatalysis and various biotechnological applications.


Sujet(s)
Stabilité enzymatique , Geobacillus , Triacylglycerol lipase , Protéines recombinantes , Solvants , Geobacillus/enzymologie , Geobacillus/génétique , Triacylglycerol lipase/génétique , Triacylglycerol lipase/composition chimique , Triacylglycerol lipase/métabolisme , Triacylglycerol lipase/isolement et purification , Solvants/composition chimique , Régions antarctiques , Protéines recombinantes/composition chimique , Protéines recombinantes/métabolisme , Protéines recombinantes/génétique , Concentration en ions d'hydrogène , Protéines bactériennes/génétique , Protéines bactériennes/composition chimique , Protéines bactériennes/métabolisme , Cinétique , Spécificité du substrat , Température , Escherichia coli/génétique , Escherichia coli/métabolisme
3.
Biochem Biophys Res Commun ; 732: 150420, 2024 11 05.
Article de Anglais | MEDLINE | ID: mdl-39047403

RÉSUMÉ

Antivenoms are essential in the treatment of the neurotoxicity caused by elapid snakebites. However, there are elapid neurotoxins, e.g., long-chain α-neurotoxins (also known as long-chain three-finger toxins) that are barely neutralized by commercial elapid antivenoms; so, recombinant elapid neurotoxins could be an alternative or complements for improving antibody production against the lethal long-chain α-neurotoxins from elapid venoms. This work communicates the expression of a recombinant long-chain α-neurotoxin, named HisrLcNTx or rLcNTx, which based on the most lethal long-chain α-neurotoxins reported, was constructed de novo. The gene of rLcNTx was synthesized and introduced into the expression vector pQE30, which contains a proteolytic cleavage region for exscinding the mature protein, and His residues in tandem for affinity purification. The cloned pQE30/rLcNTx was transfected into Escherichia coli Origami cells to express rLcNTx. After expression, it was found in inclusion bodies, and folded in multiple Cys-Cys structural isoforms. To observe the capability of those isoforms to generate antibodies against native long-chain α-neurotoxins, groups of rabbits were immunized with different cocktails of Cys-Cys rLcNTx isoforms. In vitro, and in vivo analyses revealed that rabbit antibodies raised against different rLcNTx Cys-Cys isoforms were able to recognize pure native long-chain α-neurotoxins and their elapid venoms, but they were unable to neutralize bungarotoxin, a classical long-chain α-neurotoxin, and other elapid venoms. The rLcNTx Cys-Cys isoform 2 was the immunogen that produced the best neutralizing antibodies in rabbits. Yet to neutralize the elapid venoms from the black mamba Dendroaspis polylepis, and the coral shield cobra Aspidelaps lubricus, it was required to use two types of antibodies, the ones produced using rLcNTx Cys-Cys isoform 2 and antibodies produced using short-chain α-neurotoxins. Expression of recombinant elapid neurotoxins as immunogens could be an alternative to improve elapid antivenoms; nevertheless, recombinant elapid neurotoxins must be well-folded to be used as immunogens for obtaining neutralizing antibodies.


Sujet(s)
Sérums antivenimeux , Venins des élapidés , Neurotoxines , Pliage des protéines , Protéines recombinantes , Animaux , Protéines recombinantes/immunologie , Protéines recombinantes/génétique , Protéines recombinantes/composition chimique , Protéines recombinantes/métabolisme , Venins des élapidés/immunologie , Venins des élapidés/génétique , Venins des élapidés/composition chimique , Sérums antivenimeux/immunologie , Sérums antivenimeux/composition chimique , Neurotoxines/immunologie , Neurotoxines/génétique , Neurotoxines/composition chimique , Anticorps neutralisants/immunologie , Lapins , Séquence d'acides aminés
4.
Immun Inflamm Dis ; 12(7): e1353, 2024 Jul.
Article de Anglais | MEDLINE | ID: mdl-39056544

RÉSUMÉ

BACKGROUND: SARS-CoV2 virus, responsible for the COVID-19 pandemic, has four structural proteins and 16 nonstructural proteins. S-protein is one of the structural proteins exposed on the virus surface and is the main target for producing neutralizing antibodies and vaccines. The S-protein forms a trimer that can bind the angiotensin-converting enzyme 2 (ACE2) through its receptor binding domain (RBD) for cell entry. AIMS: The goal of this study was to express in HEK293 cells a new RBD recombinant protein in a constitutive and stable manner in order to use it as an alternative immunogen and diagnostic tool for COVID-19. MATERIALS & METHODS: The protein was designed to contain an immunoglobulin signal sequence, an explanded C-terminal section of the RBD, a region responsible for the bacteriophage T4 trimerization inducer, and six histidines in the pCDNA-3.1 plasmid. Following transformation, the cells were selected with geneticin-G418 and purified from serum-fre culture supernatants using Ni2+-agarand size exclusion chromatography. The protein was structurally identified by cross-linking and circular dichroism experiments, and utilized to immunize mice in conjuction with AS03 or alum adjuvants. The mice sera were examined for antibody recognition, receptor-binding inhibition, and virus neutralization, while spleens were evaluated for γ-interferon production in the presence of RBD. RESULTS: The protein released in the culture supernatant of cells, and exhibited a molecular mass of 135 kDa with a secondary structure like the monomeric and trimeric RBD. After purification, it formed a multimeric structure comprising trimers and hexamers, which were able to bind the ACE2 receptor. It generated high antibody titers in mice when combined with AS03 adjuvant (up to 1:50,000). The sera were capable of inhibiting binding of biotin-labeled ACE2 to the virus S1 subunit and could neutralize the entry of the Wuhan virus strain into cells at dilutions up to 1:2000. It produced specific IFN-γ producing cells in immunized mouse splenocytes. DISCUSSION: Our data describe a new RBD containing protein, forming trimers and hexamers, which are able to induce a protective humoral and cellular response against SARS-CoV2. CONCLUSION: These results add a new arsenal to combat COVID-19, as an alternative immunogen or antigen for diagnosis.


Sujet(s)
Angiotensin-converting enzyme 2 , Anticorps neutralisants , Anticorps antiviraux , COVID-19 , Protéines recombinantes , SARS-CoV-2 , Glycoprotéine de spicule des coronavirus , Animaux , Humains , Glycoprotéine de spicule des coronavirus/immunologie , Glycoprotéine de spicule des coronavirus/génétique , Glycoprotéine de spicule des coronavirus/composition chimique , Souris , Anticorps neutralisants/immunologie , SARS-CoV-2/immunologie , COVID-19/immunologie , COVID-19/prévention et contrôle , Protéines recombinantes/immunologie , Protéines recombinantes/génétique , Protéines recombinantes/composition chimique , Cellules HEK293 , Angiotensin-converting enzyme 2/métabolisme , Angiotensin-converting enzyme 2/immunologie , Anticorps antiviraux/immunologie , Vaccins contre la COVID-19/immunologie , Souris de lignée BALB C , Femelle , Multimérisation de protéines , Domaines protéiques/immunologie , Liaison aux protéines
5.
Carbohydr Polym ; 339: 122248, 2024 Sep 01.
Article de Anglais | MEDLINE | ID: mdl-38823916

RÉSUMÉ

Arabinoxylan is a major hemicellulose in the sugarcane plant cell wall with arabinose decorations that impose steric restrictions on the activity of xylanases against this substrate. Enzymatic removal of the decorations by arabinofuranosidases can allow a more efficient arabinoxylan degradation by xylanases. Here we produced and characterized a recombinant Bifidobacterium longum arabinofuranosidase from glycoside hydrolase family 43 (BlAbf43) and applied it, together with GH10 and GH11 xylanases, to produce xylooligosaccharides (XOS) from wheat arabinoxylan and alkali pretreated sugarcane bagasse. The enzyme synergistically enhanced XOS production by GH10 and GH11 xylanases, being particularly efficient in combination with the latter family of enzymes, with a degree of synergism of 1.7. We also demonstrated that the enzyme is capable of not only removing arabinose decorations from the arabinoxylan and from the non-reducing end of the oligomeric substrates, but also hydrolyzing the xylan backbone yielding mostly xylobiose and xylose in particular cases. Structural studies of BlAbf43 shed light on the molecular basis of the substrate recognition and allowed hypothesizing on the structural reasons of its multifunctionality.


Sujet(s)
Bifidobacterium longum , Cellulose , Endo-1,4-beta xylanases , Glucuronates , Glycosidases , Oligosaccharides , Saccharum , Xylanes , Oligosaccharides/composition chimique , Oligosaccharides/métabolisme , Glycosidases/métabolisme , Glycosidases/composition chimique , Glucuronates/métabolisme , Glucuronates/composition chimique , Endo-1,4-beta xylanases/métabolisme , Endo-1,4-beta xylanases/composition chimique , Xylanes/métabolisme , Xylanes/composition chimique , Saccharum/composition chimique , Saccharum/métabolisme , Cellulose/composition chimique , Cellulose/métabolisme , Bifidobacterium longum/enzymologie , Bifidobacterium longum/métabolisme , Hydrolyse , Spécificité du substrat , Protéines recombinantes/métabolisme , Protéines recombinantes/composition chimique , Diholoside
6.
Biomolecules ; 14(5)2024 Apr 30.
Article de Anglais | MEDLINE | ID: mdl-38785941

RÉSUMÉ

Only a few halophilic archaea producing carboxylesterases have been reported. The limited research on biocatalytic characteristics of archaeal esterases is primarily due to their very low production in native organisms. A gene encoding carboxylesterase from Halobacterium salinarum NRC-1 was cloned and successfully expressed in Haloferax volcanii. The recombinant carboxylesterase (rHsEst) was purified by affinity chromatography with a yield of 81%, and its molecular weight was estimated by SDS-PAGE (33 kDa). The best kinetic parameters of rHsEst were achieved using p-nitrophenyl valerate as substrate (KM = 78 µM, kcat = 0.67 s-1). rHsEst exhibited great stability to most metal ions tested and some solvents (diethyl ether, n-hexane, n-heptane). Purified rHsEst was effectively immobilized using Celite 545. Esterase activities of rHsEst were confirmed by substrate specificity studies. The presence of a serine residue in rHsEst active site was revealed through inhibition with PMSF. The pH for optimal activity of free rHsEst was 8, while for immobilized rHsEst, maximal activity was at a pH range between 8 to 10. Immobilization of rHsEst increased its thermostability, halophilicity and protection against inhibitors such as EDTA, BME and PMSF. Remarkably, immobilized rHsEst was stable and active in NaCl concentrations as high as 5M. These biochemical characteristics of immobilized rHsEst reveal its potential as a biocatalyst for industrial applications.


Sujet(s)
Carboxylesterase , Clonage moléculaire , Halobacterium salinarum , Protéines recombinantes , Carboxylesterase/génétique , Carboxylesterase/métabolisme , Carboxylesterase/composition chimique , Protéines recombinantes/composition chimique , Protéines recombinantes/génétique , Protéines recombinantes/métabolisme , Spécificité du substrat , Halobacterium salinarum/enzymologie , Halobacterium salinarum/génétique , Enzymes immobilisées/métabolisme , Enzymes immobilisées/composition chimique , Enzymes immobilisées/génétique , Concentration en ions d'hydrogène , Cinétique , Stabilité enzymatique , Protéines d'archée/génétique , Protéines d'archée/composition chimique , Protéines d'archée/métabolisme , Température
7.
Prep Biochem Biotechnol ; 54(10): 1285-1293, 2024 Nov.
Article de Anglais | MEDLINE | ID: mdl-38727020

RÉSUMÉ

Transmembrane serine protease 2 (TMPRSS2) is a membrane-bound protease belonging to the type II transmembrane serine protease (TTSP) family. It is a multidomain protein, including a serine protease domain responsible for its self-activation. The protein has been implicated as an oncogenic transcription factor and for its ability to cleave (prime) the SARS-CoV-2 spike protein. In order to characterize the TMPRSS2 biochemical properties, we expressed the serine protease domain (rTMPRSS2_SP) in Komagataella phaffii using the pPICZαA vector and purified it using immobilized metal affinity (Ni Sepharose™ excel) and size exclusion (Superdex 75) chromatography. We explored operational fluorescence resonance energy transfer FRET peptides as substrates. We chose the peptide Abz-QARK-(Dnp)-NH2 (Abz = ortho-aminobenzoic acid, the fluorescence donor, and Dnp = 2,4-dinitrophenyl, the quencher group) as a substrate to find the optimal conditions for maximum enzymatic activity. We found that metallic ions such as Ca2+ and Na+ increased enzymatic activity, but ionic surfactants and reducing agents decreased catalytic capacity. Finally, we determined the rTMPRSS2_SP stability for long-term storage. Altogether, our results represent the first comprehensive characterization of TMPRSS2's biochemical properties, providing valuable insights into its serine protease domain.


Sujet(s)
Transfert d'énergie par résonance de fluorescence , Protéines recombinantes , Serine endopeptidases , Cinétique , Protéines recombinantes/métabolisme , Protéines recombinantes/composition chimique , Protéines recombinantes/génétique , Spécificité du substrat , Serine endopeptidases/métabolisme , Serine endopeptidases/composition chimique , Serine endopeptidases/génétique , Humains , Stabilité enzymatique , Domaines protéiques , Saccharomycetales/enzymologie , Saccharomycetales/métabolisme , Saccharomycetales/génétique , SARS-CoV-2/enzymologie , Peptides/métabolisme , Peptides/composition chimique , Glycoprotéine de spicule des coronavirus
8.
Protein Expr Purif ; 220: 106490, 2024 Aug.
Article de Anglais | MEDLINE | ID: mdl-38697589

RÉSUMÉ

The production of fermentable sugars from lignocellulosic biomass is achieved by the synergistic action of a group of enzymes called cellulases. Cellulose is a long chain of chemically linked glucoses by ß-1,4 bonds. The enzyme ß-1,4-endoglucanase is the first cellulase involved in the degradation, breaking the bond of the amorphous regions. A ß-1,4-endoglucanase enzyme with high activity was obtained from a Bacillus subtilis strain isolated from wastewater of a pulp and paper mill. Sequencing and bioinformatic analysis showed that the gene amplified by PCR consisting of 1407 nucleotides and coding for a ß-1,4-endoglucanase enzyme of approximately 55 kDa. The open reading frame (ORF) encoding the mature endoglucanase (eglS) was successfully inserted in a modified cloning plasmid (pITD03) and into the pYD1 plasmid used for its expression in yeast. Carboxymethylcellulose (CMC) plate assay, SDS-PAGE, and zymogram confirmed the production and secretion by the transformed E. coli BL21-SI strain of a 39 kDa ß-1,4-endoglucanase consistent with the catalytic domain without the cellulose-binding module (CBM). The results showed that the truncated ß-1,4-endoglucanase had higher activity and stability.


Sujet(s)
Bacillus subtilis , Cellulase , Papier , Protéines recombinantes , Eaux usées , Bacillus subtilis/génétique , Bacillus subtilis/enzymologie , Bacillus subtilis/isolement et purification , Eaux usées/microbiologie , Eaux usées/composition chimique , Cellulase/génétique , Cellulase/composition chimique , Cellulase/biosynthèse , Cellulase/isolement et purification , Cellulase/métabolisme , Protéines recombinantes/génétique , Protéines recombinantes/composition chimique , Protéines recombinantes/isolement et purification , Protéines recombinantes/métabolisme , Protéines recombinantes/biosynthèse , Protéines bactériennes/génétique , Protéines bactériennes/composition chimique , Protéines bactériennes/isolement et purification , Protéines bactériennes/biosynthèse , Protéines bactériennes/métabolisme , Escherichia coli/génétique , Escherichia coli/métabolisme , Clonage moléculaire , Expression des gènes
9.
FEBS Open Bio ; 14(5): 726-739, 2024 May.
Article de Anglais | MEDLINE | ID: mdl-38514457

RÉSUMÉ

Taenia solium can cause human taeniasis and/or cysticercosis. The latter can in some instances cause human neurocysticercosis which is considered a priority in disease-control strategies and the prevention of mental health problems. Glutathione transferases are crucial for the establishment and long-term survival of T. solium; therefore, we structurally analyzed the 24-kDa glutathione transferase gene (Ts24gst) of T. solium and biochemically characterized its product. The gene promoter showed potential binding sites for transcription factors and xenobiotic regulatory elements. The gene consists of a transcription start site, four exons split by three introns, and a polyadenylation site. The gene architecture is conserved in cestodes. Recombinant Ts24GST (rTs24GST) was active and dimeric. Anti-rTs24GST serum showed slight cross-reactivity with human sigma-class GST. A 3D model of Ts24GST enabled identification of putative residues involved in interactions of the G-site with GSH and of the H-site with CDNB and prostaglandin D2. Furthermore, rTs24GST showed optimal activity at 45 °C and pH 9, as well as high structural stability in a wide range of temperatures and pHs. These results contribute to the better understanding of this parasite and the efforts directed to fight taeniasis/cysticercosis.


Sujet(s)
Glutathione transferase , Taenia solium , Taenia solium/génétique , Taenia solium/enzymologie , Animaux , Glutathione transferase/génétique , Glutathione transferase/métabolisme , Glutathione transferase/composition chimique , Humains , Modèles moléculaires , Protéines recombinantes/génétique , Protéines recombinantes/métabolisme , Protéines recombinantes/composition chimique , Régions promotrices (génétique)/génétique
10.
Glycobiology ; 34(1)2024 Mar 19.
Article de Anglais | MEDLINE | ID: mdl-37944064

RÉSUMÉ

During the COVID-19 outbreak, numerous tools including protein-based vaccines have been developed. The methylotrophic yeast Pichia pastoris (synonymous to Komagataella phaffii) is an eukaryotic cost-effective and scalable system for recombinant protein production, with the advantages of an efficient secretion system and the protein folding assistance of the secretory pathway of eukaryotic cells. In a previous work, we compared the expression of SARS-CoV-2 Spike Receptor Binding Domain in P. pastoris with that in human cells. Although the size and glycosylation pattern was different between them, their protein structural and conformational features were indistinguishable. Nevertheless, since high mannose glycan extensions in proteins expressed by yeast may be the cause of a nonspecific immune recognition, we deglycosylated RBD in native conditions. This resulted in a highly pure, homogenous, properly folded and monomeric stable protein. This was confirmed by circular dichroism and tryptophan fluorescence spectra and by SEC-HPLC, which were similar to those of RBD proteins produced in yeast or human cells. Deglycosylated RBD was obtained at high yields in a single step, and it was efficient in distinguishing between SARS-CoV-2-negative and positive sera from patients. Moreover, when the deglycosylated variant was used as an immunogen, it elicited a humoral immune response ten times greater than the glycosylated form, producing antibodies with enhanced neutralizing power and eliciting a more robust cellular response. The proposed approach may be used to produce at a low cost, many antigens that require glycosylation to fold and express, but do not require glycans for recognition purposes.


Sujet(s)
COVID-19 , Saccharomycetales , Vaccins , Humains , COVID-19/diagnostic , COVID-19/prévention et contrôle , Dépistage de la COVID-19 , Pichia/génétique , Pichia/métabolisme , SARS-CoV-2/génétique , SARS-CoV-2/métabolisme , Protéines recombinantes/composition chimique , Vaccins/métabolisme , Anticorps neutralisants/métabolisme , Anticorps antiviraux
11.
Mol Immunol ; 164: 79-87, 2023 Dec.
Article de Anglais | MEDLINE | ID: mdl-37980772

RÉSUMÉ

The first toxic component identified against mammals in the venom from Centruroides tecomanus scorpion from Colima, Mexico was Ct1a toxin, which was neutralized by human single chain variable fragment (scFv) RAS27. Venom characterization from these scorpions collected on the Pacific coast of Colima, enabled the identification of a second component of medical importance named Ct71 toxin. Amino acid sequence of Ct71 shares a high identity with Chui5 toxin from C. huichol scorpion, which was neutralized by scFv HV. For this reason, the kinetic parameters of interaction between Ct71 toxin and scFv HV were determined by surface plasmon resonance. Results showed a significantly higher affinity for Ct71 as compared to Chui5. As expected, this toxin was neutralized by scFv HV. The injection of a mixture of scFvs HV and RAS27, resulted in the neutralization of C. tecomanus venom, corroborating that human recombinant antibody fragments can efficiently contribute to the neutralization of medically important toxins and their respective venoms from Mexican scorpions.


Sujet(s)
Venins de scorpion , Anticorps à chaîne unique , Animaux , Humains , Mexique , Protéines recombinantes/composition chimique , Scorpions
12.
Biochimie ; 211: 122-130, 2023 Aug.
Article de Anglais | MEDLINE | ID: mdl-36963559

RÉSUMÉ

Loxosceles spider envenomation results in dermonecrosis, principally due to phospholipases D (PLDs) present in the venom. These enzymes have a strongly conserved sequence, 273ATXXDNPW280, in the C-terminal region (SMD-tail) that make contact with ß-sheets of the TIM barrel, in which the amino acids Asp277 and Trp280 establish the energetically strongest contacts. The SMD-tail is conserved in PLDs from different species but absent in the non-toxic PLD ancestral glycerophosphodiester phosphodiesterases (GDPDs). This work aims to understand the role of the C-terminal region in the structural stability and/or function of phospholipases D. Through site-directed mutagenesis of the rLiD1 protein (recombinant Loxosceles intermedia dermonecrotic protein 1), we produced two mutants: rLiD1D277A and rLiD1W280A (both with sphingomyelinase activity), in which Asp277 and Trp280 were replaced by alanine. rLiD1D277A showed similar sphingomyelinase activity but at least 2 times more dermonecrotic activity than rLiD1 (wild-type protein). Conversely, while the rLiD1W280A displayed a slight increase in sphingomyelinase activity, its biological activity was similar or lower compared to rLiD1, potentially due to its decreased thermostability and formation of amyloid aggregates. In conclusion, these new findings provide evidence that SMD-tail mutants impact the structure and function of these proteins and point out that residues outside the active site can even increase the function of these enzymes.


Sujet(s)
Phospholipase D , Venins d'araignée , Araignées , Animaux , Phospholipase D/génétique , Phospholipase D/composition chimique , Phospholipase D/métabolisme , Domaine catalytique , Sphingomyeline phosphodiesterase , Phosphodiesterases/génétique , Mutation , Protéines recombinantes/génétique , Protéines recombinantes/composition chimique , Araignées/génétique , Venins d'araignée/génétique , Venins d'araignée/composition chimique
13.
Biophys Chem ; 296: 106978, 2023 05.
Article de Anglais | MEDLINE | ID: mdl-36827753

RÉSUMÉ

The industrial uses of peptidases have already been consolidated; however, their range of applications is increasing. Thus, the biochemical characterization of new peptidases could increase the range of their biotechnological applications. In silico analysis identified a gene encoding a putative serine peptidase from Purpureocillium lilacinum (Pl_SerPep), annotated as a cuticle-degrading enzyme. The Pl_SerPep gene product was expressed as a recombinant in a Komagataella phaffii (previously Pichia pastoris) expression system. The enzyme (rPl_SerPep) showed optimal pH and temperature of 8.0 and 60 °C, respectively. Moreover, rPl_SerPep has a higher thermal stability than the cuticle-degrading enzymes described elsewhere. The structural analysis indicated a conformational change in the rPl_SerPep secondary structure, which would allow an increase in catalytic activity at 60 °C. Komagataella phaffii secretes rPl_SerPep with the pro peptide in its inactive form. Low-resolution small-angle X-ray scattering (SAXS) analysis showed little mobility of the pro peptide portion, which indicates the apparent stability of the inactive form of the enzyme. The presence of 20 mM guanidine in the reaction resulted in the maintenance of activity, which was apparently a consequence of pro peptide structure flexibilization.


Sujet(s)
Peptide hydrolases , Pichia , Pichia/génétique , Pichia/métabolisme , Protéines recombinantes/composition chimique , Diffusion aux petits angles , Diffraction des rayons X , Peptide hydrolases/métabolisme , Peptides/métabolisme , Sérine/métabolisme
14.
Methods Mol Biol ; 2617: 177-187, 2023.
Article de Anglais | MEDLINE | ID: mdl-36656524

RÉSUMÉ

The expression of recombinant proteins as insoluble inclusion bodies (IB) has the advantage to separate insoluble aggregates from soluble bacterial molecules, thus obtaining proteins with a high degree of purity. Even aggregated, the proteins in IB often present native-like secondary and tertiary structures, which can be maintained as long as solubilization is carried out in non-denaturing condition. High pressure solubilizes IB by weakening hydrophobic interactions, while alkaline pH solubilizes aggregates by electrostatic repulsion. The combination of high pressure and alkaline pH is effective for IB solubilization at a mild, non-denaturing condition, which is useful for subsequent refolding. Here, we describe the expression of recombinant proteins in Escherichia coli using a rich medium to obtain high expression levels, bacterial lysis, and washing of the IB to obtain products of high purity, and, finally, the solubilization and high yield of refolded proteins using high pressure and alkaline pH.


Sujet(s)
Escherichia coli , Corps d'inclusion , Repliement des protéines , Protéines recombinantes/composition chimique , Escherichia coli/génétique , Escherichia coli/métabolisme , Corps d'inclusion/métabolisme , Concentration en ions d'hydrogène , Solubilité
15.
Toxicon ; 223: 107012, 2023 Feb.
Article de Anglais | MEDLINE | ID: mdl-36592762

RÉSUMÉ

The methylotrophic yeast Pichia pastoris has been one of the most widely used organisms in recent years as an expression system for a wide variety of recombinant proteins with therapeutic potential. Its popularity as an alternative system to Escherichia coli is mainly due to the easy genetic manipulation and the ability to produce high levels of heterologous proteins, either intracellularly or extracellularly. Being a eukaryotic organism, P. pastoris carries out post-translational modifications that allow it to produce soluble and correctly folded recombinant proteins. This work, evaluated the expression capacity in P. pastoris of two single-chain variable fragments (scFvs) of human origin, 10FG2 and LR. These scFvs were previously obtained by directed evolution against scorpion venom toxins and are able to neutralize different toxins and venoms of Mexican species. The yield obtained in P. pastoris was higher than that obtained in bacterial periplasm (E. coli), and most importantly, biochemical and functional properties were not modified. These results confirm that P. pastoris yeast can be a good expression system for the production of antibody fragments of a new recombinant antivenom.


Sujet(s)
Scorpions , Venins , Animaux , Humains , Scorpions/composition chimique , Venins/métabolisme , Saccharomyces cerevisiae/métabolisme , Escherichia coli/génétique , Escherichia coli/métabolisme , Pichia/génétique , Pichia/métabolisme , Protéines recombinantes/composition chimique , Fragments d'immunoglobuline/génétique , Fragments d'immunoglobuline/métabolisme
16.
Protein J ; 42(1): 24-36, 2023 02.
Article de Anglais | MEDLINE | ID: mdl-36652139

RÉSUMÉ

Equine chorionic gonadotropin (eCG) is a glycoprotein hormone widely used in timed artificial ovulation (TAI) and superovulation protocols to improve the reproductive performance in livestock. Until recently, the only eCG products available in the market for veterinary use consisted in partially purified preparations of pregnant mare serum gonadotropin (PMSG). Here, a bioactive recombinant eCG (reCG) produced in suspension CHO-K1 cells was purified employing different chromatographic methods (hydrophobic interaction chromatography and reverse-phase (RP)-HPLC) and compared with a RP-HPLC-purified PMSG. To gain insight into the structural and functional characteristics of reCG, a bioinformatics analysis was performed. An exhaustive characterization comprising the determination of the purity degree, aggregates and nicked forms through SDS-PAGE, RP-HPLC and SEC-HPLC was performed. Higher order structures were studied by fluorescence spectroscopy and SEC-HPLC. Isoforms profile were analyzed by isoelectric focusing. Glycosylation analysis was performed through pulsed amperometric detection and PNGase F treatment following SDS-PAGE and weak anion exchange-HPLC. Slight differences between the purified recombinant hormones were found. However, recombinant molecules and PMSG exhibited variations in the glycosylation pattern. In fact, differences in sialic acid content between two commercial preparations of PMSG were also obtained, which could lead to differences in their biological potency. These results show the importance of having a standardized production process, as occurs in a recombinant protein bioprocess. Besides, our results reflect the importance of the glycan moieties on eCG conformation and hence in its biological activity, preventing denaturing processes such as aggregation.


Sujet(s)
Gonadotrophine chorionique , Gonadotrophine équine , Grossesse , Femelle , Animaux , Equus caballus , Glycosylation , Protéines recombinantes/composition chimique , Électrophorèse sur gel de polyacrylamide
17.
J Pharm Biomed Anal ; 213: 114686, 2022 May 10.
Article de Anglais | MEDLINE | ID: mdl-35247653

RÉSUMÉ

NeuroEPO plus is a recently developed recombinant human erythropoietin (rhEPO) without erythropoietic activity and shorter plasma half-life due to its low sialic acid content. This novel rhEPO product is under investigation as therapeutic protein in the treatment of neurodegenerative diseases owing to its neuroprotective and neurodegenerative properties. In this study, an in-depth characterization of NeuroEPO plus N-glycans was performed by a glycan isotope [12C6]/[13C6] coded aniline labeling strategy followed by capillary zwitterionic hydrophilic interaction liquid chromatography-mass spectrometry (CapZIC-HILIC-MS). A superior amount of low sialylated glycans and less branched structures were detected in NeuroEPO plus compare to other commercial rhEPOs. At the intact glycoprotein level, NeuroEPO plus glycoforms were separated by capillary zone electrophoresis with ultraviolet detection (CE-UV), optimizing the composition and pH of the separation electrolyte. Moreover, an isoelectric focusing polyacrylamide gel electrophoresis (IEF-PAGE) method was also optimized for the simultaneous analysis of this basic rhEPO and conventional acidic rhEPO products. The proposed glycomic and intact glycoprotein methods provide a robust and reliable analytical platform for NeuroEPO plus characterization and for its future implementation as biopharmaceutical in neurodegenerative diseases.


Sujet(s)
Érythropoïétine , Érythropoïétine/composition chimique , Glycoprotéines/composition chimique , Humains , Spectrométrie de masse/méthodes , Polyosides/analyse , Protéines recombinantes/composition chimique
18.
PLoS One ; 17(2): e0262591, 2022.
Article de Anglais | MEDLINE | ID: mdl-35113919

RÉSUMÉ

SARS-CoV-2 Nucleocapsid (N) is the most abundant viral protein expressed in host samples and is an important antigen for diagnosis. N is a 45 kDa protein that does not present disulfide bonds. Intending to avoid non-specific binding of SARS-CoV-2 N to antibodies from patients who previously had different coronaviruses, a 35 kDa fragment of N was expressed without a conserved motif in E. coli as inclusion bodies (N122-419-IB). Culture media and IB washing conditions were chosen to obtain N122-419-IB with high yield (370 mg/L bacterial culture) and protein purity (90%). High pressure solubilizes protein aggregates by weakening hydrophobic and ionic interactions and alkaline pH promotes solubilization by electrostatic repulsion. The association of pH 9.0 and 2.4 kbar promoted efficient solubilization of N122-419-IB without loss of native-like tertiary structure that N presents in IB. N122-419 was refolded with a yield of 85% (326 mg/L culture) and 95% purity. The refolding process takes only 2 hours and the protein is ready for use after pH adjustment, avoiding the necessity of dialysis or purification. Antibody binding of COVID-19-positive patients sera to N122-419 was confirmed by Western blotting. ELISA using N122-419 is effective in distinguishing between sera presenting antibodies against SARS-CoV-2 from those who do not. To the best of our knowledge, the proposed condition for IB solubilization is one of the mildest described. It is possible that the refolding process can be extended to a wide range of proteins with high yields and purity, even those that are sensible to very alkaline pH.


Sujet(s)
Anticorps antiviraux/sang , Antigènes viraux/composition chimique , COVID-19/sang , COVID-19/diagnostic , Protéines de la nucléocapside des coronavirus/composition chimique , Immunoglobuline G/sang , Corps d'inclusion/composition chimique , Repliement des protéines , SARS-CoV-2/immunologie , Anticorps antiviraux/immunologie , Antigènes viraux/immunologie , COVID-19/virologie , Protéines de la nucléocapside des coronavirus/immunologie , Test ELISA/méthodes , Escherichia coli/génétique , Escherichia coli/métabolisme , Humains , Concentration en ions d'hydrogène , Pression hydrostatique , Immunoglobuline G/immunologie , Phosphoprotéines/composition chimique , Phosphoprotéines/immunologie , Structure tertiaire des protéines , Protéines recombinantes/composition chimique , Protéines recombinantes/immunologie , Solubilité
19.
Protein Expr Purif ; 192: 106041, 2022 04.
Article de Anglais | MEDLINE | ID: mdl-34953978

RÉSUMÉ

The gene encoding the cAMP-dependent protein kinase (PKA) catalytic subunit-like protein PKAC1 from the Venezuelan TeAp-N/D1 strain of Trypanosoma equiperdum was cloned, and the recombinant TeqPKAC1 protein was overexpressed in bacteria. A major polypeptide with an apparent molecular mass of ∼38 kDa was detected by SDS-polyacrylamide gel electrophoresis, and immunoblotting using antibodies against the human PKA catalytic subunit α. Unfortunately, most of the expressed TeqPKAC1 was highly insoluble. Polypeptides of 36-38 kDa and 45-50 kDa were predominantly seen by immunoblotting in the bacterial particulate and cytosolic fractions, respectively. Since the incorporation of either 4% Triton X-100 or 3% sarkosyl or a mixture of 10 mM MgCl2 and 1 mM ATP (MgATP) improved the solubilization of TeqPKAC1, we used a combination of Triton X-100, sarkosyl and MgATP to solubilize the recombinant protein. TeqPKAC1 was purified by first reconstituting a hybrid holoenzyme between the recombinant protein and a mammalian poly-His-tagged PKA regulatory subunit that was immobilized on a Ni2+-chelating affinity resin, and then by eluting TeqPKAC1 using cAMP. TeqPKAC1 was functional given that it was capable of phosphorylating PKA catalytic subunit substrates, such as kemptide (LRRASLG), histone type II-AS, and the peptide SP20 (TTYADFIASGRTGRRNSIHD), and was inhibited by the peptide IP20 (TTYADFIASGRTGRRNAIHD), which contains the inhibitory motif of the PKA-specific heat-stable inhibitor PKI-α. Optimal enzymatic activity was obtained at 37 °C and pH 8.0-9.0; and the order of effectiveness of nucleotide triphosphates and divalent cations was ATP ¼ GTP â‰… ITP and Mg2+ â‰… Mn2+ â‰… Fe2+ ¼ Ca2+ â‰… Zn2, respectively.


Sujet(s)
Clonage moléculaire , Cyclic AMP-Dependent Protein Kinases/génétique , Cyclic AMP-Dependent Protein Kinases/métabolisme , AMP cyclique/métabolisme , Protéines de protozoaire/génétique , Protéines de protozoaire/métabolisme , Trypanosoma/enzymologie , AMP cyclique/génétique , Cyclic AMP-Dependent Protein Kinases/composition chimique , Cyclic AMP-Dependent Protein Kinases/isolement et purification , Phosphorylation , Sous-unités de protéines/composition chimique , Sous-unités de protéines/génétique , Sous-unités de protéines/isolement et purification , Sous-unités de protéines/métabolisme , Protéines de protozoaire/composition chimique , Protéines de protozoaire/isolement et purification , Protéines recombinantes/composition chimique , Protéines recombinantes/génétique , Protéines recombinantes/isolement et purification , Protéines recombinantes/métabolisme , Solubilité , Trypanosoma/composition chimique , Trypanosoma/génétique
20.
Protein Expr Purif ; 191: 106007, 2022 03.
Article de Anglais | MEDLINE | ID: mdl-34728367

RÉSUMÉ

Metacaspases are known to have a fundamental role in apoptosis-like, a programmed cellular death (PCD) in plants, fungi, and protozoans. The last includes several parasites that cause diseases of great interest to public health, mostly without adequate treatment and included in the neglected tropical diseases category. One of them is Trypanosoma cruzi which causes Chagas disease and has two metacaspases involved in its PCD: TcMCA3 and TcMCA5. Their roles seemed different in PCD, TcMCA5 appears as a proapoptotic protein negatively regulated by its C-terminal sequence, while TcMCA3 is described as a cell cycle regulator. Despite this, the precise role of TcMCA3 and TcMCA5 and their atomic structures remain elusive. Therefore, developing methodologies to allow investigations of those metacaspases is relevant. Herein, we produced full-length and truncated versions of TcMCA5 and applied different strategies for their folded recombinant production from E. coli inclusion bodies. Biophysical assays probed the efficacy of the production method in providing a high yield of folded recombinant TcMCA5. Moreover, we modeled the TcMCA5 protein structure using experimental restraints obtained by XLMS. The experimental design for novel methods and the final protocol provided here can guide studies with other metacaspases. The production of TcMCA5 allows further investigations as protein crystallography, HTS drug discovery to create potential therapeutic in the treatment of Chagas' disease and in the way to clarify how the PCD works in the parasite.


Sujet(s)
Caspases/composition chimique , Repliement des protéines , Protéines de protozoaire/composition chimique , Trypanosoma cruzi/enzymologie , Caspases/génétique , Domaines protéiques , Protéines de protozoaire/génétique , Protéines recombinantes/composition chimique , Protéines recombinantes/génétique , Trypanosoma cruzi/génétique
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