Your search keyword '"SANTOS-LÓPEZ, GERARDO"' showing total 8 results

1. Five Novel Non-Sialic Acid-Like Scaffolds Inhibit In Vitro H1N1 and H5N2 Neuraminidase Activity of Influenza a Virus.

Author

Márquez-Domínguez L, Reyes-Leyva J, Herrera-Camacho I, Santos-López G, and Scior T

Subjects

Antiviral Agents chemistry, Antiviral Agents metabolism, Benzoic Acid chemistry, Benzoic Acid metabolism, Binding Sites, Binding, Competitive, Enzyme Inhibitors metabolism, Humans, Kinetics, Ligands, Molecular Docking Simulation, N-Acetylneuraminic Acid chemistry, Neuraminidase metabolism, Structure-Activity Relationship, Zanamivir chemistry, Zanamivir metabolism, Enzyme Inhibitors chemistry, Influenza A Virus, H1N1 Subtype enzymology, Influenza A Virus, H5N2 Subtype enzymology, Neuraminidase antagonists & inhibitors

Abstract

Neuraminidase (NA) of influenza viruses enables the virus to access the cell membrane. It degrades the sialic acid contained in extracellular mucin. Later, it is responsible for releasing newly formed virions from the membrane of infected cells. Both processes become key functions within the viral cycle. Therefore, it is a therapeutic target for research of the new antiviral agents. Structure-activity relationships studies have revealed which are the important functional groups for the receptor-ligand interaction. Influenza virus type A NA activity was inhibited by five scaffolds without structural resemblance to sialic acid. Intending small organic compound repositioning along with drug repurposing, this study combined in silico simulations of ligand docking into the known binding site of NA, along with in vitro bioassays. The five proposed scaffolds are N -acetylphenylalanylmethionine, propanoic 3-[(2,5-dimethylphenyl) carbamoyl]-2-(piperazin-1-yl) acid, 3-(propylaminosulfonyl)-4-chlorobenzoic acid, ascorbic acid (vitamin C), and 4-(dipropylsulfamoyl) benzoic acid (probenecid). Their half maximal inhibitory concentration (IC 50 ) was determined through fluorometry. An acidic reagent 2'- O -(4-methylumbelliferyl)-α-d N -acetylneuraminic acid (MUNANA) was used as substrate for viruses of human influenza H1N1 or avian influenza H5N2. Inhibition was observed in millimolar ranges in a concentration-dependent manner. The IC 50 values of the five proposed scaffolds ranged from 6.4 to 73 mM. The values reflect a significant affinity difference with respect to the reference drug zanamivir ( p < 0.001). Two compounds ( N -acetyl dipeptide and 4-substituted benzoic acid) clearly showed competitive mechanisms, whereas ascorbic acid reflected non-competitive kinetics. The five small organic molecules constitute five different scaffolds with moderate NA affinities. They are proposed as lead compounds for developing new NA inhibitors which are not analogous to sialic acid.

Published

2020

2. Neuraminidase activity of blue eye disease porcine rubulavirus: Specificity, affinity and inhibition studies.

Author

Santos-López G, Borraz-Argüello MT, Márquez-Domínguez L, Flores-Alonso JC, Ramírez-Mendoza H, Priem B, Fort S, Vallejo-Ruiz V, Reyes-Leyva J, and Herrera-Camacho I

Subjects

Animals, HN Protein genetics, HN Protein metabolism, Kinetics, Neuraminidase metabolism, Rubulavirus Infections virology, Swine, Viral Proteins metabolism, Neuraminidase genetics, Rubulavirus enzymology, Rubulavirus Infections veterinary, Swine Diseases virology, Viral Proteins genetics

Abstract

Porcine rubulavirus (PorPV), also known as La Piedad Michoacan Virus (LPMV) causes encephalitis and reproductive failure in newborn and adult pigs, respectively. The hemagglutinin-neuraminidase (HN) glycoprotein is the most exposed and antigenic of the virus proteins. HN plays central roles in PorPV infection; i.e., it recognizes sialic acid-containing cell receptors that mediate virus attachment and penetration; in addition, its neuraminidase (sialic acid releasing) activity has been proposed as a virulence factor. This work describes the purification and characterization of PorPV HN protein (isolate PAC1). The specificity of neuraminidase is restricted to sialyl(α2,3)lactose (3SL). HN showed typical Michaelis-Menten kinetics with fetuin as substrate (km=0.029μM, Vmax=522.8nmolmin -1 mg -1 ). When 3SL was used as substrate, typical cooperative kinetics were found (S 50 =0.15μM, Vmax=154.3nmolmin -1 mg -1 ). The influenza inhibitor zanamivir inhibited the PorPV neuraminidase with IC 50 of 0.24μM. PorPV neuraminidase was activated by Ca 2+ and inhibited by nucleoside triphosphates with the level of inhibition depending on phosphorylation level. The present results open possibilities to study the role of neuraminidase in the pathogenicity of PorPV infection and its potential inhibitors., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

3. Chemoenzymatic Syntheses of Sialylated Oligosaccharides Containing C5-Modified Neuraminic Acids for Dual Inhibition of Hemagglutinins and Neuraminidases.

Author

Birikaki L, Pradeau S, Armand S, Priem B, Márquez-Domínguez L, Reyes-Leyva J, Santos-López G, Samain E, Driguez H, and Fort S

Subjects

Agglutinins metabolism, Animals, Cattle, Escherichia coli genetics, Escherichia coli metabolism, Hydrolysis, Maackia metabolism, Neuraminic Acids chemistry, Neuraminic Acids metabolism, Neuraminic Acids pharmacology, Oligosaccharides chemistry, Oligosaccharides metabolism, Oligosaccharides pharmacology, Sialic Acids chemistry, Sialic Acids metabolism, Sialic Acids pharmacology, Hemagglutinins metabolism, Metabolic Engineering, Neuraminic Acids chemical synthesis, Neuraminidase antagonists & inhibitors, Oligosaccharides chemical synthesis, Sialic Acids chemical synthesis, Vibrio cholerae enzymology

Abstract

A fast chemoenzymatic synthesis of sialylated oligosaccharides containing C5-modified neuraminic acids is reported. Analogues of GM3 and GM2 ganglioside saccharidic portions where the acetyl group of NeuNAc has been replaced by a phenylacetyl (PhAc) or a propanoyl (Prop) moiety have been efficiently prepared with metabolically engineered E. coli bacteria. GM3 analogues were either obtained by chemoselective modification of biosynthetic N-acetyl-sialyllactoside (GM3 NAc) or by direct bacterial synthesis using C5-modified neuraminic acid precursors. The latter strategy proved to be very versatile as it led to an efficient synthesis of GM2 analogues. These glycomimetics were assessed against hemagglutinins and sialidases. In particular, the GM3 NPhAc displayed a binding affinity for Maackia amurensis agglutinin (MAA) similar to that of GM3 NAc, while being resistant to hydrolysis by Vibrio cholerae (VC) neuraminidase. A preliminary study with influenza viruses also confirmed a selective inhibition of N1 neuraminidase by GM3 NPhAc, suggesting potential developments for the detection of flu viruses and for fighting them., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

4. Antiviral resistance markers in influenza virus sequences in Mexico, 2000–2017.

Author

Toledo-Rueda, William, Rosas-Murrieta, Nora H, Muñoz-Medina, José E, González-Bonilla, César R, Reyes-Leyva, Julio, and Santos-López, Gerardo

Subjects

ANTIVIRAL agents, INFLUENZA viruses, DISEASES, ADAMANTANE, NEURAMINIDASE

Abstract

Background: Influenza causes high rates of morbidity and mortality. Genetic variability of influenza viruses generates resistance to antivirals, which are of two types, since they act on two different viral targets: adamantanes, which block the M2 ion channel, and the neuraminidase (NA) inhibitors. Methods: In Mexico, the available studies on the antiviral resistance of circulating influenza strains are scarce, so this work undertook an analysis of the Mexican sequences reported in public gene banks to perform a systematic analysis of the antiviral resistance markers on both M2 and NA. In all, 284 M2 sequences and 423 NA sequences were retrieved from three genetic databases (sequences from 2000 to 2017 were considered). Results: The resistance markers to M2 blockers were present in 100% of H1N1 pdm2009, 83.6% of H3N2, and 5.8% of seasonal H1N1 sequences. Two resistance markers conferring resistance to NA inhibitors were present in seasonal H1N1 sequences, H275Y (50.0%) and N70S (33.3%). None of these viruses had both resistance markers, which are associated with oseltamivir resistance. The more frequent resistance marker in H1N1 pdm2009 NA sequences was H275Y, present in 3.6%, while S247N was present in 0.30%. Only one of the resistance-associated markers (Q136K) in NA (1.5%) was present in the analyzed H3N2 sequences, while sequences of influenza B virus did not present resistance markers to NA inhibitors. Some influenza A H1N1 pdm2009 sequences (1.8%) presented resistance markers to both M2 and NA. Conclusion: Based on the present analysis, 7.1% of the all serotypes of influenza virus A sequences analyzed in Mexico from 2000 to 2017 have mutations conferring resistance to NA inhibitors. Because of this, and the limited availability of influenza drugs, it is necessary to increase the epidemiological surveillance, including molecular analysis, which will provide data such as the presence of changes associated with antiviral resistance. [ABSTRACT FROM AUTHOR]

Published

2018

5. Production of an enzymatically active and immunogenic form of ectodomain of Porcine rubulavirus hemagglutinin-neuraminidase in the yeast Pichia pastoris.

Author

Cerriteño-Sánchez, José Luis, Santos-López, Gerardo, Rosas-Murrieta, Nora Hilda, Reyes-Leyva, Julio, Cuevas-Romero, Sandra, and Herrera-Camacho, Irma

Subjects

*ENZYMATIC analysis, *IMMUNOGENETICS, *HEMAGGLUTININ, *NEURAMINIDASE, *PICHIA pastoris, *ETIOLOGY of diseases

Abstract

Blue-eye disease (BED) of swine is a viral disease endemic in Mexico. The etiological agent is a paramyxovirus classified as Porcine rubulavirus (PoRV-LPMV), which exhibits in its envelope the hemagglutinin-neuraminidase (HN) glycoprotein, the most immunogenic and a major target for vaccine development. We report in this study the obtaining of ectodomain of PoRV HN (eHN) through the Pichia pastoris expression system. The expression vector (pPICZαB-HN) was integrated by displacement into the yeast chromosome and resulted in a Mut + phenotype. Expressed eHN in the P. pastoris X33 strain was recovered from cell-free medium, featuring up to 67 nmol/min/mg after 6 days of expression. eHN was recognized by the serum of infected pigs with strains currently circulating in the Mexican Bajio region. eHN induces antibodies in mice after 28 days of immunization with specific recognition in ELISA test. These antibodies were able to inhibit >80% replication by viral neutralization assays in cell culture. These studies show the obtaining of a protein with similar characteristics to the native HN and which may be a candidate to propose a vaccine or to use the antigen in a serologic diagnostic test. [ABSTRACT FROM AUTHOR]

Published

2016

6. Caracterización biológica de tres aislamientos naturales del Rubulavirus porcino (México).

Author

Borraz-Argüello, María del Tránsito, Santos-López, Gerardo, Vallejo-Ruiz, Verónica, Herrera-Camacho, Irma, and Reyes-Leyva, Julio

Subjects

*DISEASES, *SWINE, *NEURAMINIDASE, *GLYCOSIDASES

Abstract

Porcine rubulavirus (PoRV) produces a neurological and reproductive syndrome in pigs called the blue-eye disease, known only from Mexico. Several isolates were grouped by the main symptoms presented during outbreaks: a) neurotropic in piglets, b) broadly neurotropic in piglets and gonadotropic in adults, and c) gonadotropic in adults. We studied some biological properties of three strains, which fall in one of each virus group: La Piedad Michoacán (LPM) and Producción Animal Cerdos 1 (PAC1) and 3 (PAC3), respectively. The analyzed viral properties are mainly related with the trans-membrane hemagglutinin-neuraminidase (HN) and fusion (F) proteins, such as cytopathic effect, hemolysis, hemagglutinating (HA) and neuraminidase (NA) activities. In the infection assays PAC1 strain presented the highest fusogenicity level; however, the most cytolytic strain was PAC3. In addition, HA and NA activities and viral genome of PAC3 strain was detected in supernatants during cell infection earlier than in the other two strains, which shows that PAC3 virions release from the host cell earlier than LPM and PAC1. Experimental determination in purified viruses shows that PAC3 presented a higher HA and NA activities; however, PAC1 shows other interesting properties, such as a high thermostability of HN and differences about substrate profile respect to LPM and PAC3. Our data suggest that NA activity is associated with the virulence of RVP. [ABSTRACT FROM AUTHOR]

Published

2008

7. Non-Analog Compounds to Sialic Acid as Inhibitors of Influenza Virus Neuraminidase: An Underexplored Approach for Novel Antivirals―Systematic Review.

Author

Márquez-Domínguez, Luis, Jasso-Miranda, Carolina, Sedeño-Monge, Virginia, and Santos-López, Gerardo

Subjects

*SIALIC acids, *INFLUENZA viruses, *NEURAMINIDASE, *VIRUS inhibitors, *DRUG design

Abstract

Influenza poses a significant threat to public health worldwide, particularly among vulnerable populations such as children, the elderly, immunocompromised individuals, and those with chronic diseases. It is associated with high mortality and morbidity rates. Neuraminidase inhibitors play a crucial role in influenza treatment by mitigating the risk of complications and death. However, the genetic variability of the influenza virus enables the emergence of drug-resistant mutations. This review focuses on the search for new compounds that are not analogous to sialic acid, aiming to inhibit the activity of viral neuraminidase in vitro, viral replication in cell cultures, or animal models. Influenza virus strains that have been reported in the literature present specific mutations that generate resistance to neuraminidase inhibitors. Since these inhibitors bear structural resemblance to sialic acid, the predominant location for these mutations is the enzyme's active site. Consequently, exploring alternative compound classes becomes imperative to circumvent this interaction pattern. These compounds will introduce diverse molecular frameworks, serving as foundational structures for further development through rational drug design, thereby engendering novel antiviral agents targeting influenza. The potential prospects for developing novel influenza antivirals based on these findings are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

8. Amino acid change 335 E to K affects the sialic-acid-binding and neuraminidase activities of Urabe AM9 mumps virus hemagglutinin–neuraminidase glycoprotein

Author

Reyes-Leyva, Julio, Baños, Rocío, Borraz-Argüello, María, Santos-López, Gerardo, Rosas, Nora, Alvarado, Gabriela, Herrera, Irma, Vallejo, Verónica, and Tapia-Ramírez, José

Subjects

*NEURAMINIDASE, *VIRUSES, *CELLS, *AMINO acids

Abstract

Abstract: A mutation coding for the amino acid change E335 to K is frequently found in the hemagglutinin-neuraminidase (HN) gene of Urabe AM9 mumps viruses isolated during post-vaccination meningitis cases. To identify if this mutation modifies the biological activities of the HN glycoprotein, two variants of Urabe AM9 vaccine differing at amino acid 335 (HN-E335 and HN-K335) were isolated and their receptor-binding specificity was determined by means of competence assays. Pre-incubation of the viruses with sialic acids inhibited both syncytia formation in Vero cells and replication in SH-SY5Y cells. Thus, HN-K335 showed higher affinity towards sialylα2,6lactose, whereas HN-G335 preferred sialylα2,3lactose. These results are relevant because a high expression of sialylα2,6lactose in nerve cells was confirmed by means of Sambucus nigra lectin-cytochemistry. In addition, kinetics assays showed that HN-K335 and HN-E335 also differ in their hydrolysis rate (V max values of 37.5 vs. 3.5nmolmin−1 mg−1, respectively). Therefore, HN-K335 variant presented a neuraminidase activity level 11-fold higher than that of HN-E335 variant. In conclusion, the mutation affects the receptor-binding and neuraminidase activities of Urabe AM9 mumps virus variants. [Copyright &y& Elsevier]

Published

2007