Your search keyword '"Ana C. Alcalá"' showing total 8 results

1. The dengue virus NS1 protein; new roles in pathogenesis due to similarities with and affinity for the high-density lipoprotein (HDL)?

Author

Ana C Alcalá and Juan E Ludert

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2023

2. Molecular detection of human enteric viruses circulating among children with acute gastroenteritis in Valencia, Venezuela, before rotavirus vaccine implementation

Author

Ana C. Alcalá, Kriss Pérez, Ruth Blanco, Rosabel González, Juan E. Ludert, Ferdinando Liprandi, and Esmeralda Vizzi

Subjects

Acute gastroenteritis, Children, Enteric viruses, Prevalence, Venezuela, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Abstract Background The role of rotavirus as main etiologic agent of diarrhea has been well documented worldwide, including in Venezuela. However, information about the prevalence of gastrointestinal viruses such as calicivirus, adenovirus and astrovirus is limited and the contribution of other agents as Aichi virus and klassevirus is largely unknown. To explore the etiological spectrum of diarrhea associated with agents other than rotaviruses, 227 stool samples from children under 5 years old with acute gastroenteritis, collected in Valencia (Venezuela) from 2001 to 2005, and previously tested as rotavirus-negative, were analyzed for caliciviruses, adenoviruses, astroviruses, Aichi viruses, klasseviruses, picobirnaviruses and enteroviruses by specific RT-PCRs. Results At least one viral agent was detected in 134 (59%) of the samples analyzed, mainly from children under 24 months of age and most of them belonging to the lowest socioeconomic status. Overall, enterovirus was identified as the most common viral agent (37.9%), followed by calicivirus (23.3%), adenovirus (11.5%), astrovirus (3.5%), klassevirus (1.3%) and Aichi virus (0.4%), while no picobirnavirus was detected. Klasseviruses were found during 2004 and 2005 and Aichi viruses only in 2005, indicating their circulation in Venezuela; meanwhile, the rest of the viruses were detected during the whole study period. Coinfections with two or more viruses were found in 39 (29.1%) of the infected children, most under 24 months of age. Adenovirus was involved as the coinfecting agent in at least 46.9% of the cases, but no differences concerning socio-demographic variables were observed between the coinfected and the single infected children. Conclusions The results show that various enteric viruses, including enteroviruses, caliciviruses and adenoviruses, accounted for a significant proportion of infantile diarrhea cases in Venezuela before rotavirus vaccine implementation. In addition, emerging viruses as Aichi virus and klassevirus were found, indicating the need to continue monitoring their spreading into the communities. Efforts are needed to develop more accurate methods to identify the major causes of diarrhea and to provide tools for more effective preventive measures.

Published

2018

3. Effect of sericin, a silk derived protein, on the amplification of Zika virus in insect and mammalian cell cultures

Author

Ana C, Alcalá, Martha A, Contreras, Esmeralda, Cuevas-Juárez, Octavio T, Ramírez, and Laura A, Palomares

Subjects

Mammals, Insecta, Zika Virus Infection, Cell Culture Techniques, Silk, Bioengineering, Zika Virus, General Medicine, Applied Microbiology and Biotechnology, Chlorocebus aethiops, Animals, Humans, Sericins, Vero Cells, Biotechnology

Abstract

Sericin, a silk-derived non-immunogenic protein, has been used to improve cell culture performance by increasing viability, cell concentration, and promoting adherence of several cell lines. Here, we hypothesized that the properties of sericin can enhance the amplification of flaviviruses in cell cultures. The propagation of flavivirus is inefficient and limits scientific research. Zika virus (ZIKV) is an important human pathogen that has been widely studied because of its high impact on public health. There is a need to amplify Zika virus both for research and vaccine development. In this work, we show that sericin improves ZIKV amplification in insect (C6/36) and mammalian (Vero) cell cultures, and that it has a cryoprotectant capacity. Supplementation of cell culture media with sericin at 80 µg/mL resulted in a significant increase of 1 log in the concentration of ZIKV infectious particles produced from both cell lines. Furthermore, final virus yields increased between 5 and 10-fold in Vero cells and between 7 and 23-fold in C6/36 cells when sericin was supplemented, compared to control conditions. These results show that sericin is an effective supplement to increase ZIKV production by Vero and C6/36 cells. Additionally, sericin was a suitable cryoprotective agent, and hence an alternative to FBS and DMSO, for the cryopreservation of C6/36 cells but not for Vero cells.

Published

2022

4. Dengue Virus NS1 Uses Scavenger Receptor B1 as a Cell Receptor in Cultured Cells

Author

Ana C. Alcalá, José L. Maravillas, David Meza, Octavio T. Ramirez, Juan E. Ludert, and Laura A. Palomares

Subjects

Receptors, Scavenger, Zika Virus Infection, viruses, Immunology, Zika Virus, Dengue Virus, Viral Nonstructural Proteins, Virus Internalization, Microbiology, Cell Line, Virus-Cell Interactions, Dengue, Culicidae, Virology, Insect Science, Chlorocebus aethiops, Animals, Humans, Lipoproteins, HDL, Vero Cells, Receptors, Lipoprotein

Abstract

The dengue virus NS1 is a multifunctional protein that forms part of replication complexes. NS1 is also secreted, as a hexamer, to the extracellular milieu. Circulating NS1 has been associated with dengue pathogenesis by several mechanisms. Cell binding and internalization of soluble NS1 result in endothelial hyperpermeability and in the downregulation of the innate immune response. In this work, we report that the HDL scavenger receptor B1 (SRB1) in human hepatic cells and a scavenger receptor B1-like in mosquito C6/36 cells act as cell surface binding receptors for dengue virus NS1. The presence of the SRB1 on the plasma membrane of C6/36 cells, as well as in Huh7 cells, was demonstrated by confocal microscopy. The internalization of NS1 can be efficiently blocked by anti-SRB1 antibodies, and previous incubation of the cells with HDL significantly reduces NS1 internalization. Significant reduction in NS1 internalization was observed in C6/36 cells transfected with siRNAs specific for SRB1. In addition, the transient expression of SRB1 in Vero cells, which lacks the receptor, allows NS1 internalization in these cells. Direct interaction between soluble NS1 and the SRB1 in Huh7 and C6/36 cells was demonstrated in situ by proximity ligation assays and in vitro by surface plasmon resonance. Finally, results are presented indicating that the SRB1 also acts as a cell receptor for Zika virus NS1. These results demonstrate that dengue virus NS1, a bona fide lipoprotein, usurps the HDL receptor for cell entry and offers explanations for the altered serum lipoprotein homeostasis observed in dengue patients. IMPORTANCE Dengue is the most common viral disease transmitted to humans by mosquitoes. The dengue virus NS1 is a multifunctional glycoprotein necessary for viral replication. NS1 is also secreted as a hexameric lipoprotein and circulates in high concentrations in the sera of patients. Circulating NS1 has been associated with dengue pathogenesis by several mechanisms, including favoring of virus replication in hepatocytes and dendritic cells and disruption of the endothelial glycocalyx leading to hyperpermeability. Those last actions require NS1 internalization. Here, we identify the scavenger cell receptor B1, as the cell-binding receptor for dengue and Zika virus NS1, in cultured liver and in mosquito cells. The results indicate that flavivirus NS1, a bona fide lipoprotein, usurps the human HDL receptor and may offer explanations for the alterations in serum lipoprotein homeostasis observed in dengue patients.

Published

2022

5. The dengue virus non-structural protein 1 (NS1) use the scavenger receptor B1 as cell receptor in human hepatic and mosquito cells

Author

Laura A. Palomares, Juan E. Ludert, David Meza, Ana C. Alcalá, Octavio T. Ramírez, and José L. Maravillas

Subjects

Innate immune system, biology, Chemistry, media_common.quotation_subject, viruses, virus diseases, Dengue virus, biochemical phenomena, metabolism, and nutrition, medicine.disease_cause, medicine.disease, Dengue fever, Cell biology, medicine, Vero cell, biology.protein, Antibody, Scavenger receptor, Internalization, Receptor, media_common

Abstract

Dengue is the most common virus disease transmitted to humans by mosquitoes. The dengue virus NS1 is a multifunctional protein that form part of replication complexes. In addition, NS1 is also secreted, as a hexamer, to the extracellular milieu. Circulating NS1 has been associated with dengue pathogenesis by several different mechanisms. Cell binding and internalization of soluble NS1 result in the disruption of tight junctions and in down regulation of the innate immune response. In this work, we report that the HDL scavenger receptor B1 (SRB1) in human hepatic cells, and a scavenger receptor B1-like in mosquito C6/36 cells act as cell surface binding receptor for dengue virus NS1. The presence of the SRB1 on the plasma membrane of C6/36 cells, as well as in Huh-7 cells, was demonstrated by confocal microcopy. Internalization of NS1 can be efficiently blocked by anti-SRB1 antibodies and previous incubation of the cells with HDL significantly reduces NS1 internalization. In addition, the transient expression of SRB1 in Vero cells, which lack the receptor, renders these cells susceptible to NS1 entry. Direct interaction between soluble NS1 and the SRB1 in Huh7 and C6/36 cells was demonstrated in vivo by proximity ligation assays an in vitro by surface plasmon resonance. Finally, data is presented indicating that the SRB1 also act as cell receptor for zika virus NS1. These results demonstrate that dengue virus NS1, abona fidelipoprotein, usurps the HDL receptor for cell entry and offers explanations for the altered serum lipoprotein homeostasis observed in dengue patients.

Published

2019

6. Secretion of Nonstructural Protein 1 of Dengue Virus from Infected Mosquito Cells: Facts and Speculations

Author

Juan E. Ludert, Ana C. Alcalá, and Laura A. Palomares

Subjects

0301 basic medicine, viruses, media_common.quotation_subject, Immunology, Mosquito Vectors, Insect, Viral Nonstructural Proteins, Dengue virus, Biology, medicine.disease_cause, Microbiology, Dengue fever, Dengue, 03 medical and health sciences, Virology, parasitic diseases, medicine, Animals, Humans, Secretion, Vector (molecular biology), media_common, chemistry.chemical_classification, Gem, fungi, virus diseases, Dengue Virus, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, medicine.disease, Flavivirus, Culicidae, 030104 developmental biology, chemistry, Insect Science, Glycoprotein

Abstract

Dengue virus nonstructural protein 1 (NS1) is a multifunctional glycoprotein. For decades, the notion in the field was that NS1 is secreted exclusively from vertebrate cells and not from mosquito cells. However, recent evidence shows that mosquito cells also secrete NS1 efficiently. In this review, we discuss the evidence for secretion of NS1 of dengue virus, and of other flaviviruses, from mosquito cells, differences between NS1 secreted from mosquito and NS1 secreted from vertebrate cells, and possible roles of soluble NS1 in the insect flavivirus vector.

Published

2018

7. The dengue virus non-structural protein 1 (NS1) is secreted from infected mosquito cells via a non-classical caveolin-1-dependent pathway

Author

Ana C. Alcalá, Fernando Medina, David Santiago Coll, Juan E. Ludert, Raiza Hernandez-Bravo, José L. Zambrano, and Rosa M. del Angel

Subjects

0301 basic medicine, Glycosylation, viruses, Caveolin 1, Plasma protein binding, Biology, Dengue virus, Viral Nonstructural Proteins, medicine.disease_cause, Cell Line, 03 medical and health sciences, symbols.namesake, chemistry.chemical_compound, Aedes, Virology, medicine, Animals, Secretion, Secretory pathway, chemistry.chemical_classification, Secretory Pathway, virus diseases, biochemical phenomena, metabolism, and nutrition, Golgi apparatus, Brefeldin A, Dengue Virus, Cell biology, 030104 developmental biology, chemistry, symbols, Insect Proteins, Glycoprotein, Protein Binding

Abstract

Dengue virus NS1 is a glycoprotein of 46-50 kDa that is conserved among flaviviruses, associates as a dimer to cell membranes and is secreted as a hexamer to the extracellular milieu. Recent evidence showed that NS1 is secreted efficiently from infected mosquito cells. To explore the secretory route of NS1 in mosquito cells, infected cells were treated with brefeldin A (BFA) and methyl-beta-cyclodextrin (MβCD). The results showed that MβCD, but not BFA, significantly reduced the release of NS1. Moreover, silencing the expression of caveolin-1 (CAV1; a key component of the caveolar system that transports cholesterol inside the cell), but not SAR1 (a GTPase that participates in the classical secretory pathway), also results in a significant reduction of the secretion of NS1. These results indicate that NS1 is released from mosquito cells via an unconventional secretory route that bypasses the Golgi complex, with the participation of CAV1. In agreement with this notion, differences were observed in the glycosylation status between secreted NS1 and E proteins. Classical mechanics and docking simulations suggested highly favoured interactions between the caveolin-binding domain present in NS1 and the scaffolding domain of CAV1. Finally, proximity ligation assays showed direct interaction between NS1 and CAV1 in infected mosquito cells. These findings are in line with the lipoprotein nature of secreted NS1 and provide new insights into the biology of NS1.

Published

2017

8. The dengue virus NS1 protein; new roles in pathogenesis due to similarities with and affinity for the high-density lipoprotein (HDL)?

Author

Alcalá, Ana C. and Ludert, Juan E.

Subjects

DENGUE viruses, VIRAL proteins, HIGH density lipoproteins, VIRAL nonstructural proteins, DENGUE hemorrhagic fever, MOSQUITO control, CELL receptors, FENITROTHION

Abstract

Interestingly, although the total amounts estimated for each lipid type were different, and the lipid-to-protein ratio was lower for the NS1, the composition of the soluble NS1 resembles the lipid cargo of the human high-density lipoprotein (HDL). Dengue virus NS1 dimer is lipophilic, and the hexamer is a bona fide lipoprotein The seminal work by Gutsche and colleagues [[12]] showed that circulating dengue NS1 is a bona fide lipoprotein. Dengue, the most important mosquito-borne viral disease transmitted to humans, is caused by any of the 4 known serotypes of the dengue virus (DENV). [Extracted from the article]

Published

2023