Your search keyword '"replication kinetics"' showing total 45 results

1. Reactive oxygen species favors Varicellovirus bovinealpha 5 (BoAHV-5) replication in neural cells

Author

Rosales, Juan José, Brunner, María Belén, Rodríguez, Marcelo, Marin, Maia, Maldonado, Eduardo Néstor, and Pérez, Sandra

Published

2025

2. Potential of Ilhéus virus to emerge

Author

Plante, Kenneth S., Plante, Jessica A., Azar, Sasha R., Shinde, Divya P., Scharton, Dionna, Versiani, Alice F., Oliveira da Silva, Natalia Ingrid, Strange, Taylor, Sacchetto, Lívia, Fokam, Eric B., Rossi, Shannan L., Weaver, Scott C., Marques, Rafael E., Nogueira, Mauricio L., and Vasilakis, Nikos

Published

2024

3. Replication Kinetics and Infectivity of African Swine Fever Virus (ASFV) Variants with Different Genotypes or Levels of Virulence in Cell Culture Models of Primary Porcine Macrophages

Author

Brecht Droesbeke, Nadège Balmelle, Ann Brigitte Cay, Shaojie Han, Dayoung Oh, Hans J. Nauwynck, and Marylène Tignon

Subjects

ASFV, infectivity, replication kinetics, primary porcine macrophages, virulence, macrophage maturation, Microbiology, QR1-502

Abstract

African Swine Fever (ASF) is a devastating viral hemorrhagic disease that causes high morbidity and mortality in domestic pigs and wild boars, severely impacting the swine industry. The etiologic agent, African Swine Fever virus (ASFV), mainly infects myeloid cells of the swine mononuclear phagocytic system (MPS). For other porcine viruses, in vitro culture models with primary cells are widely used as they mimic the in vivo viral replication behavior better compared to continuous cell lines. Our study validates this possible correlation for ASFV using cell culture models established for three different porcine macrophages, isolated from the lungs (porcine alveolar macrophages), blood (monocyte-derived macrophages) and spleen (spleen macrophages). The cells were infected with two genotype I and two genotype II strains with different pathogenic potential in vivo. The highly virulent strains replicated better in general than the low-virulent strains. This was most pronounced in monocyte-derived macrophages, although only statistically significant 18 h post-infection (hpi) in the intracellular genomic ASFV copies between E70 and the low-virulent strains. For this reason, we conclude that the different replication characteristics between the strains with different virulence do not proportionally represent the differences in pathology seen between the strains in vivo. Additionally, ASFV-positive cells were observed earlier in monocyte-derived macrophages (MDMs) compared to the alveolar and spleen macrophages, subsequently leading to an earlier rise in extracellular virus, and, ultimately, more MDMs were infected at the end of sampling. For these reasons, we propose MDMs as the best-suited cell type to study ASFV.

Published

2024

4. Insights into the Replication Kinetics Profiles of Malaysian SARS-CoV-2 Variant Alpha, Beta, Delta, and Omicron in Vero E6 Cell Line.

Author

Mohd Zawawi, Zarina, Kalyanasundram, Jeevanathan, Mohd Zain, Rozainanee, Mat Ripen, Adiratna, Basri, Dayang Fredalina, and Yap, Wei Boon

Subjects

*SARS-CoV-2 Omicron variant, *WHOLE genome sequencing, *SARS-CoV-2, *CELL culture, *CELL lines

Abstract

Comprehending the replication kinetics of SARS-CoV-2 variants helps explain why certain variants spread more easily, are more contagious, and pose a significant health menace to global populations. The replication kinetics of the Malaysian isolates of Alpha, Beta, Delta, and Omicron variants were studied in the Vero E6 cell line. Their replication kinetics were determined using the plaque assay, quantitative real-time PCR (qRT-PCR), and the viral growth curve. The Beta variant exhibited the highest replication rate at 24 h post-infection (h.p.i), as evidenced by the highest viral titers and lowest viral RNA multiplication threshold. The plaque phenotypes also varied among the variants, in which the Beta and Omicron variants formed the largest and smallest plaques, respectively. All studied variants showed strong cytopathic effects after 48 h.p.i. The whole-genome sequencing highlighted cell-culture adaptation, where the Beta, Delta, and Omicron variants acquired mutations at the multibasic cleavage site after three cycles of passaging. The findings suggest a strong link between the replication rates and their respective transmissibility and pathogenicity. This is essential in predicting the impacts of the upcoming variants on the local and global populations and is useful in designing preventive measures to curb virus outbreaks. [ABSTRACT FROM AUTHOR]

Published

2024

5. Replication Kinetics and Infectivity of African Swine Fever Virus (ASFV) Variants with Different Genotypes or Levels of Virulence in Cell Culture Models of Primary Porcine Macrophages.

Author

Droesbeke, Brecht, Balmelle, Nadège, Cay, Ann Brigitte, Han, Shaojie, Oh, Dayoung, Nauwynck, Hans J., and Tignon, Marylène

Subjects

*AFRICAN swine fever virus, *PRIMARY cell culture, *ALVEOLAR macrophages, *MYELOID cells, *WILD boar, *AFRICAN swine fever

Abstract

African Swine Fever (ASF) is a devastating viral hemorrhagic disease that causes high morbidity and mortality in domestic pigs and wild boars, severely impacting the swine industry. The etiologic agent, African Swine Fever virus (ASFV), mainly infects myeloid cells of the swine mononuclear phagocytic system (MPS). For other porcine viruses, in vitro culture models with primary cells are widely used as they mimic the in vivo viral replication behavior better compared to continuous cell lines. Our study validates this possible correlation for ASFV using cell culture models established for three different porcine macrophages, isolated from the lungs (porcine alveolar macrophages), blood (monocyte-derived macrophages) and spleen (spleen macrophages). The cells were infected with two genotype I and two genotype II strains with different pathogenic potential in vivo. The highly virulent strains replicated better in general than the low-virulent strains. This was most pronounced in monocyte-derived macrophages, although only statistically significant 18 h post-infection (hpi) in the intracellular genomic ASFV copies between E70 and the low-virulent strains. For this reason, we conclude that the different replication characteristics between the strains with different virulence do not proportionally represent the differences in pathology seen between the strains in vivo. Additionally, ASFV-positive cells were observed earlier in monocyte-derived macrophages (MDMs) compared to the alveolar and spleen macrophages, subsequently leading to an earlier rise in extracellular virus, and, ultimately, more MDMs were infected at the end of sampling. For these reasons, we propose MDMs as the best-suited cell type to study ASFV. [ABSTRACT FROM AUTHOR]

Published

2024

6. A Useful Method to Provide Infectious and Cultivable In Vitro Naked Viral Particles of Hepatitis A Virus.

Author

Verbrugghe, Gwenaëlle, Soudan-Foulques, Chloé, Fraisse, Audrey, Waldman Vigne, Prunelle, Perelle, Sylvie, Ndoye, Fatou-Toutie, and Martin-Latil, Sandra

Subjects

*VIRAL hepatitis, *ENTEROVIRUSES, *FOOD industry, *VIRAL replication, *PICORNAVIRUSES

Abstract

Hepatitis A virus (HAV) is an enteric virus mainly transmitted by the faecal–oral route. Belonging to the Picornaviridae family, HAV was first described as small naked particles, like all viruses of this family. However, for about a decade, it was demonstrated that HAV particles can exist surrounded by a lipid bilayer. This type of particle, called enveloped HAV (eHAV), acquires its lipid bilayer by hijacking a part of cell membranes during the virion egress in the last steps of the viral cycle. In vitro culture systems produce mainly eHAV, and so, to date, most of the studies on HAV have been carried out using this type of viral particle. In this study, a method based on lipid bilayer removal by chemical delipidation is proposed for the production of naked HAV particles. The resulting naked HAV particles conserve their infectivity and are therefore fully cultivable in vitro. By using this method, naked HAV particles can easily be produced in vitro and can be useful to perform further studies such as inactivation processes for the food industry, as HAV is a main concern for food safety. [ABSTRACT FROM AUTHOR]

Published

2024

7. Replication kinetics and infectivity of SARS-CoV-2 Omicron variant sublineages recovered in the Republic of Korea

Author

Jeong-Min Kim, Dongju Kim, Jee Eun Rhee, Cheon Kwon Yoo, and Eun-Jin Kim

Subjects

infectivity, omicron, replication kinetics, sars-cov-2, transmissibility, Special situations and conditions, RC952-1245, Infectious and parasitic diseases, RC109-216

Abstract

Objectives We analyzed the correlation between the infectivity and transmissibility of the severe acute respiratory syndrome coronavirus 2 Omicron sublineages BA.1, BA.2, BA.4, and BA.5. Methods We assessed viral replication kinetics and infectivity at the cellular level. Nasopharyngeal and oropharyngeal specimens were obtained from patients with coronavirus disease 2019, confirmed using whole-genome sequencing to be caused by the Omicron sublineages BA.1, BA.2, BA.4, or BA.5. These specimens were used to infect Vero E6 cells, derived from monkey kidneys, for the purpose of viral isolation. Viral stocks were then passaged in Vero E6 cells at a multiplicity of infection of 0.01, and culture supernatants were harvested at 12-hour intervals for 72 hours. To evaluate viral replication kinetics, we determined the cycle threshold values of the supernatants using real-time reverse transcription polymerase chain reaction and converted these values to genome copy numbers. Results The viral load was comparable between BA.2, BA.4, and BA.5, whereas BA.1 exhibited a lower value. The peak infectious load of BA.4 was approximately 3 times lower than that of BA.2 and BA.5, while the peak load of BA.2 and BA.5 was about 7 times higher than that of BA.1. Notably, BA.1 demonstrated the lowest infectivity over the entire study period. Conclusion Our results suggest that the global BA.5 wave may have been amplified by the higher viral replication and infectivity of BA.5 compared to other Omicron sublineages. These analyses could support the rapid assessment of the impact of novel variants on case incidence.

Published

2024

8. VP4 Mutation Boosts Replication of Recombinant Human/Simian Rotavirus in Cell Culture.

Author

Valusenko-Mehrkens, Roman, Schilling-Loeffler, Katja, Johne, Reimar, and Falkenhagen, Alexander

Subjects

*ROTAVIRUSES, *CHILD death, *CELL culture, *REVERSE genetics, *WHOLE genome sequencing, *VACCINE development, *BASE pairs

Abstract

Rotavirus A (RVA) is the leading cause of diarrhea requiring hospitalization in children and causes over 100,000 annual deaths in Sub-Saharan Africa. In order to generate next-generation vaccines against African RVA genotypes, a reverse genetics system based on a simian rotavirus strain was utilized here to exchange the antigenic capsid proteins VP4, VP7 and VP6 with those of African human rotavirus field strains. One VP4/VP7/VP6 (genotypes G9-P[6]-I2) triple-reassortant was successfully rescued, but it replicated poorly in the first cell culture passages. However, the viral titer was enhanced upon further passaging. Whole genome sequencing of the passaged virus revealed a single point mutation (A797G), resulting in an amino acid exchange (E263G) in VP4. After introducing this mutation into the VP4-encoding plasmid, a VP4 mono-reassortant as well as the VP4/VP7/VP6 triple-reassortant replicated to high titers already in the first cell culture passage. However, the introduction of the same mutation into the VP4 of other human RVA strains did not improve the rescue of those reassortants, indicating strain specificity. The results show that specific point mutations in VP4 can substantially improve the rescue and replication of recombinant RVA reassortants in cell culture, which may be useful for the development of novel vaccine strains. [ABSTRACT FROM AUTHOR]

Published

2024

9. A Useful Method to Provide Infectious and Cultivable In Vitro Naked Viral Particles of Hepatitis A Virus

Author

Gwenaëlle Verbrugghe, Chloé Soudan-Foulques, Audrey Fraisse, Prunelle Waldman Vigne, Sylvie Perelle, Fatou-Toutie Ndoye, and Sandra Martin-Latil

Subjects

hepatitis A virus, delipidation, replication kinetics, Microbiology, QR1-502

Abstract

Hepatitis A virus (HAV) is an enteric virus mainly transmitted by the faecal–oral route. Belonging to the Picornaviridae family, HAV was first described as small naked particles, like all viruses of this family. However, for about a decade, it was demonstrated that HAV particles can exist surrounded by a lipid bilayer. This type of particle, called enveloped HAV (eHAV), acquires its lipid bilayer by hijacking a part of cell membranes during the virion egress in the last steps of the viral cycle. In vitro culture systems produce mainly eHAV, and so, to date, most of the studies on HAV have been carried out using this type of viral particle. In this study, a method based on lipid bilayer removal by chemical delipidation is proposed for the production of naked HAV particles. The resulting naked HAV particles conserve their infectivity and are therefore fully cultivable in vitro. By using this method, naked HAV particles can easily be produced in vitro and can be useful to perform further studies such as inactivation processes for the food industry, as HAV is a main concern for food safety.

Published

2024

10. Potential of Ilhéus virus to emerge

Author

Kenneth S. Plante, Jessica A. Plante, Sasha R. Azar, Divya P. Shinde, Dionna Scharton, Alice F. Versiani, Natalia Ingrid Oliveira da Silva, Taylor Strange, Lívia Sacchetto, Eric B. Fokam, Shannan L. Rossi, Scott C. Weaver, Rafael E. Marques, Mauricio L. Nogueira, and Nikos Vasilakis

Subjects

Ilhéus virus, Flavivirus, Replication kinetics, Animal models, Vector competence, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Ilhéus virus (ILHV)(Flaviviridae:Orthoflavivirus) is an arthropod-borne virus (arbovirus) endemic to Central and South America and the Caribbean. First isolated in 1944, most of our knowledge derives from surveillance and seroprevalence studies. These efforts have detected ILHV in a broad range of mosquito and vertebrate species, including humans, but laboratory investigations of pathogenesis and vector competence have been lacking. Here, we develop an immune intact murine model with several ages and routes of administration. Our model closely recapitulates human neuroinvasive disease with ILHV strain- and mouse age-specific virulence, as well as a uniformly lethal Ifnar−/− A129 immunocompromised model. Replication kinetics in several vertebrate and invertebrate cell lines demonstrate that ILHV is capable of replicating to high titers in a wide variety of potential host and vector species. Lastly, vector competence studies provide strong evidence for efficient infection of and potential transmission by Aedes species mosquitoes, despite ILHV's phylogenetically clustering with Culex vectored flaviviruses, suggesting ILHV is poised for emergence in the neotropics.

Published

2024

11. Isolation and characterization of emerging Mpox virus from India.

Author

Sharma, Sushil Kumar, Dash, Paban Kumar, Yadav, Ram Govind, Shrivastava, Ambuj, Menon, Rohit, Kumar, Jyoti S., Sharma, Shashi, Dhankher, Suman, Dhiman, Sunil, Kumari, Divya, Shukla, Manisha, Relhan, Vineet, Kumar, Suresh, and Parida, Manmohan

Subjects

MONKEYPOX, NUCLEOTIDE sequencing, VIRUS isolation, VIRUS diseases

Abstract

Mpox (previously known as Monkeypox) has recently re‐emerged, primarily through human‐to‐human transmission in non‐endemic countries including India. Virus isolation is still considered as the gold standard for diagnosis of viral infections. Here, the qPCR positive skin lesion sample from a patient was inoculated in Vero E6 cell monolayer. Characteristic cytopathic effect exhibiting typical cell rounding and detachment was observed at passage‐02. The virus isolation was confirmed by qPCR. The replication kinetics of the isolate was determined that revealed maximum viral titre of log 6.3 PFU/mL at 72 h postinfection. Further, whole genome analysis through next generation sequencing revealed that the Mpox virus (MPXV) isolate is characterized by several unique SNPs and INDELs. Phylogenetically, it belonged to A.2 lineage of clade IIb, forming a close group with all other Indian MPXV along with few from USA, UK, Portugal, Thailand and Nigeria. This study reports the first successful isolation and phenotypic and genotypic characterization of MPXV from India. [ABSTRACT FROM AUTHOR]

Published

2023

12. Intrahost Genetic Diversity of Dengue Virus in Human Hosts and Mosquito Vectors under Natural Conditions Which Impact Replicative Fitness In Vitro.

Author

Nonyong, Patcharaporn, Ekalaksananan, Tipaya, Phanthanawiboon, Supranee, Overgaard, Hans J., Alexander, Neal, Thaewnongiew, Kesorn, Sawaswong, Vorthon, Nimsamer, Pattaraporn, Payungporn, Sunchai, Phadungsombat, Juthamas, Nakayama, Emi E., Shioda, Tatsuo, and Pientong, Chamsai

Subjects

*GENETIC variation, *DENGUE viruses, *MOSQUITO vectors, *VIRUS diversity, *AEDES aegypti, *MOSQUITO control, *MOSQUITOES, *VIRAL replication

Abstract

Dengue virus (DENV) is an arbovirus whose transmission cycle involves disparate hosts: humans and mosquitoes. The error-prone nature of viral RNA replication drives the high mutation rates, and the consequently high genetic diversity affects viral fitness over this transmission cycle. A few studies have been performed to investigate the intrahost genetic diversity between hosts, although their mosquito infections were performed artificially in the laboratory setting. Here, we performed whole-genome deep sequencing of DENV-1 (n = 11) and DENV-4 (n = 13) derived from clinical samples and field-caught mosquitoes from the houses of naturally infected patients, in order to analyze the intrahost genetic diversity of DENV between host types. Prominent differences in DENV intrahost diversity were observed in the viral population structure between DENV-1 and DENV-4, which appear to be associated with differing selection pressures. Interestingly, three single amino acid substitutions in the NS2A (K81R), NS3 (K107R), and NS5 (I563V) proteins in DENV-4 appear to be specifically acquired during infection in Ae. aegypti mosquitoes. Our in vitro study shows that the NS2A (K81R) mutant replicates similarly to the wild-type infectious clone-derived virus, while the NS3 (K107R), and NS5 (I563V) mutants have prolonged replication kinetics in the early phase in both Vero and C6/36 cells. These findings suggest that DENV is subjected to selection pressure in both mosquito and human hosts. The NS3 and NS5 genes may be specific targets of diversifying selection that play essential roles in early processing, RNA replication, and infectious particle production, and they are potentially adaptive at the population level during host switching. [ABSTRACT FROM AUTHOR]

Published

2023

13. Strain-Specific Interactions between the Viral Capsid Proteins VP4, VP7 and VP6 Influence Rescue of Rotavirus Reassortants by Reverse Genetics.

Author

Valusenko-Mehrkens, Roman, Gadicherla, Ashish K., Johne, Reimar, and Falkenhagen, Alexander

Subjects

*REVERSE genetics, *ROTAVIRUSES, *CYTOSKELETAL proteins, *PROTEIN-protein interactions, *AMINO acid residues

Abstract

Rotavirus A (RVA) genome segments can reassort upon co-infection of target cells with two different RVA strains. However, not all reassortants are viable, which limits the ability to generate customized viruses for basic and applied research. To gain insight into the factors that restrict reassortment, we utilized reverse genetics and tested the generation of simian RVA strain SA11 reassortants carrying the human RVA strain Wa capsid proteins VP4, VP7, and VP6 in all possible combinations. VP7-Wa, VP6-Wa, and VP7/VP6-Wa reassortants were effectively rescued, but the VP4-Wa, VP4/VP7-Wa, and VP4/VP6-Wa reassortants were not viable, suggesting a limiting effect of VP4-Wa. However, a VP4/VP7/VP6-Wa triple-reassortant was successfully generated, indicating that the presence of homologous VP7 and VP6 enabled the incorporation of VP4-Wa into the SA11 backbone. The replication kinetics of the triple-reassortant and its parent strain Wa were comparable, while the replication of all other rescued reassortants was similar to SA11. Analysis of the predicted structural protein interfaces identified amino acid residues, which might influence protein interactions. Restoring the natural VP4/VP7/VP6 interactions may therefore improve the rescue of RVA reassortants by reverse genetics, which could be useful for the development of next generation RVA vaccines. [ABSTRACT FROM AUTHOR]

Published

2023

14. Rabbit haemorrhagic disease virus Lagovirus europaeus/GI.1d strain: genome sequencing, in vivo virus replication kinetics, and viral dose effect

Author

Clément Droillard, Evelyne Lemaitre, Michel Amelot, Yannick Blanchard, Alassane Keita, Nicolas Eterradossi, and Ghislaine Le Gall-Reculé

Subjects

Lagovirus, RHDV, GI.1d, Replication kinetics, Minimum infective dose, RT-qPCR, Veterinary medicine, SF600-1100

Abstract

Abstract Background Rabbit haemorrhagic disease virus Lagovirus europaeus/GI.1d variant (GI.1d/RHDV) was identified in 1990 in France, and until the emergence of the new genotype GI.2, it was the main variant circulating in the country. The early stages of RHDV infection have been described in a few studies of rabbits experimentally infected with earlier strains, but no information was given on the minimum infective dose. We report the genomic and phenotypic characterisation of a GI.1d/RHDV strain collected in 2000 in France (GI.1d/00–21). Results We performed in vivo assays in rabbits to study virus replication kinetics in several tissues at the early stage of infection, and to estimate the minimum infective dose. Four tested doses, negligible (10− 1 viral genome copies), low (104), high (107) and very high (1011) were quantified using a method combining density gradient centrifugation of the viral particles and an RT-qPCR technique developed to quantify genomic RNA (gRNA). The GI.1d/00–21 genome showed the same genomic organisation as other lagoviruses; however, a substitution in the 5′ untranslated region and a change in the potential p23/2C-like helicase cleavage site were observed. We showed that the liver of one of the two rabbits inoculated via the oral route was infected at 16 h post-infection and all tissues at 39 h post-infection. GI.1d/00–21 induced classical RHD signs (depression) and lesions (haemorrhage and splenomegaly). Although infective dose estimation should be interpreted with caution, the minimum infective dose that infected an inoculated rabbit was lower or equal to 104 gRNA copies, whereas between 104 and 107 gRNA copies were required to also induce mortality. Conclusions These results provide a better understanding of GI.1d/RHDV infection in rabbits. The genome analysis showed a newly observed mutation in the 5′ untranslated region of a lagovirus, whose role remains unknown. The phenotypic analysis showed that the pathogenicity of GI.1d/00–21 and the replication kinetics in infected organs were close to those reported for the original GI.1 strains, and could not alone explain the observed selective advantage of the GI.1d strains. Determining the minimum dose of viral particles required to cause mortality in rabbits is an important input for in vivo studies.

Published

2021

15. Human pegivirus type 1 infection in kidney transplant recipients: Replication kinetics and clinical correlates.

Author

Fernández‐Ruiz, Mario, Forque, Lorena, Albert, Eliseo, Redondo, Natalia, Giménez, Estela, López‐Medrano, Francisco, González, Esther, Polanco, Natalia, Ruiz‐Merlo, Tamara, Parra, Patricia, San Juan, Rafael, Andrés, Amado, Aguado, José María, and Navarro, David

Subjects

*KIDNEY transplantation, *TORQUE teno virus, *HIV, *GRAFT rejection, *RNA polymerases

Abstract

Background: Increasing evidence suggests that infection with the nonpathogenic human pegivirus type 1 (HPgV‐1) exerts a clinical benefit in human immunodeficiency virus (HIV) patients, which could be attributable to immunomodulatory effects. Whether this impact can be extrapolated to kidney transplantation (KT) remains largely unknown. Methods: We measured plasma HPgV‐1 RNA by real‐time polymerase chain reaction targeting the 5′ untranslated region at various points (pretransplantation, day 7, months 1, 3, 6, and 12) in 199 KT recipients. Study outcomes included posttransplant serious infection, immunosuppression‐related adverse event (opportunistic infection and/or de novo cancer), and acute graft rejection. Results: HPgV‐1 infection was demonstrated in 52 (26.1%) patients, with rates increasing from 14.7% at baseline to 19.1% by month 12 (p‐value =.071). De novo infection occurred in 13.8% of patients with no detectable HPgV‐1 RNA before transplantation. Double‐organ (liver–kidney or kidney–pancreas) transplantation (odds ratio [OR]: 5.62; 95% confidence interval [CI]: 1.52–20.82) and donation after brain death (OR: 2.21; 95% CI: 1.00–4.88) were associated with posttransplant HPgV‐1 infection, whereas pretransplant hypertension was protective (OR: 0.23; 95% CI: 0.09–0.55). There were no significant differences in the incidence of study outcomes according to HPgV‐1 status. Plasma HPgV‐1 RNA levels at different points did not significantly differ between patients that subsequently developed outcomes and those remaining free from these events. No correlation between HPgV‐1 RNA and immune parameters or torque teno virus DNA load was observed either. Conclusion: Unlike patients living with HIV, HPgV‐1 infection does not seem to influence patient or graft outcomes after KT. [ABSTRACT FROM AUTHOR]

Published

2022

16. Intrahost Genetic Diversity of Dengue Virus in Human Hosts and Mosquito Vectors under Natural Conditions Which Impact Replicative Fitness In Vitro

Author

Patcharaporn Nonyong, Tipaya Ekalaksananan, Supranee Phanthanawiboon, Hans J. Overgaard, Neal Alexander, Kesorn Thaewnongiew, Vorthon Sawaswong, Pattaraporn Nimsamer, Sunchai Payungporn, Juthamas Phadungsombat, Emi E. Nakayama, Tatsuo Shioda, and Chamsai Pientong

Subjects

dengue virus, Aedes aegypti, intrahost genetic diversity, selection pressure, host switching, replication kinetics, Microbiology, QR1-502

Abstract

Dengue virus (DENV) is an arbovirus whose transmission cycle involves disparate hosts: humans and mosquitoes. The error-prone nature of viral RNA replication drives the high mutation rates, and the consequently high genetic diversity affects viral fitness over this transmission cycle. A few studies have been performed to investigate the intrahost genetic diversity between hosts, although their mosquito infections were performed artificially in the laboratory setting. Here, we performed whole-genome deep sequencing of DENV-1 (n = 11) and DENV-4 (n = 13) derived from clinical samples and field-caught mosquitoes from the houses of naturally infected patients, in order to analyze the intrahost genetic diversity of DENV between host types. Prominent differences in DENV intrahost diversity were observed in the viral population structure between DENV-1 and DENV-4, which appear to be associated with differing selection pressures. Interestingly, three single amino acid substitutions in the NS2A (K81R), NS3 (K107R), and NS5 (I563V) proteins in DENV-4 appear to be specifically acquired during infection in Ae. aegypti mosquitoes. Our in vitro study shows that the NS2A (K81R) mutant replicates similarly to the wild-type infectious clone-derived virus, while the NS3 (K107R), and NS5 (I563V) mutants have prolonged replication kinetics in the early phase in both Vero and C6/36 cells. These findings suggest that DENV is subjected to selection pressure in both mosquito and human hosts. The NS3 and NS5 genes may be specific targets of diversifying selection that play essential roles in early processing, RNA replication, and infectious particle production, and they are potentially adaptive at the population level during host switching.

Published

2023

17. Rabbit haemorrhagic disease virus Lagovirus europaeus/GI.1d strain: genome sequencing, in vivo virus replication kinetics, and viral dose effect.

Author

Droillard, Clément, Lemaitre, Evelyne, Amelot, Michel, Blanchard, Yannick, Keita, Alassane, Eterradossi, Nicolas, and Le Gall-Reculé, Ghislaine

Subjects

*VIRAL replication, *VIRUS diseases, *NUCLEOTIDE sequencing, *DENSITY gradient centrifugation, *VIRAL genomes, *VIRAL genetics, RABBIT diseases

Abstract

Background: Rabbit haemorrhagic disease virus Lagovirus europaeus/GI.1d variant (GI.1d/RHDV) was identified in 1990 in France, and until the emergence of the new genotype GI.2, it was the main variant circulating in the country. The early stages of RHDV infection have been described in a few studies of rabbits experimentally infected with earlier strains, but no information was given on the minimum infective dose. We report the genomic and phenotypic characterisation of a GI.1d/RHDV strain collected in 2000 in France (GI.1d/00–21). Results: We performed in vivo assays in rabbits to study virus replication kinetics in several tissues at the early stage of infection, and to estimate the minimum infective dose. Four tested doses, negligible (10− 1 viral genome copies), low (104), high (107) and very high (1011) were quantified using a method combining density gradient centrifugation of the viral particles and an RT-qPCR technique developed to quantify genomic RNA (gRNA). The GI.1d/00–21 genome showed the same genomic organisation as other lagoviruses; however, a substitution in the 5′ untranslated region and a change in the potential p23/2C-like helicase cleavage site were observed. We showed that the liver of one of the two rabbits inoculated via the oral route was infected at 16 h post-infection and all tissues at 39 h post-infection. GI.1d/00–21 induced classical RHD signs (depression) and lesions (haemorrhage and splenomegaly). Although infective dose estimation should be interpreted with caution, the minimum infective dose that infected an inoculated rabbit was lower or equal to 104 gRNA copies, whereas between 104 and 107 gRNA copies were required to also induce mortality. Conclusions: These results provide a better understanding of GI.1d/RHDV infection in rabbits. The genome analysis showed a newly observed mutation in the 5′ untranslated region of a lagovirus, whose role remains unknown. The phenotypic analysis showed that the pathogenicity of GI.1d/00–21 and the replication kinetics in infected organs were close to those reported for the original GI.1 strains, and could not alone explain the observed selective advantage of the GI.1d strains. Determining the minimum dose of viral particles required to cause mortality in rabbits is an important input for in vivo studies. [ABSTRACT FROM AUTHOR]

Published

2021

18. Replication kinetics and infectivity of SARS-CoV-2 Omicron variant sublineages recovered in the Republic of Korea.

Author

Kim JM, Kim D, Rhee JE, Yoo CK, and Kim EJ

Abstract

Background: We analyzed the correlation between the infectivity and transmissibility of the severe acute respiratory syndrome coronavirus 2 Omicron sublineages BA.1, BA. 2, BA.4, and BA.5., Methods: We assessed viral replication kinetics and infectivity at the cellular level. Nasopharyngeal and oropharyngeal specimens were obtained from patients with coronavirus disease 2019, confirmed using whole-genome sequencing to be caused by the Omicron sublineages BA.1, BA.2, BA.4, or BA.5. These specimens were used to infect Vero E6 cells, derived from monkey kidneys, for the purpose of viral isolation. Viral stocks were then passaged in Vero E6 cells at a multiplicity of infection of 0.01, and culture supernatants were harvested at 12-hour intervals for 72 hours. To evaluate viral replication kinetics, we determined the cycle threshold values of the supernatants using real-time reverse transcription polymerase chain reaction and converted these values to genome copy numbers., Results: The viral load was comparable between BA.2, BA.4, and BA.5, whereas BA.1 exhibited a lower value. The peak infectious load of BA.4 was approximately 3 times lower than that of BA.2 and BA.5, while the peak load of BA.2 and BA.5 was about 7 times higher than that of BA.1. Notably, BA.1 demonstrated the lowest infectivity over the entire study period., Conclusion: Our results suggest that the global BA.5 wave may have been amplified by the higher viral replication and infectivity of BA.5 compared to other Omicron sublineages. These analyses could support the rapid assessment of the impact of novel variants on case incidence.

Published

2024

19. Identification of Common Deletions in the Spike Protein of Severe Acute Respiratory Syndrome Coronavirus 2.

Author

Zhe Liu, Huanying Zheng, Huifang Lin, Mingyue Li, Runyu Yuan, Jinju Peng, Qianling Xiong, Jiufeng Sun, Baisheng Li, Jie Wu, Lina Yi, Xiaofang Peng, Huan Zhang, Wei Zhang, Hulswit, Ruben J. G., Loman, Nick, Rambaut, Andrew, Changwen Ke, Bowden, Thomas A., and Pybus, Oliver G.

Subjects

*COVID-19, *SARS-CoV-2, *VIRAL genomes

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a novel coronavirus first identified in December 2019. Notable features that make SARS-CoV-2 distinct from most other previously identified betacoronaviruses include a receptor binding domain and a unique insertion of 12 nucleotides or 4 amino acids (PRRA) at the S1/S2 boundary. In this study, we identified two deletion variants of SARS-CoV-2 that either directly affect the polybasic cleavage site itself (NSPRRAR) or a flanking sequence (QTQTN). These deletions were verified by multiple sequencing methods. In vitro results showed that the deletion of NSPRRAR likely does not affect virus replication in Vero and Vero-E6 cells; however, the deletion of QTQTN may restrict late-phase viral replication. The deletion of QTQTN was detected in 3 of 68 clinical samples and 12 of 24 in vitro-isolated viruses, while the deletion of NSPRRAR was identified in 3 in vitro-isolated viruses. Our data indicate that (i) there may be distinct selection pressures on SARS-CoV-2 replication or infection in vitro and in vivo; (ii) an efficient mechanism for deleting this region from the viral genome may exist, given that the deletion variant is commonly detected after two rounds of cell passage; and (iii) the PRRA insertion, which is unique to SARS-CoV-2, is not fixed during virus replication in vitro. These findings provide information to aid further investigation of SARS-CoV-2 infection mechanisms and a better understanding of the NSPRRAR deletion variant observed here. [ABSTRACT FROM AUTHOR]

Published

2020

20. Genome Analysis and Replication Studies of the African Green Monkey Simian Foamy Virus Serotype 3 Strain FV2014

Author

Sandra M. Fuentes, Eunhae H. Bae, Subhiksha Nandakumar, Dhanya K. Williams, and Arifa S. Khan

Subjects

simian foamy virus, spumaretrovirus, serotype, high-throughput sequencing, replication kinetics, cytopathic effect, Microbiology, QR1-502

Abstract

African green monkey (AGM) spumaretroviruses have been less well-studied than other simian foamy viruses (SFVs). We report the biological and genomic characterization of SFVcae_FV2014, which was the first foamy virus isolated from an African green monkey (AGM) and was found to be serotype 3. Infectivity studies in various cell lines from different species (mouse, dog, rhesus monkey, AGM, and human) indicated that like other SFVs, SFVcae_FV2014 had broad species and cell tropism, and in vitro cell culture infection resulted in cytopathic effect (CPE). In Mus dunni (a wild mouse fibroblast cell line), MDCK (Madin-Darby canine kidney cell line), FRhK-4 (a fetal rhesus kidney cell line), and MRC-5 (a human fetal lung cell line), SFVcae_FV2014 infection was productive resulting in CPE, and had delayed or similar replication kinetics compared with SFVmcy_FV21 and SFVmcy_FV34[RF], which are two Taiwanese macaque isolates, designated as serotypes 1 and 2, respectively. However, in Vero (AGM kidney cell line) and A549 (a human lung carcinoma cell line), the replication kinetics of SFVcae_FV2014 and the SFVmcy viruses were discordant: In Vero, SFVcae_FV2014 showed rapid replication kinetics and extensive CPE, and a persistent infection was seen in A549, with delayed, low CPE, which did not progress even upon extended culture (day 55). Nucleotide sequence analysis of the assembled SFVcae_FV2014 genome, obtained by high-throughput sequencing, indicated an overall 80–90% nucleotide sequence identity with SFVcae_LK3, the only available full-length genome sequence of an AGM SFV, and was distinct phylogenetically from other AGM spumaretroviruses, corroborating previous results based on analysis of partial env sequences. Our study confirmed that SFVcae_FV2014 and SFVcae_LK3 are genetically distinct AGM foamy virus (FV) isolates. Furthermore, comparative infectivity studies of SFVcae_FV2014 and SFVmcy isolates showed that although SFVs have a wide host range and cell tropism, regulation of virus replication is complex and depends on the virus strain and cell-specific factors.

Published

2020

21. Detailed Characterization of Early HIV-1 Replication Dynamics in Primary Human Macrophages

Author

David Alejandro Bejarano, Maria C. Puertas, Kathleen Börner, Javier Martinez-Picado, Barbara Müller, and Hans-Georg Kräusslich

Subjects

human immunodeficiency virus, primary macrophages, reverse-transcription complex, pre-integration complex, replication kinetics, SAMHD1, Microbiology, QR1-502

Abstract

Macrophages are natural target cells of human immunodeficiency virus type 1 (HIV-1). Viral replication appears to be delayed in these cells compared to lymphocytes; however, little is known about the kinetics of early post-entry events. Time-of-addition experiments using several HIV-1 inhibitors and the detection of reverse transcriptase (RT) products with droplet digital PCR (ddPCR) revealed that early replication was delayed in primary human monocyte-derived macrophages of several donors and peaked late after infection. Direct imaging of reverse-transcription and pre-integration complexes (RTC/PIC) by click-labeling of newly synthesized DNA further confirmed our findings and showed a concomitant shift to the nuclear stage over time. Altering the entry pathway enhanced infectivity but did not affect kinetics of viral replication. The addition of viral protein X (Vpx) enhanced productive infection and accelerated completion of reverse transcription and nuclear entry. We propose that sterile alpha motif (SAM) and histidine/aspartate (HD) domain-containing protein 1 (SAMHD1) activity lowering deoxyribonucleotide triphosphate (dNTP) pools is the principal factor delaying early HIV-1 replication in macrophages.

Published

2018

22. Basic biological characterization of feline morbillivirus.

Author

Rie KOIDE, Shoichi SAKAGUCHI, and Takayuki MIYAZAWA

Subjects

FELINE immunodeficiency virus infection, MORBILLIVIRUSES, IMMUNOFLUORESCENCE, NEPHRITIS, CATS

Abstract

The article presents a study which discusses the biological characterization of feline morbillivirus (FmoPV) in domestic cats with chronic nephritis. The study used an indirect immunofluorescence technique to establish a quantitative assay of FmoPV. Results show the significance of biological characteristics of FmoPV for developing a virus isolation method and for providing information relating to risk reduction of FmoPV infection.

Published

2015

23. Viral replication kinetics and in vitro cytopathogenicity of parental and reassortant strains of bluetongue virus serotype 1, 6 and 8.

Author

Coetzee, Peter, Van Vuuren, Moritz, Stokstad, Maria, Myrmel, Mette, van Gennip, René G.P., van Rijn, Piet A., and Venter, Estelle. H.

Subjects

*BLUETONGUE virus, *VIRAL replication, *CELLULAR pathology, *SEROTYPES, *IN vitro studies, *DOUBLE-stranded RNA, *RNA viruses

Abstract

Abstract: Bluetongue virus (BTV), a segmented dsRNA virus, is the causative agent of bluetongue (BT), an economically important viral haemorrhagic disease of ruminants. Bluetongue virus can exchange its genome segments in mammalian or insect cells that have been co-infected with more than one strain of the virus. This process, may potentially give rise to the generation of novel reassortant strains that may differ from parental strains in regards to their phenotypic characteristics. To investigate the potential effects of reassortment on the virus’ phenotype, parental as well as reassortant strains of BTV serotype 1, 6, 8, that were derived from attenuated and wild type strains by reverse genetics, were studied in vitro for their virus replication kinetics and cytopathogenicity in mammalian (Vero) cell cultures. The results indicate that genetic reassortment can affect viral replication kinetics, the cytopathogenicity and extent/mechanism of cell death in infected cell cultures. In particular, some reassortants of non-virulent vaccine (BTV-1 and BTV-6) and virulent field origin (BTV-8) demonstrate more pronounced cytopathic effects compared to their parental strains. Some reassortant strains in addition replicated to high titres in vitro despite being composed of genome segments from slow and fast replicating parental strains. The latter result may have implications for the level of viraemia in the mammalian host and subsequent uptake and transmission of reassortant strains (and their genome segments) by Culicoides vectors. Increased rates of CPE induction could further suggest a higher virulence for reassortant strains in vivo. Overall, these findings raise questions in regards to the use of modified-live virus (MLV) vaccines and risk of reassortment in the field. To further address these questions, additional experimental infection studies using insects and/or animal models should be conducted, to determine whether these results have significant implications in vivo. [Copyright &y& Elsevier]

Published

2014

24. Effect of sex steroid hormones on replication and transmission of major HIV subtypes.

Author

Ragupathy, Viswanath, Devadas, Krishnakumar, Tang, Shixing, Wood, Owen, Lee, Sherwin, Dastyer, Armeta, Wang, Xue, Dayton, Andrew, and Hewlett, Indira

Subjects

*PHYSIOLOGICAL effects of sex hormones, *HIV infection transmission, *VIRAL replication, *STEROID hormones, *DRUG dosage, *MOLECULAR biology

Abstract

Highlights: [•] Dose of sex hormones influence replication and transmission of HIV. [•] High dose of hormone reduced replication and transmission of HIV. [•] Hormone effects were inconsistent between donor cells or subtypes of HIV. [Copyright &y& Elsevier]

Published

2013

25. Cellular pathogenesis of porcine circovirus type 2 infection.

Author

Dvorak, Cheryl M.T., Puvanendiran, Sumathy, and Murtaugh, Michael P.

Subjects

*CIRCOVIRUS diseases, *CELL lines, *APOPTOSIS, *CELL death, *IN vitro studies, *PRECANCEROUS conditions, *SWINE

Abstract

Highlights: [•] A porcine cell line, VR1BL, was characterized for high titer growth of PCV2. [•] PCV2 grows to higher titers in VR1BL cells, than in PK-15 cells. [•] This cell line provides an in vitro model of acute versus persistent infection that replicates in vivo behavior of PCV2. [•] High MOI infection induces apoptosis-mediated cell death. [Copyright &y& Elsevier]

Published

2013

26. The role of accessory proteins in the replication of feline infectious peritonitis virus in peripheral blood monocytes

Author

Dedeurwaerder, Annelike, Desmarets, Lowiese M., Olyslaegers, Dominique A.J., Vermeulen, Ben L., Dewerchin, Hannah L., and Nauwynck, Hans J.

Subjects

*VIRAL replication, *VIRUS diseases, *MONOCYTES, *PERITONITIS, *IN vitro studies, *MICROBIAL virulence, *OPEN reading frames (Genetics), *DELETION mutation, *CAT diseases

Abstract

Abstract: The ability to productively infect monocytes/macrophages is the most important difference between the low virulent feline enteric coronavirus (FECV) and the lethal feline infectious peritonitis virus (FIPV). In vitro, the replication of FECV in peripheral blood monocytes always drops after 12h post inoculation, while FIPV sustains its replication in the monocytes from 45% of the cats. The accessory proteins of feline coronaviruses have been speculated to play a prominent role in virulence as deletions were found to be associated with attenuated viruses. Still, no functions have been ascribed to them. In order to investigate if the accessory proteins of FIPV are important for sustaining its replication in monocytes, replication kinetics were determined for FIPV 79-1146 and its deletion mutants, lacking either accessory protein open reading frame 3abc (FIPV-Δ3), 7ab (FIPV-Δ7) or both (FIPV-Δ3Δ7). Results showed that the deletion mutants FIPV-Δ7 and FIPV-Δ3Δ7 could not maintain their replication, which was in sharp contrast to wt-FIPV. FIPV-Δ3 could still sustain its replication, but the percentage of infected monocytes was always lower compared to wt-FIPV. In conclusion, this study showed that ORF7 is crucial for FIPV replication in monocytes/macrophages, giving an explanation for its importance in vivo, its role in the development of FIP and its conservation in field strains. The effect of an ORF3 deletion was less pronounced, indicating only a supportive role of ORF3 encoded proteins during the infection of the in vivo target cell by FIPVs. [Copyright &y& Elsevier]

Published

2013

27. Replicative kinetics of porcine hemagglutinating encephalomyelitis virus (HEV) in PK-15 cells.

Author

PAN Wei, Han-xing, SONG, Chuan-bo, ZHAO, DING Ning, Hui-jun, LU, Wen-qi, HE, and GAO Feng

Abstract

The article studies the replication characteristics of porcine hemagglutinating encephalomyelitis virus (HEV) in porcine kidney PK-15 cell lines. It informs that indirect immunofluorescent assay (IFA), real-time polymerase chain reaction (RT-PCR) assay and virus titration assay were used to detect HEV protein expression. It reflects that result of virus titration assay and RT-PCR assay were consistent with each other.

Published

2012

28. Distinct propagation efficiencies of H5N1 influenza virus Thai isolates in newly established murine respiratory region-derived cell clones

Author

Kanai, Yuta, Chittaganpitch, Malinee, Nakamura, Izuru, Li, Gui-Mei, Bai, Gui-Rong, Li, Yong-Gang, Ikuta, Kazuyoshi, and Sawanpanyalert, Pathom

Subjects

*INFLUENZA A virus, H5N1 subtype, *LABORATORY mice, *MOLECULAR cloning, *CELL lines, *CELL transformation, MAMMAL cytology

Abstract

Abstract: Inbred mice have been widely used for the study of influenza viruses as a mammalian model, while suitable cell lines derived from murine tissue have been limited. Here, we established several immortalized cell clones from respiratory regions of inbred mice (C57BL/6 and BALB/c) by transformation using simian virus 40 large T antigen expression vector. Twenty-five cell clones from C57/BL and BALB/c, designated as MRDC/C and MRDC/B series, respectively, showed different susceptibility to Thai isolates of influenza A virus H5N1. Two murine cell clones, C6 and B7 which were extensively studied expressed both SAα2,3 and SAα2,6 sialic acid receptors. Interestingly, the 6 Thai patient-derived H5N1 isolates examined showed varied virus propagation efficiency in murine cell clones, although there were only slight differences in their propagation in MDCK and A549 cell lines. The results indicate that the murine cell clones are useful for examining the propagation efficiency of H5N1 viruses in vitro. [ABSTRACT FROM AUTHOR]

Published

2010

29. The risk of early and late CMV DNAemia associated with Campath use in stem cell transplant recipients.

Author

Buyck, H. C., Prentice, H. G. F., Griffiths, P. D., and Emery, V. C.

Subjects

*STEM cell transplantation, *CYTOMEGALOVIRUSES, *PATIENTS, *RADIOTHERAPY, *DISEASE risk factors

Abstract

The risks associated with in vivo and ex vivo use of Campath-1H and -1G in a cohort of 206 stem cell transplant recipients for human CMV (HCMV) DNAemia have been quantified. DNAemia showed a biphasic incidence pattern with an inflexion at day 60. The first phase had a linear risk rate for HCMV DNAemia of 0.3% per day, whereas the second phase had a substantially lower risk rate of 0.058% per day. In multivariable analyses, risk factors for early DNAemia were HCMV serostatus, radiotherapy-based conditioning and CD34 stem cell dose, with the use of in vivo Campath-1H having the most significant risk (hazards ratio=3.68; 95% CI=2.02–6.72; P<0.001). Ex vivo use of Campath was not associated with an increased risk for HCMV DNAemia. Patients receiving either in vivo Campath-1H or -1G experienced HCMV DNAemia earlier (27 and 33 days, respectively) compared with patients receiving no Campath (time to DNAemia, 51 days; P=0.0006). Multivariable analysis of risk factors for HCMV DNAemia occurring beyond 100 days after transplant were older age, acute GVHD>grade II and a lower CD34 stem cell dose, whereas Campath-1H use was not associated with late HCMV DNAemia. [ABSTRACT FROM AUTHOR]

Published

2010

30. Quantitative estimation of the replication kinetics of genotype 2 PRRSV strains with different levels of virulence in vitro.

Author

Dong, Jianguo, Wang, Gang, Liu, Yonggang, Shi, Wenda, Wu, Jianan, Wen, Huiqiang, Wang, Shujie, Tian, Zhijun, and Cai, Xuehui

Subjects

*PORCINE reproductive & respiratory syndrome, *VIRUS diseases in swine, *GENOTYPES, *ALLELES, *ALVEOLAR macrophages

Abstract

Porcine reproductive and respiratory syndrome virus (PRRSV) has become an important pathogen for the swine industry, and has resulted in substantial economic losses. In 2006, highly pathogenic PRRSV (HP-PRRSV) belonging to genotype 2 was first identified in China. Here, the replication kinetics of genotype 2 PRRSV strains were estimated in vitro in MARC-145 cells and porcine alveolar macrophages (PAMs) using a TaqMan-based real-time quantitative reverse transcription polymerase chain reaction (RT-qPCR) assay. The lower limit of detection was 10 copies/μL, and the assay was linear between 10 1 and 10 8 copies/μL. The intra-assay coefficients of variation were 0.81–1.36%, and the inter-assay coefficients of variation were 1.77–2.56%. Compared to the low pathogenicity CH-1a-F45 strain, the viral loads of the highly pathogenic HuN4-F45 strain were 10 0.5 –10 1.05 and 10 0.84 –10 1.35 times greater in MARC-145 cells and PAMs, respectively from 12 to 96 h after infection ( P < 0.01). This study is the first to demonstrate that the HuN4-F45 strain replicated at higher levels than CH-1a-F45 in MARC-145 cells and PAMs, suggesting that HuN4-F45 has more robust virus amplification efficiency than CH-1a-F45 in vitro. [ABSTRACT FROM AUTHOR]

Published

2016

31. Characterization of HIV-2 chimeric viruses unable to use CCR5 and CXCR4 coreceptors

Author

Santos-Costa, Q., Mansinho, K., Moniz-Pereira, J., and Azevedo-Pereira, J.M.

Subjects

*HIV, *CELL receptors, *VIRAL replication, *MOSAICISM, *BLOOD cells, *GLYCOPROTEINS

Abstract

Abstract: We have previously shown the existence of primary human immunodeficiency virus type 2 isolates (MIC97 and MJC97) unable to use major coreceptors to entry into peripheral blood mononuclear cells, including CCR5 and CXCR4. We have now created a set of chimeric viruses derived from HIV-2ROD, to study the contribution of env gene products in chemokine receptors usage and replication kinetics phenotype. The results obtained indicate that an env gene fragment, corresponding to the C1–C4 region of SU glycoprotein of both MIC97 and MJC97, impair efficient utilization of the major HIV coreceptors CCR5 and CXCR4 in phytohemagglutinin-stimulated peripheral blood mononuclear cells by ROD-MIC97 and ROD-MJC97 chimeric viruses. It also disrupts the ability to utilize established coreceptors for viral entry into GHOST-CD4 coreceptor-expressing cell lines. Resistance to CCR5 and CXCR4 inhibitors, as well as the ability to infect Δ32/Δ32ccr5 PBMC, was also observed in recombinant viruses containing the C1–C4 region from either MIC97 or MJC97. We also show that the presence of the TM region of env gene from MIC97 and MJC97 is sufficient to reduce viral replicative kinetics of ROD strain, indicating that this region, despite the presence and contribution of ROD genetic backbone, has an important role in viral progeny production efficiency. [Copyright &y& Elsevier]

Published

2009

32. An HIV-1 215V mutant shows increased phenotypic resistance to d4T

Author

Pernas, Maria and López-Galíndez, Cecilio

Subjects

*HIV, *REVERSE transcriptase, *DNA polymerases, *HIV-positive persons, *MUTAGENESIS

Abstract

Abstract: Human immunodeficiency virus type 1 (HIV-1) viruses with C/S/D/E at 215 codon of the reverse transcriptase (RT) have been associated with the T215Y/F HIV-1 resistant viruses transmission to naïve patients. The uncommon T215V mutation was detected in DNA proviral samples of a treatment-naïve patient. Virus T215V was obtained after cloning the patient-RT into a molecular clone. Wild-type (T215) and resistant (T215F) clones, were obtained in T215V clone by “in vitro” site-directed mutagenesis. Phenotypic resistance against AZT, ddI and d4T, replication kinetics and the selection of resistance mutations were estimated “in vitro”. The T215V virus replicated as efficiently as the wild-type (T215) without antivirals and in the presence of AZT or ddI. The T215V virus showed higher replicative capacity than the wild-type and a 4.3-fold increase in the IC50 values in cultures with d4T. Selection of resistance mutations was not observed in viral quasispecies of the T215V virus after serial passages in culture in presence of increasing concentrations of AZT, ddI or d4T. This work demonstrates that the T215V mutation decreases the susceptibility of HIV-1 to d4T, and consequently, it could compromise the response to regimens containing this antiviral. [Copyright &y& Elsevier]

Published

2008

33. Triple layered rotavirus VLP production: Kinetics of vector replication, mRNA stability and recombinant protein production

Author

Vieira, Helena L.A., Estêvão, Catarina, Roldão, António, Peixoto, Cristina C., Sousa, Marcos F.Q., Cruz, Pedro E., Carrondo, Manuel J.T., and Alves, Paula M.

Subjects

*MESSENGER RNA, *RECOMBINANT proteins, *DNA polymerases, *POLYMERASE chain reaction

Abstract

Abstract: Rotavirus infection causes diarrhoeal disease in infants, killing more than half million children each year. Virus-like particles (VLP) seem to be excellent vaccine candidates, since they are cheaper to produce than attenuated viral vaccines and safer, as they do not contain genetic material. The present work focus on a triple layered particle composed by three rotavirus structural proteins: VP2, VP6 and VP7, produced in an insect cell/baculovirus expressing system. Two strategies were evaluated for 2/6/7 VLP production: co-infection with three monocistronic baculovirus vectors or single-infection with a tricistronic multi-gene baculovirus vector; these strategies were followed at different levels: baculovirus DNA replication kinetics, mRNA stability, protein production and VLP formation. This study highlights some of the reasons why the tricistronic baculovirus strategy is more efficient for production of triple layered rotavirus 2/6/7 VLP than monocistronic co-infection, in particular: (i) the tricistronic vector presents higher DNA replication rates than the monocistronic vectors, (ii) the mRNA stability is invariant for all mRNAs corresponding to VP2, VP6 and VP7 and (iii) the tricistronic baculovirus strategy produces an excess of VP7 over VP6 when compared to the VP7/VP6 stoichiometric ratio in the native rotavirus. Although the co-infection strategy leads to protein production akin to the rotavirus VP7/VP6 stoichiometric ratio, the tricistronic vector strategy yields higher amounts of rotavirus-like particles. [Copyright &y& Elsevier]

Published

2005

34. Comparative replication kinetics of two cytopathic feline lentiviruses ex vivo

Author

Sutton, Claudia A., Gordnier, Pamela M., Avery, Roger J., and Casey, James W.

Subjects

*LENTIVIRUSES, *RETROVIRUSES, *IMMUNODEFICIENCY, *VIRUS diseases

Abstract

Abstract: Feline immunodeficiency virus infection of cats provides a model to elucidate mechanisms of lentiviral pathogenesis. We isolated a non-domestic FIV from a Pallas'' cat, FIV-Oma, which replicates in feline PBMCs and CRFK cells. To gain insights into FIV pathogenesis, we compared rates of viral replication and apoptosis of FIV-Oma with FIV-PPR in the MYA-1 T-cell line. To minimize heterogeneity of virus, infections were initiated with virus derived from molecular clones. Viral DNA and RNA levels, assessed by qPCR and qRT-PCR, apoptosis, and supernatant reverse transcriptase were slower in FIV-Oma infections. Immunostaining for cellular Gag showed that few cells were productively infected. The majority of cells infected with either virus instead became apoptotic. Apoptosis was detectable within 6 h PI, suggesting activation of a signaling pathway. We propose that apoptosis is due to interaction of virus with cells, and is the usual outcome of infection by cytopathic FIVs in these cells. [Copyright &y& Elsevier]

Published

2005

35. Replication Kinetics of B.1.351 and B.1.1.7 SARS-CoV-2 Variants of Concern Including Assessment of a B.1.1.7 Mutant Carrying a Defective ORF7a Gene.

Author

Pyke, Alyssa T., Nair, Neelima, van den Hurk, Andrew F., Burtonclay, Peter, Nguyen, Son, Barcelon, Jean, Kistler, Carol, Schlebusch, Sanmarié, McMahon, Jamie, and Moore, Frederick

Subjects

*COVID-19, *SARS-CoV-2, *VACCINE effectiveness, *DISEASE management

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the etiological agent of COVID-19, is a readily transmissible and potentially deadly pathogen which is currently re-defining human susceptibility to pandemic viruses in the modern world. The recent emergence of several genetically distinct descendants known as variants of concern (VOCs) is further challenging public health disease management, due to increased rates of virus transmission and potential constraints on vaccine effectiveness. We report the isolation of SARS-CoV-2 VOCs imported into Australia belonging to the B.1.351 lineage, first described in the Republic of South Africa (RSA), and the B.1.1.7 lineage originally reported in the United Kingdom, and directly compare the replication kinetics of these two VOCs in Vero E6 cells. In this analysis, we also investigated a B.1.1.7 VOC (QLD1516/2021) carrying a 7-nucleotide deletion in the open reading frame 7a (ORF7a) gene, likely truncating and rendering the ORF7a protein of this virus defective. We demonstrate that the replication of the B.1.351 VOC (QLD1520/2020) in Vero E6 cells can be detected earlier than the B.1.1.7 VOCs (QLD1516/2021 and QLD1517/2021), before peaking at 48 h post infection (p.i.), with significantly higher levels of virus progeny. Whilst replication of the ORF7a defective isolate QLD1516/2021 was delayed longer than the other viruses, slightly more viral progeny was produced by the mutant compared to the unmutated isolate QLD1517/2021 at 72 h p.i. Collectively, these findings contribute to our understanding of SARS-CoV-2 replication and evolutionary dynamics, which have important implications in the development of future vaccination, antiviral therapies, and epidemiological control strategies for COVID-19. [ABSTRACT FROM AUTHOR]

Published

2021

36. Effect of bovine viral diarrhea virus on subsequent infectivity of bovine gammaherpesvirus 4 in endometrial cells in primary culture: An in vitro model of viral co-infection.

Author

Romeo, F., Louge Uriarte, E., Delgado, S.G., González-Altamiranda, E., Pereyra, S., Morán, P., Odeón, A., Pérez, S., and Verna, A.

Subjects

*BOVINE viral diarrhea, *BOVINE viral diarrhea virus, *CELL culture, *MIXED infections, *PRIMARY cell culture, *BOS, *GENITALIA

Abstract

• Previous infection with BVDV affects in vitro assays for bovine gammaherpesvirus 4 (BoHV-4). • BoHV-4 gene expression kinetics is affected by the presence of BVDV. • BoHV-4 titers in primary cultures of bovine endometrial cells decrease in the presence of BVDV. Bovine viral diarrhea virus (BVDV) and bovine gammaherpesvirus 4 (BoHV-4) infect the uterus of cattle, being responsible for huge economic losses. Most of the pathogenesis of BoHV-4 in the bovine reproductive tract has been elucidated by conducting tests on primary cultures. Thus, it is important to have optimal in vitro conditions, avoiding the presence of other pathogens that can alter the results. BVDV is one of the most frequent viral contaminants of cell cultures. Considering that non-cytopathic (NCP) BVDV biotype can generate persistently infected (PI) cattle, which are the major source for virus transmission in susceptible herds, it is important to check products derived from cattle that are intended to be used in research laboratories. The aim of this work was to evaluate how the natural infection of bovine endometrial cells (BEC) with a NCP BVDV strain (BEC + BVDV) affects BoHV-4 replication. We have demonstrated a delay in BoHV-4 gene expression and a decrease in viral load in the extracellular environment in BEC + BDVD cells compared to BEC (BVDV-free) cells. These results confirm that replication of BoHV-4 in BEC primary cultures is affected by previous infection with BVDV. This finding highlights the importance of ruling out BVDV infection in bovine primary cell cultures to avoid biological interference or misinterpretation of results at the time of performing in vitro studies with BoHV-4. [ABSTRACT FROM AUTHOR]

Published

2021

37. Genome Analysis and Replication Studies of the African Green Monkey Simian Foamy Virus Serotype 3 Strain FV2014.

Author

Fuentes, Sandra M., Bae, Eunhae H., Nandakumar, Subhiksha, Williams, Dhanya K., and Khan, Arifa S.

Subjects

*CERCOPITHECUS aethiops, *SIMIAN viruses, *FOAMY viruses, *SIMIAN immunodeficiency virus, *RNA sequencing, *NUCLEOTIDE sequencing, *COMPARATIVE genomics, *SEQUENCE analysis

Abstract

African green monkey (AGM) spumaretroviruses have been less well-studied than other simian foamy viruses (SFVs). We report the biological and genomic characterization of SFVcae_FV2014, which was the first foamy virus isolated from an African green monkey (AGM) and was found to be serotype 3. Infectivity studies in various cell lines from different species (mouse, dog, rhesus monkey, AGM, and human) indicated that like other SFVs, SFVcae_FV2014 had broad species and cell tropism, and in vitro cell culture infection resulted in cytopathic effect (CPE). In Mus dunni (a wild mouse fibroblast cell line), MDCK (Madin-Darby canine kidney cell line), FRhK-4 (a fetal rhesus kidney cell line), and MRC-5 (a human fetal lung cell line), SFVcae_FV2014 infection was productive resulting in CPE, and had delayed or similar replication kinetics compared with SFVmcy_FV21 and SFVmcy_FV34[RF], which are two Taiwanese macaque isolates, designated as serotypes 1 and 2, respectively. However, in Vero (AGM kidney cell line) and A549 (a human lung carcinoma cell line), the replication kinetics of SFVcae_FV2014 and the SFVmcy viruses were discordant: In Vero, SFVcae_FV2014 showed rapid replication kinetics and extensive CPE, and a persistent infection was seen in A549, with delayed, low CPE, which did not progress even upon extended culture (day 55). Nucleotide sequence analysis of the assembled SFVcae_FV2014 genome, obtained by high-throughput sequencing, indicated an overall 80–90% nucleotide sequence identity with SFVcae_LK3, the only available full-length genome sequence of an AGM SFV, and was distinct phylogenetically from other AGM spumaretroviruses, corroborating previous results based on analysis of partial env sequences. Our study confirmed that SFVcae_FV2014 and SFVcae_LK3 are genetically distinct AGM foamy virus (FV) isolates. Furthermore, comparative infectivity studies of SFVcae_FV2014 and SFVmcy isolates showed that although SFVs have a wide host range and cell tropism, regulation of virus replication is complex and depends on the virus strain and cell-specific factors. [ABSTRACT FROM AUTHOR]

Published

2020

38. Identification of Common Deletions in the Spike Protein of Severe Acute Respiratory Syndrome Coronavirus 2.

Author

Liu Z, Zheng H, Lin H, Li M, Yuan R, Peng J, Xiong Q, Sun J, Li B, Wu J, Yi L, Peng X, Zhang H, Zhang W, Hulswit RJG, Loman N, Rambaut A, Ke C, Bowden TA, Pybus OG, and Lu J

Subjects

Amino Acid Sequence, Animals, Base Sequence, COVID-19, Cell Line, Chlorocebus aethiops, Coronavirus Infections virology, Furin metabolism, Genome, Viral, Host Specificity, Kinetics, Models, Molecular, Pandemics, Pneumonia, Viral virology, Protein Conformation, SARS-CoV-2, Sequence Analysis, Spike Glycoprotein, Coronavirus chemistry, Vero Cells, Virus Replication, Betacoronavirus genetics, Betacoronavirus metabolism, Sequence Deletion, Spike Glycoprotein, Coronavirus genetics, Spike Glycoprotein, Coronavirus isolation & purification

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is a novel coronavirus first identified in December 2019. Notable features that make SARS-CoV-2 distinct from most other previously identified betacoronaviruses include a receptor binding domain and a unique insertion of 12 nucleotides or 4 amino acids (PRRA) at the S1/S2 boundary. In this study, we identified two deletion variants of SARS-CoV-2 that either directly affect the polybasic cleavage site itself (NSPRRAR) or a flanking sequence (QTQTN). These deletions were verified by multiple sequencing methods. In vitro results showed that the deletion of NSPRRAR likely does not affect virus replication in Vero and Vero-E6 cells; however, the deletion of QTQTN may restrict late-phase viral replication. The deletion of QTQTN was detected in 3 of 68 clinical samples and 12 of 24 in vitro -isolated viruses, while the deletion of NSPRRAR was identified in 3 in vitro -isolated viruses. Our data indicate that (i) there may be distinct selection pressures on SARS-CoV-2 replication or infection in vitro and in vivo ; (ii) an efficient mechanism for deleting this region from the viral genome may exist, given that the deletion variant is commonly detected after two rounds of cell passage; and (iii) the PRRA insertion, which is unique to SARS-CoV-2, is not fixed during virus replication in vitro These findings provide information to aid further investigation of SARS-CoV-2 infection mechanisms and a better understanding of the NSPRRAR deletion variant observed here. IMPORTANCE The spike protein determines the infectivity and host range of coronaviruses. Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has two unique features in its spike protein, the receptor binding domain and an insertion of 12 nucleotides at the S1/S2 boundary resulting in a furin-like cleavage site. Here, we identified two deletion variants of SARS-CoV-2 that either directly affect the furin-like cleavage site itself (NSPRRAR) or a flanking sequence (QTQTN), and we investigated these deletions in cell isolates and clinical samples. The absence of the polybasic cleavage site in SARS-CoV-2 did not affect virus replication in Vero or Vero-E6 cells. Our data indicate the PRRAR sequence and the flanking QTQTN sequence are not fixed in vitro; thus, there appears to be distinct selection pressures on SARS-CoV-2 sequences in vitro and in vivo Further investigation of the mechanism of generating these deletion variants and their infectivity in different animal models would improve our understanding of the origin and evolution of this virus., (Copyright © 2020 American Society for Microbiology.)

Published

2020

39. Basic insights into Zika virus infection of neuroglial and brain endothelial cells.

Author

Mutso M, St John JA, Ling ZL, Burt FJ, Poo YS, Liu X, Žusinaite E, Grau GE, Hueston L, Merits A, King NJC, Ekberg JAK, and Mahalingam S

Subjects

Animals, Blood-Brain Barrier virology, Cell Line, Chlorocebus aethiops, Endoplasmic Reticulum genetics, Humans, Mice, Vero Cells, Virus Replication genetics, Brain virology, Endothelial Cells virology, Neuroglia virology, Zika Virus pathogenicity, Zika Virus Infection virology

Abstract

Zika virus (ZIKV) has recently emerged as an important human pathogen due to the strong evidence that it causes disease of the central nervous system, particularly microcephaly and Guillain-Barré syndrome. The pathogenesis of disease, including mechanisms of neuroinvasion, may include both invasion via the blood-brain barrier and via peripheral (including cranial) nerves. Cellular responses to infection are also poorly understood. This study characterizes the in vitro infection of laboratory-adapted ZIKV African MR766 and two Asian strains of (1) brain endothelial cells (hCMEC/D3 cell line) and (2) olfactory ensheathing cells (OECs) (the neuroglia populating cranial nerve I and the olfactory bulb; both human and mouse OEC lines) in comparison to kidney epithelial cells (Vero cells, in which ZIKV infection is well characterized). Readouts included infection kinetics, intracellular virus localization, viral persistence and cytokine responses. Although not as high as in Vero cells, viral titres exceeded 10 4  plaque-forming units (p.f.u.) ml -1 in the endothelial/neuroglial cell types, except hOECs. Despite these substantial titres, a relatively small proportion of neuroglial cells were primarily infected. Immunolabelling of infected cells revealed localization of the ZIKV envelope and NS3 proteins in the cytoplasm; NS3 staining overlapped with that of dsRNA replication intermediate and the endoplasmic reticulum (ER). Infected OECs and endothelial cells produced high levels of pro-inflammatory chemokines. Nevertheless, ZIKV was also able to establish persistent infection in hOEC and hCMEC/D3 cells. Taken together, these results provide basic insights into ZIKV infection of endothelial and neuroglial cells and will form the basis for further study of ZIKV disease mechanisms.

Published

2020

40. Replication kinetics of Salmonella enteritidis in internal organs of ducklings after oral challenge: a quantitative time-course study using real-time PCR

Author

Deng, S. X., Cheng, A. C., Wang, M. S., Li, X. R., and Yan, B.

Published

2009

41. HSV Mutant Generation and Dual Detection Methods for Gaining Insight into Latent/Lytic Cycles In Vivo.

Author

Sawtell NM and Thompson RL

Subjects

Animals, Humans, Mutation, Rabbits, Gene Expression Regulation, Viral, Herpes Simplex genetics, Herpes Simplex metabolism, Herpes Simplex pathology, Herpesvirus 1, Human physiology, Promoter Regions, Genetic, Virus Latency

Abstract

Two important components of a useful strategy to examine viral gene function, regulation, and pathogenesis in vivo are (1) a highly efficient protocol to generate viral mutants that limits undesired mutation and retains full replication competency in vivo, and (2) an efficient system to detect and quantify viral promoter activity and gene expression in rare cells in vivo and to gain insight into the surrounding tissue environment. Our strategy and protocols for generating, characterizing, and employing HSV viral promoter/reporter mutants in vivo are provided in this two-part chapter.

Published

2020

42. Development and characterization of swine primary respiratory epithelial cells and their susceptibility to infection by four influenza virus types.

Author

Sreenivasan CC, Thomas M, Antony L, Wormstadt T, Hildreth MB, Wang D, Hause B, Francis DH, Li F, and Kaushik RS

Subjects

Animals, Cell Culture Techniques, Keratins genetics, Lung virology, Phenotype, Swine, Tight Junction Proteins genetics, Trachea virology, Virus Replication, Epithelial Cells virology, Lung cytology, Orthomyxoviridae physiology, Trachea cytology

Abstract

Influenza viruses are a group of respiratory pathogens that have evolved into four different types: A, B, C, and D. A common feature is that all four types are capable of replicating and transmitting among pigs. Here, we describe the development of isogenous cell culture system from the swine respiratory tract to study influenza viruses. Phenotypic characterization of swine primary nasal turbinate, trachea and lung cells revealed high expression of cytokeratin and demonstrated tissue site dependent expression of tight junction proteins. Furthermore, lectin binding assay on these cells demonstrated higher levels of Sia2-6Gal than Sia2-3Gal receptors and supported the replication of influenza A, B, C, and D viruses to appreciable levels at both 33 and 37 °C, but replication competence was dependent on virus type or temperature used. Overall, these swine primary respiratory cells showed epithelial phenotype, which is suitable for studying the comparative biology and pathobiology of influenza viruses., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

43. Detailed Characterization of Early HIV-1 Replication Dynamics in Primary Human Macrophages.

Author

Bejarano, David Alejandro, Puertas, Maria C., Börner, Kathleen, Martinez-Picado, Javier, Müller, Barbara, and Kräusslich, Hans-Georg

Subjects

*REVERSE transcriptase, *MACROPHAGES, *HIV, *ANTIGEN presenting cells, *CONNECTIVE tissue cells

Abstract

Macrophages are natural target cells of human immunodeficiency virus type 1 (HIV-1). Viral replication appears to be delayed in these cells compared to lymphocytes; however, little is known about the kinetics of early post-entry events. Time-of-addition experiments using several HIV-1 inhibitors and the detection of reverse transcriptase (RT) products with droplet digital PCR (ddPCR) revealed that early replication was delayed in primary human monocyte-derived macrophages of several donors and peaked late after infection. Direct imaging of reverse-transcription and pre-integration complexes (RTC/PIC) by click-labeling of newly synthesized DNA further confirmed our findings and showed a concomitant shift to the nuclear stage over time. Altering the entry pathway enhanced infectivity but did not affect kinetics of viral replication. The addition of viral protein X (Vpx) enhanced productive infection and accelerated completion of reverse transcription and nuclear entry. We propose that sterile alpha motif (SAM) and histidine/aspartate (HD) domain-containing protein 1 (SAMHD1) activity lowering deoxyribonucleotide triphosphate (dNTP) pools is the principal factor delaying early HIV-1 replication in macrophages. [ABSTRACT FROM AUTHOR]

Published

2018

44. Biological Characteristics of Chicken Anemia Virus Regenerated from Clinical Specimen by PCR (Características biológicas del virus de Anemia Infecciosa Aviar regenerado por medio de la reacción en cadena por la polimerasa (PCR), a partir de muestras clínicas)

Author

van Santen, Vicky L., Toro, Haroldo, and Hoerr, Frederic J.

Published

2007

45. The Regulatory Mechanisms of Human Immunodeficiency Virus Replication Predict Multiple Expression Rates

Author

Palsson, B. O., Keasling, J. D., and Emerson, S. G.

Published

1990