Your search keyword '"viral variation"' showing total 1,087 results

1. p70S6K as a Potential Anti-COVID-19 Target: Insights from Wet Bench and In Silico Studies.

Author

Shechter, Sharon, Pal, Rajat Kumar, Trovato, Fabio, Rozen, Or, Gage, Matthew J., and Avni, Dorit

Subjects

*COVID-19 pandemic, *HYDROGEN bonding interactions, *CYTOKINE release syndrome, *COVID-19, *VIRAL variation

Abstract

The onset of SARS-CoV-2 infection in 2019 sparked a global COVID-19 pandemic. This infection is marked by a significant rise in both viral and host kinase activity. Our primary objective was to identify a pivotal host kinase essential for COVID-19 infection and the associated phenomenon of the cytokine storm, which may lead to long-term COVID-19 complications irrespective of viral genetic variations. To achieve this, our study tracked kinase phosphorylation dynamics in RAW264.7 macrophages following SPIKE transfection over time. Among the kinases surveyed, p70S6K (RPS6KB1) exhibited a 3.5-fold increase in phosphorylation at S418. This significant change prompted the selection of p70S6K for in silico investigation, utilizing its structure bound to M2698 (PDB: 7N93). M2698, an oral dual Akt/p70S6K inhibitor with an IC50 of 1.1 nM, exhibited psychosis side effects in phase I clinical trials, potentially linked to its interaction with Akt2. Our secondary objective was to discover a small-molecule analogue of M2698 that exhibits a distinct binding preference for p70S6K over Akt2 through computational modeling and analysis. The in silico part of our project began with validating the prediction accuracy of the docking algorithm, followed by an OCA analysis pinpointing specific atoms on M2698 that could be modified to enhance selectivity. Subsequently, our investigation led to the identification of an analog of M2698, designated as S34, that showed a superior docking score towards p70S6K compared to Akt2. To further assess the stability of S34 in its protein–ligand (PL) complexes with p70S6K and Akt2, MD simulations were conducted. These simulations suggest that S34, on average, forms two hydrogen bond interactions with p70S6K, whereas it only forms one hydrogen bond interaction with Akt2. This difference in hydrogen bond interactions likely contributed to the observed larger root mean square deviation (RMSD) of 0.3 nm in the S34-Akt2 complex, compared to 0.1 nm in the S34-p70S6K complex. Additionally, we calculated free binding energy to predict the strength of the binding interactions of S34 to p70S6K and Akt2, which showed ~2-fold favorable binding affinity of S34 in the p70S6K binding pocket compared to that in the Akt2 binding pocket. These observations may suggest that the S34-p70S6K complex is more stable than the S34-Akt2 complex. Our work focused on identifying a host kinase target and predicting the binding affinity of a novel small molecule to accelerate the development of effective treatments. The wet bench results specifically highlight p70S6K as a compelling anti-COVID-19 target. Meanwhile, our in silico investigations address the known off-target effects associated with M2698 by identifying a close analog called S34. In conclusion, this study presents novel and intriguing findings that could potentially lead to clinical applications with further investigations. [ABSTRACT FROM AUTHOR]

Published

2024

2. Genomic profiling and spatial SEIR modeling of COVID-19 transmission in Western New York.

Author

Bard, Jonathan E., Na Jiang, Emerson, Jamaal, Bartz, Madeleine, Lamb, Natalie A., Marzullo, Brandon J., Pohlman, Alyssa, Boccolucci, Amanda, Nowak, Norma J., Yergeau, Donald A., Crooks, Andrew T., and Surtees, Jennifer A.

Subjects

SARS-CoV-2, VIRAL genomes, INFECTIOUS disease transmission, VIRAL variation, COVID-19 pandemic

Abstract

The COVID-19 pandemic has prompted an unprecedented global effort to understand and mitigate the spread of the SARS-CoV-2 virus. In this study, we present a comprehensive analysis of COVID-19 in Western New York (WNY), integrating individual patient-level genomic sequencing data with a spatially informed agent-based disease Susceptible-Exposed-Infectious-Recovered (SEIR) computational model. The integration of genomic and spatial data enables a multi-faceted exploration of the factors influencing the transmission patterns of COVID-19, including genetic variations in the viral genomes, population density, and movement dynamics in New York State (NYS). Our genomic analyses provide insights into the genetic heterogeneity of SARS-CoV-2 within a single lineage, at region-specific resolutions, while our population analyses provide models for SARS-CoV-2 lineage transmission. Together, our findings shed light on localized dynamics of the pandemic, revealing potential cross-county transmission networks. This interdisciplinary approach, bridging genomics and spatial modeling, contributes to a more comprehensive understanding of COVID-19 dynamics. The results of this study have implications for future public health strategies, including guiding targeted interventions and resource allocations to control the spread of similar viruses. [ABSTRACT FROM AUTHOR]

Published

2024

3. Detection of SARS-CoV-2 variants related mutations in wastewater using RT-qPCR and variant-specific probes in Porto Alegre, Southern Brazil.

Author

Tonietto Mangini, Arthur, Aschidamini Prandi, Bruno, Violet-Lozano, Lina, Ferreira Cunha, Pâmela, Jarenkow, Andre, Scarpellini Campos, Aline Alves, Pasqualim, Gabriela, Hartke, Sara, Brum da Silva, Ilma Simoni, Souza Campos, Fabrício, Michel Roehe, Paulo, and Cláudia Franco, Ana

Subjects

*PATHOGENIC viruses, *SARS-CoV-2 Omicron variant, *SARS-CoV-2, *POLYMERASE chain reaction, *VIRAL variation

Abstract

The COVID-19 pandemic has underscored the significance of monitoring genetic variations in pathogenic viruses to manage its transmission and identify emerging variants. Nonetheless, sequencing every positive patient case is impractical for large-scale testing of the population. Here, we introduce a cost-effective tool for identifying SARS-CoV-2 mutations associated with variants in wastewater. This approach relies on a wastewater surveillance system and reverse transcription-quantitative polymerase chain reaction (RT-qPCR), utilizing mutation-specific probes. Wastewater samples were analyzed for SARS-CoV-2 mutations corresponding to variants under monitoring (VUM) (P.2, alpha, beta, gamma, delta, and omicron) as part of a wastewater-based SARS-CoV-2 monitoring program. Our findings validate the efficacy of this method in detecting SARS-CoV-2 mutations linked to variants in wastewater, facilitating early detection of emerging variants and informing decision-making on control measures. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Cumulative Variations of Respiratory Syncytial Virus Fusion Protein (F) in Ten Consecutive Years in China.

Author

Wang, Fengjie, Jiang, Mingli, Han, Zhenzhi, Xu, Yanpeng, Sun, Yu, Zhu, Runan, Chen, Dongmei, Guo, Qi, Zhou, Yutong, Yao, Yao, Cao, Ling, Qu, Dong, Li, Muya, and Zhao, Linqing

Subjects

*RESPIRATORY syncytial virus, *RESPIRATORY syncytial virus infection vaccines, *VIRAL variation, *BINDING sites, *CHIMERIC proteins

Abstract

Background: Variations in the fusion (F) protein of respiratory syncytial virus (RSV) with main antigenic sites I–V and Ø may affect the development of RSV vaccines and therapies. Methods: In the study, 30 respiratory specimens positive for RSV were randomly selected from children with acute lower respiratory infections (ALRI) in Beijing every year from 2012 to 2021 for F gene sequencing. Then, 300 F gene sequences and 508 uploaded to GenBank from China were subjected to phylogenetic analysis. Results: The results indicated the nucleotide identities were 95.4–100% among 446 sequences of RSV A, and 96.3–100% among 362 of RSV B. The most common variant loci were N80K (100.00%) and R213S (97.76%) for site Ø, and V384I/T (98.43%) for site I among sequences of RSV A, and M152I (100.00%), I185V (100.00%), and L172Q/H (94.48%) for site V, and R202Q (99.45%) for site Ø among sequences of RSV B. N276S appears in 95.29% sequences of RSV A, while S276N and N262 I/S appear in 1.38% and 0.55% sequences of RSV B, respectively. No variation was found in all sequences at the binding sites of 14N4 and motavizumab. Conclusions: There were cumulative variations of the RSV F gene, especially at some binding sites of antigenic sites. [ABSTRACT FROM AUTHOR]

Published

2024

5. Impact of Vaccination on Intra-Host Genetic Diversity of Patients Infected with SARS-CoV-2 Gamma Lineage.

Author

Marques, Beatriz de Carvalho, Banho, Cecília Artico, Sacchetto, Lívia, Negri, Andreia, Vasilakis, Nikos, and Nogueira, Maurício Lacerda

Subjects

*WHOLE genome sequencing, *BREAKTHROUGH infections, *VIRAL variation, *SARS-CoV-2, *GENETIC variation

Abstract

The high transmissibility, rapid evolution, and immune escape of SARS-CoV-2 variants can influence the course of infection and, in turn, morbidity and mortality in COVID-19, posing a challenge in controlling transmission rates and contributing to the emergence and spread of new variants. Understanding the factors that shape viral genetic variation is essential for comprehending the evolution and transmission of SARS-CoV-2, especially in vaccinated individuals where immune response plays a role in the progression and spread of this disease. In this context, we evaluated the impact of immunity induced by the CoronaVac vaccine (Butantan/Sinovac) on intra-host genetic diversity, analyzing 118 whole-genome sequences of SARS-CoV-2 from unvaccinated and vaccinated patients infected with the Gamma variant. Vaccination with CoronaVac favors negative selection at the intra-host level in different genomic regions. It prevents greater genetic diversity of SARS-CoV-2, reinforcing the importance of vaccination in reducing the emergence of new mutations and virus transmission. [ABSTRACT FROM AUTHOR]

Published

2024

6. Epidemiological Characteristics of Upper Respiratory Tract Pathogens in Children in Guangdong, China.

Author

Zhao, Qianwen, Ke, Peifeng, Hu, Liangshan, Jiang, Changhong, Su, Rong, Lv, Weifeng, Li, Qixin, Jiang, Lingxiao, and Cao, Donglin

Subjects

*RESPIRATORY infections in children, *RESPIRATORY infections, *CHILD patients, *VIRAL variation, *RESPIRATORY syncytial virus

Abstract

Objective: Researches on the epidemiology of various respiratory pathogens at multiple testing points in the pediatric population are limited, and these are crucial for the prevention of respiratory tract infections in children. Methods: We obtained 1788 upper respiratory tract swabs from children exhibiting symptoms of respiratory infection (notably fever with a body temperature exceeding 38.5°C) across five hospitals in Guangdong between November 2020 and June 2022. We used the multiplex probe amplification (MPA) PCR testing to identify 11 respiratory viruses and subsequently analyzed the prevalence characteristics of these pathogens among febrile children in hospitals. Results: The overall detection rate of the pathogens was 58.1% (1039/1788). Human rhinovirus (HRV) exhibited the highest detection rate at 19.0% (339/1788), succeeded by human parainfluenza virus (HPIV), human adenovirus (HAdV), and respiratory syncytial virus (RSV). The positivity and coinfection rates were higher in children aged 5 years and below compared to those above 5 years. Moreover, a distinct pathogen spectrum was observed across different age groups. Hospitalized patients demonstrated a significantly higher positivity and coinfection rate compared to outpatients. During COVID‐2019, RSV appeared a counter‐seasonal trend. Conclusion: Respiratory viral infections in children display distinct characteristics concerning age, hospitalization status, and seasonality. Children under the age of 5 and minor patients admitted to hospitals at least be tested for RSV, HRV, HPIV, and HAdV. The epidemiological patterns of RSV in the post‐epidemic period require ongoing surveillance. [ABSTRACT FROM AUTHOR]

Published

2024

7. Recent advances in COVID-19-induced liver injury: causes, diagnosis, and management.

Author

Antar, Samar A., Ashour, Nada A., Hamouda, Amir O., Noreddin, Ayman M., and Al‐Karmalawy, Ahmed A.

Subjects

*VIRUS diseases, *VIRAL variation, *CLINICAL chemistry, *CIRRHOSIS of the liver, *COVID-19

Abstract

Since the start of the pandemic, considerable advancements have been made in our understanding of the effects of SARS-CoV-2 infection and the associated COVID-19 on the hepatic system. There is a broad range of clinical symptoms for COVID-19. It affects multiple systems and has a dominant lung illness depending on complications. The progression of COVID-19 in people with pre-existing chronic liver disease (CLD) has also been studied in large multinational groups. Notably, SARS-CoV-2 infection is associated with a higher risk of hepatic decompensation and death in patients with cirrhosis. In this review, the source, composition, mechanisms, transmission characteristics, clinical characteristics, therapy, and prevention of SARS-CoV-2 were clarified and discussed, as well as the evolution and variations of the virus. This review briefly discusses the causes and effects of SARS-CoV-2 infection in patients with CLD. As part of COVID-19, In addition, we assess the potential of liver biochemistry as a diagnostic tool examine the data on direct viral infection of liver cells, and investigate potential pathways driving SARS-CoV-2-related liver damage. Finally, we explore how the pandemic has had a significant impact on patient behaviors and hepatology services, which may increase the prevalence and severity of liver disease in the future. The topics encompassed in this review encompass the intricate relationships between SARS-CoV-2, liver health, and broader health management strategies, providing valuable insights for both current clinical practice and future research directions. [ABSTRACT FROM AUTHOR]

Published

2024

8. A multimodal atlas of hepatocellular carcinoma reveals convergent evolutionary paths and 'bad apple' effect on clinical trajectory.

Author

Chen, Jianbin, Kaya, Neslihan Arife, Zhang, Ying, Kendarsari, Raden Indah, Sekar, Karthik, Lee Chong, Shay, Seshachalam, Veerabrahma Pratap, Ling, Wen Huan, Jin Phua, Cheryl Zi, Lai, Hannah, Yang, Hechuan, Lu, Bingxin, Lim, Jia Qi, Ma, Siming, Chew, Sin Chi, Chua, Khi Pin, Santiago Alvarez, Jacob Josiah, Wu, Lingyan, Ooi, London, and Yaw-Fui Chung, Alexander

Subjects

*VIRAL variation, *MOLECULAR shapes, *HEPATOCELLULAR carcinoma, *OVERALL survival, *MULTIOMICS

Abstract

Hepatocellular carcinoma (HCC) is a highly fatal cancer characterized by high intra-tumor heterogeneity (ITH). A panoramic understanding of its tumor evolution, in relation to its clinical trajectory, may provide novel prognostic and treatment strategies. Through the Asia-Pacific Hepatocellular Carcinoma trials group (NCT03267641), we recruited one of the largest prospective cohorts of patients with HCC, with over 600 whole genome and transcriptome samples from 123 treatment-naïve patients. Using a multi-region sampling approach, we revealed seven convergent genetic evolutionary paths governed by the early driver mutations, late copy number variations and viral integrations, which stratify patient clinical trajectories after surgical resection. Furthermore, such evolutionary paths shaped the molecular profiles, leading to distinct transcriptomic subtypes. Most significantly, although we found the coexistence of multiple transcriptomic subtypes within certain tumors, patient prognosis was best predicted by the most aggressive cell fraction of the tumor, rather than by overall degree of transcriptomic ITH level – a phenomenon we termed the 'bad apple' effect. Finally, we found that characteristics throughout early and late tumor evolution provide significant and complementary prognostic power in predicting patient survival. Taken together, our study generated a comprehensive landscape of evolutionary history for HCC and provides a rich multi-omics resource for understanding tumor heterogeneity and clinical trajectories. This prospective study, utilizing comprehensive multi-sector, multi-omics sequencing and clinical data from surgically resected hepatocellular carcinoma (HCC), reveals critical insights into the role of tumor evolution and intra-tumor heterogeneity (ITH) in determining the prognosis of HCC. These findings are invaluable for oncology researchers and clinicians, as they underscore the influence of distinct evolutionary paths and the 'bad apple' effect, where the most aggressive tumor fraction dictates disease progression. These insights not only enhance prognostic accuracy post-surgical resection but also pave the way for personalized treatment strategies tailored to specific tumor evolutionary and transcriptomic profiles. The coexistence of multiple subtypes within the same tumor prompts a re-appraisal of the utilities of depending on single samples to represent the entire tumor and suggests the need for clinical molecular imaging. This research thus marks a significant step forward in the clinical understanding and management of HCC, underscoring the importance of integrating tumor evolutionary dynamics and multi-omics biomarkers into therapeutic decision-making. NCT03267641 (Observational cohort). [Display omitted] • A large multi-sector HCC cohort (n = 123) was assembled for paired WGS and RNA-seq analysis. • Evolution of HCC converged to seven paths that were significantly prognostic. • The most aggressive tumor part determined prognosis – termed the "bad apple" effect. • Evolutionary pathways and molecular profiles jointly dictate HCC prognosis. [ABSTRACT FROM AUTHOR]

Published

2024

9. Dynamic of swine influenza virus infection in weaned piglets in five enzootically infected herds in Germany, a cohort study.

Author

Schmies, Kathrin, Hennig, Christin, Rose, Nicolas, Fablet, Christelle, Harder, Timm, grosse Beilage, Elisabeth, and Graaf-Rau, Annika

Subjects

ANIMAL welfare, ANIMAL herds, SWINE influenza, VIRAL variation, VIRUS diseases

Abstract

Background: Within the last decades industrial swine herds in Europe grown significantly, creating an optimized reservoir for swine influenza A viruses (swIAV) to become enzootic, particularly in piglet producing herds among newborn, partly immunologically naïve piglets. To date, the only specific control measure to protect piglets from swIAV is the vaccination of sows, which provides passive immunity through maternally derived antibodies in colostrum of vaccinated sows. Interruption of infection chains through management practices have had limited success. This study focused on weaned piglets in five enzootically swIAV infected swine herds in North-West and North-East Germany and aimed to better understand swIAV infection patterns to improve piglet protection and reduce zoonotic risks. Participating farms fulfilled the following inclusion criteria: sow herd with ≥ 400 sows (actual size 600–1850 sows), piglets not vaccinated against influenza A virus and a history of recurrent respiratory problems associated with continuing influenza A virus infection. Influenza vaccination was performed in all sow herds, except for one, which discontinued vaccination during the study. Results: First swIAV detections in weaned piglets occurred at 4 weeks of age in the nursery and continued to be detected in piglets up to 10 weeks of age showing enzootic swIAV infections in all herds over the entire nursery period. This included simultaneous circulation of two subtypes in a herd and co-infection with two subtypes in individual animals. Evidence for prolonged (at least 13 days) shedding was obtained in one piglet based on two consecutive swIAV positive samplings. Possible re-infection was suspected in twelve piglets based on three samplings, the second of which was swIAV negative in contrast to the first and third sampling which were swIAV positive. However, swIAV was not detected in nasal swabs from either suckling piglets or sows in the first week after farrowing. Conclusions: Predominantly, weaned piglets were infected. There was no evidence of transmission from sow to piglet based on swIAV negative nasal swabs from sows and suckling piglets. Prolonged virus shedding by individual piglets as well as the co-circulation of different swIAV subtypes in a group or even individuals emphasize the potential of swIAV to increase genetic (and potentially phenotypic) variation and the need to continue close monitoring. Understanding the dynamics of swIAV infections in enzootically infected herds has the overall goal of improving protection to reduce economic losses due to swIAV-related disease and consequently to advance animal health and well-being. [ABSTRACT FROM AUTHOR]

Published

2024

10. Viral etiology of febrile respiratory syndrome among patients in Liaoning Province, China.

Author

Sun, Baihong, Qiu, Yuzhu, Wang, Lulu, Sun, Haibo, Wang, Zhiqian, Mao, Lingling, and Wu, Wei

Subjects

*RESPIRATORY syncytial virus, *VIRAL variation, *VIRUS diseases, *PARAINFLUENZA viruses, *AGE groups

Abstract

Background: Febrile respiratory syndrome (FRS) is often associated with viral infections. The aim of this study was to identify the viral pathogens responsible for FRS in Liaoning Province, China. Methods: We tested eight respiratory viruses, namely, influenza virus (IFV), rhinovirus (RV), human adenovirus (HAdV), human bocavirus (HBoV), human parainfluenza virus (HPIV), human coronavirus (HCoV), respiratory syncytial virus (RSV), and human metapneumovirus (HMPV), using reverse transcription-polymerase chain reaction (RT-PCR). Statistical analyses were performed using SPSS version 25.0, and the data were plotted using RStudio 4.2.1 software. Results: IFV was the most frequently identified pathogen, followed by RV, HAdV, HBoV, HPIV, HCoV, RSV, and HMPV. RSV/HBoV coinfection occurred most frequently among the mixed cases. The rate of respiratory virus detection was highest in children under one year of age and decreased significantly with age. Seasonal trends showed a peak in virus detection during the winter months. Conclusions: IFV is the leading cause of FRS in Liaoning Province, China, with single-virus infections prevailing over coinfections. Observations indicate a differential virus detection rate across age groups and seasons, highlighting the need for focused preventive strategies to mitigate the transmission of respiratory viruses, particularly among susceptible populations in the colder season. [ABSTRACT FROM AUTHOR]

Published

2024

11. Long-term trend prediction of pandemic combining the compartmental and deep learning models.

Author

Chen, Wanghu, Luo, Heng, Li, Jing, and Chi, Jiacheng

Subjects

*INFECTIOUS disease transmission, *DEEP learning, *VIRAL variation, *COVID-19 pandemic, *DATA augmentation

Abstract

Predicting the spread trends of a pandemic is crucial, but long-term prediction remains challenging due to complex relationships among disease spread stages and preventive policies. To address this issue, we propose a novel approach that utilizes data augmentation techniques, compartmental model features, and disease preventive policies. We also use a breakpoint detection method to divide the disease spread into distinct stages and weight these stages using a self-attention mechanism to account for variations in virus transmission capabilities. Finally, we introduce a long-term spread trend prediction model for infectious diseases based on a bi-directional gated recurrent unit network. To evaluate the effectiveness of our model, we conducted experiments using public datasets, focusing on the prediction of COVID-19 cases in four countries over a period of 210 days. Experiments shown that the Adjust-R2 index of our model exceeds 0.9914, outperforming existing models. Furthermore, our model reduces the mean absolute error by 0.85–4.52% compared to other models. Our combined approach of using both the compartmental and deep learning models provides valuable insights into the dynamics of disease spread. [ABSTRACT FROM AUTHOR]

Published

2024

12. Evolving pathogen trends and spatial–temporal dynamics of hand, foot, and mouth disease in Fengxian District, Shanghai (2009–2022).

Author

Hu, Xiaodan, Zhang, Weiyi, Yuan, Ting, Wang, Jie, and Tao, Lixin

Subjects

*FOOT & mouth disease, *PUBLIC health education, *SPRING, *AUTUMN, *VIRAL variation, *DISEASE incidence

Abstract

Hand, foot, and mouth disease (HFMD) is a prevalent acute infectious disease caused by enteroviruses, presenting substantial public health challenges in Shanghai, especially among children. The dynamic nature of HFMD's etiology necessitates an ongoing evaluation of its epidemiological and virological trends to inform effective control strategies. This study aims to investigate the epidemiological patterns and viral evolution of HFMD in Fengxian District, Shanghai, China, with a focus on shifts in predominant viral strains over a 14-year period. We conducted a retrospective analysis of HFMD cases reported to the National Notifiable Disease Reporting System in Fengxian District from January 1, 2009 to December 31, 2022. Epidemiological trends, strain prevalence, and demographic impacts were assessed. A total of 27,272 HFMD cases were documented during the study period, with incidence showing pronounced seasonal fluctuations—peaking in spring and summer and a lesser peak in autumn. The disease incidence demonstrated significant positive correlations with several meteorological variables: daily average temperature (r = 0.30, P < 0.05), relative humidity (r = 0.20, P < 0.05), wind speed (r = 0.17, P < 0.05), and precipitation (r = 0.17, P < 0.05). Geographically, Nanqiao Town, Fengcheng Town, and Xidu Subdistrict reported the highest incidence rates. The demographic analysis revealed a male-to-female ratio of 1.60:1, predominantly affecting children aged 1–3 years. Prior to 2017, Enterovirus 71 (EV71) and Coxsackievirus A16 (CoxA16) were the primary detected strains; post-2017, Coxsackievirus A6 (CoxA6) emerged as the dominant strain. Statistical analysis confirmed significant year-to-year variations in virus detection rates, with decreasing trends for EV71 and other enteroviruses and an increasing trend for CoxA6. The findings indicate a distinct seasonal incidence of HFMD in Fengxian District. This study underscores the need for targeted public health education, enhanced surveillance, and proactive measures in childcare facilities to mitigate disease spread during peak seasons. Moreover, the evolving viral landscape warrants accelerated efforts in vaccine development against new strains to reduce HFMD incidence. [ABSTRACT FROM AUTHOR]

Published

2024

13. Respiratory Viral Testing Rate Patterns in Young Children Attending Tertiary Care Across Western Australia: A Population‐Based Birth Cohort Study.

Author

Taye, Belaynew W., Sarna, Mohinder, Le, Huong, Levy, Avram, Minney‐Smith, Cara, Richmond, Peter, Menzies, Robert, Blyth, Christopher C., and Moore, Hannah C.

Subjects

*RESPIRATORY syncytial virus, *PARAINFLUENZA viruses, *ODDS ratio, *BIRTH certificates, *VIRAL variation

Abstract

Background: An understanding of viral testing rates is crucial to accurately estimate the pathogen‐specific hospitalisation burden. We aimed to estimate the patterns of testing for respiratory syncytial virus (RSV), influenza virus, parainfluenza virus (PIV) and human metapneumovirus (hMPV) by geographical location, age and time in children <5 years old in Western Australia. Methods: We conducted a population‐based cohort study of children born between 1 January 2010 and 31 December 2021, utilising linked administrative data incorporating birth and death records, hospitalisations and respiratory viral surveillance testing records from state‐wide public pathology data. We examined within‐hospital testing rates using survival analysis techniques and identified independent predictors of testing using binary logistic regression. Results: Our dataset included 46,553 laboratory tests for RSV, influenza, PIV, or hMPV from 355,021 children (52.5% male). Testing rates declined in the metropolitan region over the study period (RSV testing in infants: from 242.11/1000 child‐years in 2012 to 155.47/1000 child‐years in 2018) and increased thereafter. Conversely, rates increased in non‐metropolitan areas (e.g., RSV in Goldfields: from 364.92 in 2012 to 504.37/1000 child‐years in 2021). The strongest predictors of testing were age <12 months (adjusted odds ratio [aOR] = 2.25, 95% CI 2.20–2.31), preterm birth (<32 weeks: aOR = 2.90, 95% CI 2.76–3.05) and remote residence (aOR = 0.77, 95% CI 0.73–0.81). Conclusion: These current testing rates highlight the potential underestimation of respiratory virus hospitalisations by routine surveillance and the need for estimation of the true burden of respiratory virus admissions. [ABSTRACT FROM AUTHOR]

Published

2024

14. Viral cis-regulatory elements as sensors of cellular states and environmental cues.

Author

Rottenberg, Jaice T., Taslim, Tommy H., Soto-Ugaldi, Luis F., Martinez-Cuesta, Lucia, Martinez-Calejman, Camila, and Fuxman Bass, Juan I.

Subjects

*LATENT infection, *TRANSCRIPTION factors, *VIRAL genes, *VIRUS reactivation, *VIRAL variation, *CIS-regulatory elements (Genetics)

Abstract

Viruses sense cellular states and environmental signals by recruiting host transcription factors to cis -regulatory elements (CREs) in viral genomes. Viral CREs act as signal integration hubs that impart specificity to viral gene regulation. Viral CREs are highly evolvable due to their high mutation rate and ability to rapidly change sensing mechanisms, affecting infection spread and patient outcomes. Latent viral infections can be treated by targeting viral CREs for reactivation or permanent silencing. To withstand a hostile cellular environment and replicate, viruses must sense, interpret, and respond to many internal and external cues. Retroviruses and DNA viruses can intercept these cues impinging on host transcription factors via cis -regulatory elements (CREs) in viral genomes, allowing them to sense and coordinate context-specific responses to varied signals. Here, we explore the characteristics of viral CREs, the classes of signals and host transcription factors that regulate them, and how this informs outcomes of viral replication, immune evasion, and latency. We propose that viral CREs constitute central hubs for signal integration from multiple pathways and that sequence variation between viral isolates can rapidly rewire sensing mechanisms, contributing to the variability observed in patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

15. Mapping the Hidden Terrain of Hepatocellular Carcinoma: Exploring Regional Differences in Incidence and Mortality across Two Decades by Using the Largest US Datasets.

Author

Abboud, Yazan, Shah, Vraj P., Bebawy, Michael, Al-Khazraji, Ahmed, Hajifathalian, Kaveh, and Gaglio, Paul J.

Subjects

*RACE, *DEATH rate, *VIRAL hepatitis, *HEPATOCELLULAR carcinoma, *VIRAL variation

Abstract

Background: There is an observed variation in the burden of hepatocellular carcinoma (HCC) across different US populations. Our study aims to comprehensively assess variations in HCC incidence and mortality rates across different regions of the US. Understanding these geographical differences is crucial, given prior evidence indicating variations in the incidence of viral hepatitis and metabolic dysfunction-associated steatotic liver disease and varying access to curative HCC treatment among states. Methods: HCC age-adjusted incidence rates between 2001 and 2021 were obtained from the United States Cancer Statistics (USCS) database (which covers approximately 98% of the US population). HCC age-adjusted mortality rates between 2000 and 2022 were obtained from the National Center of Health Statistics (NCHS) database (covering approximately 100% of the US population). The rates were categorized by US geographical region into West, Midwest, Northeast, and South. Incidence rates were also categorized by race/ethnicity. Time trends [annual percentage change (APC) and average APC (AAPC)] were estimated by using Joinpoint Regression via the weighted Bayesian Information Criteria (p < 0.05). Results: Between 2001 and 2021, there were 491,039 patients diagnosed with HCC in the US (74.2% males). The highest incidence rate per 100,000 population was noted in the West (7.38), followed by the South (6.85). Overall incidence rates increased between 2001 and 2015 and then significantly decreased until 2021 (APC = −2.29). Most cases were in the South (38.8%), which also had the greatest increase in incidence (AAPC = 2.74). All four geographical regions exhibited an overall similar trend with an increase in incidence over the first 10–15 years followed by stable or decreasing rates. While stratification of the trends by race/ethnicity showed slight variations among the regions and groups, the findings are largely similar to all race/ethnic groups combined. Between 2000 and 2022, there were 370,450 patients whose death was attributed to HCC in the US (71.6% males). The highest mortality rate per 100,000 population was noted in the South (5.02), followed by the West (4.99). Overall mortality rates significantly increased between 2000 and 2013 (APC = 1.90), then stabilized between 2013 and 2016, and then significantly decreased till 2022 (APC = −1.59). Most deaths occurred in the South (35.8%), which also had the greatest increase in mortality (AAPC = 1.33). All four geographical regions followed an overall similar trend, with an increase in mortality over the first 10–15 years, followed by stable or decreasing rates. Conclusions: Our analysis, capturing about 98% of the US population, demonstrates an increase in HCC incidence and mortality rates in all geographical regions from 2000 to around 2014–2016, followed by stabilizing and decreasing incidence and mortality rates. We observed regional variations, with the highest incidence and mortality rates noted in the West and South regions and the fastest increase in both incidence and mortality noted in the South. Our findings are likely attributable to the introduction of antiviral therapy. Furthermore, demographic, socioeconomic, and comorbid variability across geographical regions in the US might also play a role in the observed trends. We provide important epidemiologic data for HCC in the US, prompting further studies to investigate the underlying factors responsible for the observed regional variations in HCC incidence and mortality. [ABSTRACT FROM AUTHOR]

Published

2024

16. Metagenomic Analysis of Seasonal Variations in Viral Dynamics and Diversity in Seawater of Jeju Island, Republic of Korea.

Author

Hwang, Jinik, Oh, Eun Gyoung, and Jin, Youngguk

Subjects

VIRAL variation, MARICULTURE, FUNCTIONAL analysis, MARINE organisms, BACILLUS (Bacteria)

Abstract

Jeju, the largest island in Korea, is the most economically important in terms of marine aquaculture. We investigated the marine viral composition adjacent to Jeju Island over four seasons in 2022 and sequenced DNA libraries extracted from samples in March, June, September, and December using Illumina HiSeq 2000. We obtained 212,402, 186,542, 235,441, and 224,513 contigs from the four-season samples, respectively. Among the identified metagenomes, bacteriophages were dominant in all the samples. Bacillus phage G was the dominant species in March and June, whereas Pelagibacter phage HTVC 008M was the dominant species in September and December. Additionally, the number of viruses that infected algal hosts was higher in December than in other seasons. Marine viruses appeared in all seasons and infected marine vertebrates such as fish. Functional analysis using MG-RAST revealed that cell wall- and capsule-related metabolism groups were activated in March and June, whereas virulence-, disease-, and defense-related metabolism groups were activated in September and December. Conclusively, this study revealed seasonal changes in marine viral communities in the sea adjacent to Jeju Island. Our data will be useful in identifying emerging marine viral pathogens and for further community studies on marine organisms. [ABSTRACT FROM AUTHOR]

Published

2024

17. Update of the Genetic Variability of Monkeypox Virus Clade IIb Lineage B.1.

Author

Scarpa, Fabio, Azzena, Ilenia, Ciccozzi, Alessandra, Branda, Francesco, Locci, Chiara, Perra, Maria, Pascale, Noemi, Romano, Chiara, Ceccarelli, Giancarlo, Terrazzano, Giuseppe, Fiori, Pier Luigi, Ciccozzi, Massimo, Casu, Marco, and Sanna, Daria

Subjects

ZOONOSES, GENETIC variation, MONKEYPOX, VIRAL variation, MOLECULAR epidemiology

Abstract

From 1 January 2022 to 31 May 2024, the World Health Organization (WHO) reported 97,745 laboratory-confirmed Mpox cases, including 203 deaths, across 116 countries. Despite a 2.3% decrease in new cases in May 2024 compared to April 2024, significant regional variations persist. The African Region reported the highest proportion of new cases, while other regions experienced mixed trends. Phylogenomic analyses of the Mpox virus Clade IIb lineage B.1 reveal stable genetic variability with minimal diversification. The Bayesian Skyline Plot indicates a generally stable viral population size with a modest peak in late 2023, followed by a decline. In general, the data indicate that the MPXV outbreak is primarily localized within a few consistent geographic clusters. The virus's evolution is relatively slow, as indicated by its stable genetic variability, and Clade IIb lineage B.1 does not currently show signs of rapid genetic changes or population growth. The current low level of genetic diversity should not lead to complacency. Ongoing genomic surveillance is essential for effective outbreak management and understanding. This monitoring is crucial for identifying any shifts in the virus's behavior or transmission, allowing for prompt public health responses and adjustments. In addition, continued vigilance is necessary to detect any new variants that might influence the outbreak's trajectory. [ABSTRACT FROM AUTHOR]

Published

2024

18. Virus production in shallow groundwater at the bank of the Danube River.

Author

Pleyer, Daniel, Griebler, Christian, and Winter, Christian

Subjects

*ELECTRIC conductivity, *VIRAL variation, *WATER temperature, *RIPARIAN areas, *GROUNDWATER

Abstract

Viruses play a crucial role in regulating prokaryotic populations, yet their impact on subsurface environments, specifically groundwater habitats, remains poorly understood. In this study, we employed the virus-dilution approach to measure lytic virus production rates in shallow groundwater located near the city of Vienna (Austria) during the period from July−November 2020. Physico-chemical parameters (pH, electrical conductivity, water temperature, concentration of dissolved oxygen), prokaryotic, and viral abundance, and viral decay rates were monitored as well. Our findings revealed low virus-to-prokaryote ratios varying between 0.9−3.9 throughout the study period and a lack of correlation between prokaryotic and viral abundance in groundwater. Virus production rates varied between 9−12% of viral abundance h-1 in July−August and between 34−36% of viral abundance h-1 in October−November. Seasonal variations in virus production rates were found to be correlated with electrical conductivity, revealing ~3.5 times higher virus production rates during periods with high electrical conductivity and low groundwater recharge in October−November compared to July−August with higher groundwater recharge and lower electrical conductivity. Our data indicate that groundwater recharge disrupts the balance between virus and prokaryotic host communities, resulting in a deficiency of suitable prokaryotic host cells for viral proliferation. [ABSTRACT FROM AUTHOR]

Published

2024

19. Modelling the effectiveness of an isolation strategy for managing mpox outbreaks with variable infectiousness profiles.

Author

Jeong, Yong Dam, Hart, William S., Thompson, Robin N., Ishikane, Masahiro, Nishiyama, Takara, Park, Hyeongki, Iwamoto, Noriko, Sakurai, Ayana, Suzuki, Michiyo, Aihara, Kazuyuki, Watashi, Koichi, Op de Coul, Eline, Ohmagari, Norio, Wallinga, Jacco, Iwami, Shingo, and Miura, Fuminari

Subjects

MONKEYPOX, VIRAL shedding, VIRAL variation, SYMPTOMS

Abstract

The global outbreak of mpox in 2022 and subsequent sporadic outbreaks in 2023 highlighted the importance of nonpharmaceutical interventions such as case isolation. Individual variations in viral shedding dynamics may lead to either premature ending of isolation for infectious individuals, or unnecessarily prolonged isolation for those who are no longer infectious. Here, we developed a modeling framework to characterize heterogeneous mpox infectiousness profiles – specifically, when infected individuals cease to be infectious – based on viral load data. We examined the potential effectiveness of three different isolation rules: a symptom-based rule (the current guideline in many countries) and rules permitting individuals to stop isolating after either a fixed duration or following tests that indicate that they are no longer likely to be infectious. Our analysis suggests that the duration of viral shedding ranges from 23 to 50 days between individuals. The risk of infected individuals ending isolation too early was estimated to be 8.8% (95% CI: 6.7–10.5) after symptom clearance and 5.4% (95% CI: 4.1–6.7) after 3 weeks of isolation. While these results suggest that the current standard practice for ending isolation is effective, we found that unnecessary isolation following the infectious period could be reduced by adopting a testing-based rule. Current guidelines recommend that individuals exposed to mpox should isolate for three weeks, based on the average estimated incubation period. Here, the authors use a quantitative model to characterise mpox infectiousness profiles and quantify the impacts of different isolation rules. [ABSTRACT FROM AUTHOR]

Published

2024

20. Whole-Genome Analysis of the Influenza A(H1N1)pdm09 Viruses Isolated from Influenza-like Illness Outpatients in Myanmar and Community-Acquired Oseltamivir-Resistant Strains Present from 2015 to 2019.

Author

Chon, Irina, Win, Su Mon Kyaw, Phyu, Wint Wint, Saito, Reiko, Kyaw, Yadanar, Win, Nay Chi, Lasham, Di Ja, Tin, Htay Htay, Tamura, Tsutomu, Otoguro, Teruhime, Wagatsuma, Keita, Sun, Yuyang, Li, Jiaming, and Watanabe, Hisami

Subjects

*WHOLE genome sequencing, *NUCLEOTIDE sequencing, *POLYMERASE chain reaction, *VIRAL variation, *GENETIC variation, *NEURAMINIDASE

Abstract

In this study, we describe the genetic characteristics of influenza A(H1N1)pdm09 strains detected in Myanmar from 2015 to 2019. Whole genomes from 60 A(H1N1)pdm09 virus isolates were amplified using real-time polymerase chain reaction and successfully sequenced using the Illumina iSeq100 platforms. Eight individual phylogenetic trees were retrieved for each segment along with those of the World Health Organization (WHO)-recommended Southern Hemisphere vaccine strains for the respective years. A(H1N1)pdm09 viruses from 2015 were found to belong to clade 6B, those from 2016 to 6B.1, 2017 to 6B.1A, and 2019 to 6B.1A.5a, and were genetically distinct from the Southern Hemisphere vaccine strains for the respective seasons, A/California/7/2009 and A/Michigan/45/2015. We observed one virus with intra-subtype reassortment, collected in the 2015 season. Importantly, three viruses possessed the H275Y substitution in the neuraminidase protein, appearing to be community-acquired without the prior administration of neuraminidase inhibitors. These viruses exhibited highly reduced susceptibility to oseltamivir and peramivir. This study demonstrates the importance of monitoring genetic variations in influenza viruses that will contribute to the selection of global influenza vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

21. Serial cell culture passaging in vitro led to complete attenuation and changes in the characteristic features of a virulent porcine deltacoronavirus strain.

Author

Liping Zhang, Ruiming Yu, Lianshun Wang, Zhongwang Zhang, Yanzhen Lu, Peng Zhou, Yonglu Wang, Huichen Guo, Li Pan, and Xinsheng Liu

Subjects

*PORCINE epidemic diarrhea virus, *DELTACORONAVIRUS, *VIRAL variation, *CYTOSKELETAL proteins, *CORONAVIRUSES, *SWINE farms

Abstract

Porcine deltacoronavirus (PDCoV) is an important enteric coronavirus that has caused enormous economic losses in the pig industry worldwide. However, no commercial vaccine is currently available. Therefore, developing a safe and efficacious live-attenuated vaccine candidate is urgently needed. In this study, the PDCoV strain CH/XJYN/2016 was continuously passaged in LLC-PK cells until passage 240, and the virus growth kinetics in cell culture, pathogenicity in neonatal piglets, transcriptome differences after LLC-PK infection, changes in the functional characteristics of the spike (S) protein in the high- and low-passage strains, genetic variation of the virus genome, resistance to pepsin and acid, and protective effects of this strain when used as a live-attenuated vaccine were examined. The results of animal experiments demonstrated that the virulent PDCoV strain CH/XJYN/2016 was completely attenuated and not pathogenic in piglets following serial cell passage. Genome sequence analysis showed that amino acid mutations in nonstructural proteins were mainly concentrated in Nsp3, structural protein mutations were mainly concentrated in the S protein, and the N, M, and E genes were conserved. Transcriptome comparison revealed that compared with negative control cells, P10-infected LLC-PK cells had the most differentially expressed genes (DEGs), while P0 and P240 had the least number of DEGs. Analysis of trypsin dependence and related structural differences revealed that the P10 S protein interacted more strongly with trypsin and that the P120 S protein interacted more strongly with the APN receptor. Moreover, the infectivity of P240 was not affected by pepsin but was significantly decreased after exposure to low pH. Furthermore, the P240-based live-attenuated vaccine provided complete protection to piglets against the challenge of virulent PDCoV. In conclusion, we showed that a PDCoV strain was completely attenuated through serial passaging in vitro. These results provide insights into the potential molecular mechanisms of PDCoV attenuation and the development of a promising live-attenuated PDCoV vaccine. IMPORTANCE Porcine deltacoronavirus (PDCoV) is one of the most important enteropathogenic pathogens that cause diarrhea in pigs of various ages, especially in suckling piglets, and causes enormous economic losses in the global commercial pork industry. There are currently no effective measures to prevent and control PDCoV. As reported in previous porcine epidemic diarrhea virus (PEDV) and transmissible gastroenteritis virus studies, inactivated vaccines usually elicit less robust protective immune responses than live-attenuated vaccines in native sows. Therefore, identifying potential attenuation mechanisms, gene evolution, pathogenicity differences during PDCoV passaging, and immunogenicity as live-attenuated vaccines is important for elucidating the mechanism of attenuation and developing safe and effective vaccines for virulent PDCoV strains. In this study, we demonstrated that the virulence of the PDCoV strain CH/XJYN/2016 was completely attenuated following serial cell passaging in vitro, and changes in the biological characteristics and protection efficacy of the strain were evaluated. Our results help elucidate the mechanism of PDCoV attenuation and support the development of appropriate designs for the study of live PDCoV vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

22. A potent, broadly neutralizing human monoclonal antibody that efficiently protects hACE2-transgenic mice from infection with the Wuhan, BA.5, and XBB.1.5 SARS-CoV-2 variants.

Author

Guselnikov, Sergey V., Baranov, Konstantin O., Kulemzin, Sergey V., Belovezhets, Tatyana N., Chikaev, Anton N., Murasheva, Svetlana V., Volkova, Olga Y., Mechetina, Ludmila V., Najakshin, Alexander M., Chikaev, Nikolai A., Solodkov, Pavel P., Sergeeva, Maria V., Smirnov, Alexander V., Serova, Irina A., Serov, Oleg L., Markhaev, Alexander G., Kononova, Yulia V., Alekseev, Alexander Y., Gulyaeva, Marina A., and Danilenko, Daria M.

Subjects

SARS-CoV-2 Omicron variant, SARS-CoV-2, SARS virus, BREAKTHROUGH infections, VIRAL variation

Abstract

The COVID-19 pandemic has uncovered the high genetic variability of the SARSCoV-2 virus and its ability to evade the immune responses that were induced by earlier viral variants. Only a few monoclonal antibodies that have been reported to date are capable of neutralizing a broad spectrum of SARS-CoV-2 variants. Here, we report the isolation of a new broadly neutralizing human monoclonal antibody, iC1. The antibody was identified through sorting the SARS-CoV-1 RBD-stained individual B cells that were isolated from the blood of a vaccinated donor following a breakthrough infection. In vitro, iC1 potently neutralizes pseudoviruses expressing a wide range of SARS-CoV-2 Spike variants, including those of the XBB sublineage. In an hACE2-transgenic mouse model, iC1 provided effective protection against the Wuhan strain of the virus as well as the BA.5 and XBB.1.5 variants. Therefore, iC1 can be considered as a potential component of the broadly neutralizing antibody cocktails resisting the SARS-CoV-2 mutation escape. [ABSTRACT FROM AUTHOR]

Published

2024

23. Changing and Evolution of Influenza Virus: Is It a Trivial Flu?

Author

Pavia, Grazia, Scarpa, Fabio, Ciccozzi, Alessandra, Romano, Chiara, Branda, Francesco, Quirino, Angela, Marascio, Nadia, Matera, Giovanni, Sanna, Daria, and Ciccozzi, Massimo

Subjects

*SEASONAL influenza, *MACHINE learning, *INFLUENZA viruses, *VIRAL variation, *COMMUNICABLE diseases

Abstract

Background: Influenza viruses are etiological agents which cause contagious respiratory, seasonal epidemics and, for influenza A subtypes, pandemics. The clinical picture of influenza has undergone continuous change over the years, due to intrinsic viral evolution as well as "reassortment" of its genomic segments. The history of influenza highlights its ability to adapt and to rapidly evolve, without specific circumstances. This reflects the complexity of this pathology and poses the fundamental question about its assumption as a "common illness" and its impact on public health. Summary: The global influenza epidemics and pandemics claimed millions of deaths, leaving an indelible mark on public health and showing the need for a better comprehension of the influenza virus. The clear understanding of genetic variations during the influenza seasonal epidemics is a crucial point for developing effective strategies for prevention, treatment, and vaccine design. The recent advance in next-generation sequencing approaches, model systems to virus culture, and bioinformatics pipeline played a key role in the rapid characterization of circulating influenza strains. In particular, the increase in computational power allowed the performance of complex tasks in healthcare settings through machine learning algorithms, which analyze different variables, such as medical and laboratory outputs, to optimize medical research and improve public health systems. The early detection of emerging and reemerging pathogens is a matter of importance to prevent future pandemics. Key Messages: The perception of influenza as a "trivial flu" or a more serious public health concern is a subject of ongoing debate, reflecting the multifaceted nature of this infectious disease. The variability in the severity of influenza sheds light on the unpredictability of the viral characteristics, coupled with the challenges in accurately predicting circulating strains. This adds complexity to the public health burden of influenza and highlights the need for targeted interventions. [ABSTRACT FROM AUTHOR]

Published

2024

24. Interrogating Genomes and Geography to Unravel Multiyear Vesicular Stomatitis Epizootics.

Author

Humphreys, John M., Shults, Phillip T., Velazquez-Salinas, Lauro, Bertram, Miranda R., Pelzel-McCluskey, Angela M., Pauszek, Steven J., Peters, Debra P. C., and Rodriguez, Luis L.

Subjects

*VESICULAR stomatitis, *VIRAL variation, *VIRUS diversity, *VECTOR-borne diseases, *SUMMER

Abstract

We conducted an integrative analysis to elucidate the spatial epidemiological patterns of the Vesicular Stomatitis New Jersey virus (VSNJV) during the 2014–15 epizootic cycle in the United States (US). Using georeferenced VSNJV genomics data, confirmed vesicular stomatitis (VS) disease cases from surveillance, and a suite of environmental factors, our study assessed environmental and phylogenetic similarity to compare VS cases reported in 2014 and 2015. Despite uncertainties from incomplete virus sampling and cross-scale spatial processes, patterns suggested multiple independent re-invasion events concurrent with potential viral overwintering between sequential seasons. Our findings pointed to a geographically defined southern virus pool at the US–Mexico interface as the source of VSNJV invasions and overwintering sites. Phylodynamic analysis demonstrated an increase in virus diversity before a rise in case numbers and a pronounced reduction in virus diversity during the winter season, indicative of a genetic bottleneck and a significant narrowing of virus variation between the summer outbreak seasons. Environment–vector interactions underscored the central role of meta-population dynamics in driving disease spread. These insights emphasize the necessity for location- and time-specific management practices, including rapid response, movement restrictions, vector control, and other targeted interventions. [ABSTRACT FROM AUTHOR]

Published

2024

25. Clinical features and viral load variations of Mpox: a retrospective study in Chongqing, China.

Author

Yang, Sen, Xia, Chao, Zhang, Yuxin, Shen, Yan, Xia, Chengshuang, Lu, Yanqiu, Su, Shifang, Deng, Changgang, Harypursat, Vijay, Wang, Jing, Yuan, Jing, and Chen, Yemiao

Subjects

*MONKEYPOX, *VIRAL load, *VIRAL variation, *VIRUS diseases, *MEN who have sex with men

Abstract

Purpose: Since May 2022, Mpox has spread extensively outside of Africa, posing a serious threat to the health of people globally, and particularly to the men who have sex with men (MSM) population. Chongqing, a province in Southwest China, has relatively large MSM and people living with HIV (PLWH) populations, presenting conditions conducive to the wide dissemination of Mpox. In this study, we investigated the clinical characteristics of Mpox patients among MSM and PLWH in Chongqing, aiming to inform the development of targeted prevention, control, and treatment strategies for Mpox. Method: We evaluated the clinical characteristics, travel history, time of onset, distribution and number of skin lesions of Mpox patients admitted to the Chongqing Public Health Medical Center between September 2022 and October 2023. Meanwhile, a series of clinical samples were collected and the pathogen of interest was identified as Mpox virus using quantitative polymerase chain reaction (qPCR). The results were presented in the form of cycle thresholds (Ct), which help to approximate the quantification of viral load. Results: As of October 11, 2023, the Chongqing Public Health Medical Center reported a total of nine Mpox virus infections. All the patients identified were male and belonged to the MSM population, among whom seven (77.8%) were living with HIV, and maintained a preserved immune system while achieving viral suppression via effective ART. We observed no discernible clinical differences between MSM with Mpox with or without HIV, and no fatalities were recorded. Viral loads were observed to be higher in samples taken from the skin than those from the throat, nasopharynx, blood, or semen. Conclusion: In this retrospective study, the clinical manifestations of MPXV infection appeared consistent among MSM patients, regardless of HIV status. Elevated MPXV viral loads in the skin and mucosal tissues, particularly at genital and anal sites, indicate that transmission is more likely to occur via direct physical contact as opposed to respiratory pathways or through exposure to bodily fluids. [ABSTRACT FROM AUTHOR]

Published

2024

26. Joint host-pathogen genomic analysis identifies hepatitis B virus mutations associated with human NTCP and HLA class I variation.

Author

Xu, Zhi Ming, Gnouamozi, Gnimah Eva, Rüeger, Sina, Shea, Patrick R., Buti, Maria, Chan, Henry LY., Marcellin, Patrick, Lawless, Dylan, Naret, Olivier, Zeller, Matthias, Schneuing, Arne, Scheck, Andreas, Junier, Thomas, Moradpour, Darius, Podlaha, Ondrej, Suri, Vithika, Gaggar, Anuj, Subramanian, Mani, Correia, Bruno, and Gfeller, David

Subjects

*HEPATITIS B virus, *GENOMICS, *VIRAL mutation, *CHRONIC hepatitis B, *GENETIC variation, *VIRAL variation

Abstract

Evolutionary changes in the hepatitis B virus (HBV) genome could reflect its adaptation to host-induced selective pressure. Leveraging paired human exome and ultra-deep HBV genome-sequencing data from 567 affected individuals with chronic hepatitis B, we comprehensively searched for the signatures of this evolutionary process by conducting "genome-to-genome" association tests between all human genetic variants and viral mutations. We identified significant associations between an East Asian-specific missense variant in the gene encoding the HBV entry receptor NTCP (rs2296651, NTCP S267F) and mutations within the receptor-binding region of HBV preS1. Through in silico modeling and in vitro preS1-NTCP binding assays, we observed that the associated HBV mutations are in proximity to the NTCP variant when bound and together partially increase binding affinity to NTCP S267F. Furthermore, we identified significant associations between HLA-A variation and viral mutations in HLA-A-restricted T cell epitopes. We used in silico binding prediction tools to evaluate the impact of the associated HBV mutations on HLA presentation and observed that mutations that result in weaker binding affinities to their cognate HLA alleles were enriched. Overall, our results suggest the emergence of HBV escape mutations that might alter the interaction between HBV PreS1 and its cellular receptor NTCP during viral entry into hepatocytes and confirm the role of HLA class I restriction in inducing HBV epitope variations. [Display omitted] Host-induced selective pressure can shape viral evolution during chronic infections. By analyzing paired human and hepatitis B virus (HBV) genomic data, we pinpoint viral mutations associated with human NTCP and HLA-A variation, shedding light on HBV-evasion strategies that influence viral entry and HLA presentation. [ABSTRACT FROM AUTHOR]

Published

2024

27. Genetic Variations of African Swine Fever Virus: Major Challenges and Prospects.

Author

Chen, Shengmei, Wang, Tao, Luo, Rui, Lu, Zhanhao, Lan, Jing, Sun, Yuan, Fu, Qiang, and Qiu, Hua-Ji

Subjects

*AFRICAN swine fever virus, *AFRICAN swine fever, *GENETIC variation, *VIRUS diseases, *VIRAL variation, *COMMUNICABLE diseases

Abstract

African swine fever (ASF) is a contagious viral disease affecting pigs and wild boars. It typically presents as a hemorrhagic fever but can also manifest in various forms, ranging from acute to asymptomatic. ASF has spread extensively globally, significantly impacting the swine industry. The complex and highly variable character of the ASFV genome makes vaccine development and disease surveillance extremely difficult. The overall trend in ASFV evolution is towards decreased virulence and increased transmissibility. Factors such as gene mutation, viral recombination, and the strain-specificity of virulence-associated genes facilitate viral variations. This review deeply discusses the influence of these factors on viral immune evasion, pathogenicity, and the ensuing complexities encountered in vaccine development, disease detection, and surveillance. The ultimate goal of this review is to thoroughly explore the genetic evolution patterns and variation mechanisms of ASFV, providing a theoretical foundation for advancement in vaccine and diagnostic technologies. [ABSTRACT FROM AUTHOR]

Published

2024

28. P3N-PIPO but not P3 is the avirulence determinant in melon carrying the Wmr resistance against watermelon mosaic virus, although they contain a common genetic determinant.

Author

Zhen Sun, Yu-Xuan Wu, Ling-Zhi Liu, Yan-Ping Tian, Xiang-Dong Li, and Chao Geng

Subjects

*MOSAIC viruses, *VIRAL proteins, *WATERMELONS, *PLANT viruses, *VIRAL variation, *HOST-virus relationships, *NICOTIANA benthamiana

Abstract

Viruses employ a series of diverse translational strategies to expand their coding capacity, which produces viral proteins with common domains and entangles virus-host interactions. P3N-PIPO, which is a transcriptional slippage product from the P3 cistron, is a potyviral protein dedicated to intercellular movement. Here, we show that P3N-PIPO from watermelon mosaic virus (WMV) triggers cell death when transiently expressed in Cucumis melo accession PI 414723 carrying the Wmr resistance gene. Surprisingly, expression of the P3N domain, shared by both P3N-PIPO and P3, can alone induce cell death, whereas expression of P3 fails to activate cell death in PI 414723. Confocal microscopy analysis revealed that P3N-PIPO targets plasmodesmata (PD) and P3N associates with PD, while P3 localizes in endoplasmic reticulum in melon cells. We also found that mutations in residues L35, L38, P41, and I43 of the P3N domain individually disrupt the cell death induced by P3N-PIPO, but do not affect the PD localization of P3N-PIPO. Furthermore, WMV mutants with L35A or I43A can systemically infect PI 414723 plants. These key residues guide us to discover some WMV isolates potentially breaking the Wmr resistance. Through searching the NCBI database, we discovered some WMV isolates with variations in these key sites, and one naturally occurring I43V variation enables WMV to systemically infect PI 414723 plants. Taken together, these results demonstrate that P3N-PIPO, but not P3, is the avirulence determinant recognized by Wmr, although the shared N terminal P3N domain can alone trigger cell death. This work reveals a novel viral avirulence (Avr) gene recognized by a resistance (R) gene. This novel viral Avr gene is special because it is a transcriptional slippage product from another virus gene, which means that their encoding proteins share the common N-terminal domain but have distinct C-terminal domains. Amazingly, we found that it is the common N-terminal domain that determines the Avr-R recognition, but only one of the viral proteins can be recognized by the R protein to induce cell death. Next, we found that these two viral proteins target different subcellular compartments. In addition, we discovered some virus isolates with variations in the common N-terminal domain and one naturally occurring variation that enables the virus to overcome the resistance. These results show how viral proteins with common domains interact with a host resistance protein and provide new evidence for the arms race between plants and viruses. [ABSTRACT FROM AUTHOR]

Published

2024

29. Host obesity impacts genetic variation in influenza A viral populations.

Author

Knoll, Marissa, Honce, Rebekah, Meliopoulos, Victoria, Segredo-Otero, Ernesto Alejandro, Johnson, Katherine E. E., Schultz-Cherry, Stacey, Ghedin, Elodie, and Gresham, David

Subjects

*GENETIC variation, *VIRAL variation, *OBESITY, *NON-communicable diseases, *VIRAL genomes, *VIRUS diseases

Abstract

Obesity is well established as a risk factor for many noncommunicable diseases; however, its consequences for infectious disease are poorly understood. Here, we investigated the impact of host obesity on influenza A virus (IAV) genetic variation using a diet-induced obesity ferret model and the A/Hong Kong/1073/1999 (H9N2) strain. Using a co-caging study design, we investigated the maintenance, generation, and transmission of intrahost IAV genetic variation by sequencing viral genomic RNA obtained from nasal wash samples over multiple days of infection. We found evidence for an enhanced role of positive selection acting on de novo mutations in obese hosts that led to nonsynonymous changes that rose to high frequency. In addition, we identified numerous cases of mutations throughout the genome that were specific to obese hosts and that were preserved during transmission between hosts. Despite detection of obese-specific variants, the overall viral genetic diversity did not differ significantly between obese and lean hosts. This is likely due to the high supply rate of de novo variation and common evolutionary adaptations to the ferret host regardless of obesity status, which we show are mediated by variation in the hemagglutinin and polymerase genes (PB2 and PB1). We also identified defective viral genomes (DVGs) that were found uniquely in either obese or lean hosts, but the overall DVG diversity and dynamics did not differ between the two groups. Our study suggests that obesity may result in a unique selective environment impacting intrahost IAV evolution, highlighting the need for additional genetic and functional studies to confirm these effects. IMPORTANCE Obesity is a chronic health condition characterized by excess adiposity leading to a systemic increase in inflammation and dysregulation of metabolic hormones and immune cell populations. Influenza A virus (IAV) is a highly infectious pathogen responsible for seasonal and pandemic influenza. Host risk factors, including compromised immunity and pre-existing health conditions, can contribute to increased infection susceptibility and disease severity. During viral replication in a host, the negative-sense single-stranded RNA genome of IAV accumulates genetic diversity that may have important consequences for viral evolution and transmission. Our study provides the first insight into the consequences of host obesity on viral genetic diversity and adaptation, suggesting that host factors associated with obesity alter the selective environment experienced by a viral population, thereby impacting the spectrum of genetic variation. [ABSTRACT FROM AUTHOR]

Published

2024

30. Exploring the Frontiers of Virus–Host Interactions—3rd Edition.

Author

Mukherjee, Anupam and Bagchi, Parikshit

Subjects

*HUMAN herpesvirus 2, *SARS-CoV-2 Omicron variant, *VIRUS diseases, *AVIAN influenza A virus, *VIRAL variation, *AVIAN influenza

Abstract

The third edition of the "Virus–Host Interaction" series showcases 12 research articles that delve into the intricate dynamics between viruses and their host organisms. Studies range from exploring antiviral therapies to investigating the molecular mechanisms of SARS-CoV-2 infection and the zoonotic potential of viruses. The edition also highlights the role of the kallikrein–kinin system in viral infections, immune responses to Dengue virus, viral immune evasion strategies, and potential therapeutic targets for inhibiting viral proliferation. Overall, the research presented underscores the importance of ongoing efforts in virology to address current viral threats and prepare for future challenges. [Extracted from the article]

Published

2024

31. Hepatitis C Virus E1E2 Structure, Diversity, and Implications for Vaccine Development.

Author

Pierce, Brian G., Felbinger, Nathaniel, Metcalf, Matthew, Toth, Eric A., Ofek, Gilad, and Fuerst, Thomas R.

Subjects

*HEPATITIS C virus, *VACCINE development, *VACCINE effectiveness, *VIRAL variation, *STARTLE reaction

Abstract

Hepatitis C virus (HCV) is a major medical health burden and the leading cause of chronic liver disease and cancer worldwide. More than 58 million people are chronically infected with HCV, with 1.5 million new infections occurring each year. An effective HCV vaccine is a major public health and medical need as recognized by the World Health Organization. However, due to the high variability of the virus and its ability to escape the immune response, HCV rapidly accumulates mutations, making vaccine development a formidable challenge. An effective vaccine must elicit broadly neutralizing antibodies (bnAbs) in a consistent fashion. After decades of studies from basic research through clinical development, the antigen of choice is considered the E1E2 envelope glycoprotein due to conserved, broadly neutralizing antigenic domains located in the constituent subunits of E1, E2, and the E1E2 heterodimeric complex itself. The challenge has been elicitation of robust humoral and cellular responses leading to broad virus neutralization due to the relatively low immunogenicity of this antigen. In view of this challenge, structure-based vaccine design approaches to stabilize key antigenic domains have been hampered due to the lack of E1E2 atomic-level resolution structures to guide them. Another challenge has been the development of a delivery platform in which a multivalent form of the antigen can be presented in order to elicit a more robust anti-HCV immune response. Recent nanoparticle vaccines are gaining prominence in the field due to their ability to facilitate a controlled multivalent presentation and trafficking to lymph nodes, where they can interact with both the cellular and humoral components of the immune system. This review focuses on recent advances in understanding the E1E2 heterodimeric structure to facilitate a rational design approach and the potential for development of a multivalent nanoparticle-based HCV E1E2 vaccine. Both aspects are considered important in the development of an effective HCV vaccine that can effectively address viral diversity and escape. [ABSTRACT FROM AUTHOR]

Published

2024

32. Wheat stripe mosaic virus from Brazil and South Africa evolved as distinct subpopulations with low genetic variability.

Author

Stempkowski, Lucas Antonio, Pereira, Fernando Sartori, Lau, Douglas, Kuhnem, Paulo, Casa, Ricardo Trezzi, Fajardo, Thor Vinícius Martins, Junior, Antônio Nhani, da Silva, Fábio Nascimento, Orílio, Anelise Franco, and Zerbini, Francisco Murilo

Subjects

*GENETIC variation, *WHEAT breeding, *STRIPE rust, *WHEAT, *MOSAIC diseases, *VIRAL variation, *MOSAIC viruses

Abstract

Wheat stripe mosaic virus (WhSMV) is the causal agent of soilborne wheat mosaic disease (SBWMD) in Brazil, which is a serious threat to wheat production in the southern part of the country. WhSMV also occurs in Paraguay and South Africa. The virus is soilborne, transmitted by Polymyxa graminis, and management strategies are mainly based on genetic resistance. Variation in the reaction (type and severity of symptoms) of cultivars has been reported depending on the region and/or year of cultivation, leading wheat breeding programmes to test their materials in several locations, which increases costs and is time‐consuming. One hypothesis is that this variation in symptoms is a result of the genetic variability of WhSMV. We assessed the genetic variability and population structure of WhSMV infecting wheat in Brazil and South Africa. In field experiments conducted in different locations in southern Brazil, a consistent reproducibility of symptoms was observed in a set of cultivars, and molecular analysis showed a low degree of genetic variability of the Brazilian viral population. The hypothesis that the variation in SBWMD symptoms in Brazil is due to genetic variability of the virus was thus rejected. Comparison of the Brazilian and South African WhSMV isolates indicated that they comprise distinct subpopulations and that the Brazilian subpopulation is more variable than the South African subpopulation. The lower genetic variability of the South African subpopulation suggests genetic stability or a recent emergence of WhSMV in that region. [ABSTRACT FROM AUTHOR]

Published

2024

33. Metabolic signatures of acute respiratory distress syndrome: COVID versus non-COVID.

Author

Ji, Xiangming and Ji, Hong-Long

Subjects

*ADULT respiratory distress syndrome, *CORONAVIRUSES, *HERPESVIRUSES, *VIRAL variation, *COVID-19

Abstract

Acute respiratory distress syndrome (ARDS) is a fatal pulmonary disorder characterized by severe hypoxia and inflammation. ARDS is commonly triggered by systemic and pulmonary infections, with bacteria and viruses. Notable pathogens include Pseudomonas aeruginosa, Streptococcus aureus, Enterobacter species, coronaviruses, influenza viruses, and herpesviruses. COVID-19 ARDS represents the latest etiological phenotype of the disease. The pathogenesis of ARDS caused by bacteria and viruses exhibits variations in host immune responses and lung mesenchymal injury. We postulate that the systemic and pulmonary metabolomics profiles of ARDS induced by COVID-19 pathogens may exhibit distinctions compared with those induced by other infectious agents. This review aims to compare metabolic signatures in blood and lung specimens specifically within the context of ARDS. Both prevalent and phenotype-specific metabolomic signatures, including but not limited to glycolysis, ketone body production, lipid oxidation, and dysregulation of the kynurenine pathways, were thoroughly examined in this review. The distinctions in metabolic signatures between COVID-19 and non-COVID ARDS have the potential to reveal new biomarkers, elucidate pathogenic mechanisms, identify druggable targets, and facilitate differential diagnosis in the future. [ABSTRACT FROM AUTHOR]

Published

2024

34. Changes in the epidemiology and clinical characteristics of viral gastroenteritis among hospitalized children in the Mainland of China: a retrospective study from 2016 to 2020.

Author

Li, Fei, Guo, Lingyun, Li, Qi, Xu, Hui, Fu, Yiliang, Huang, Luci, Feng, Guoshuang, Liu, Gang, Chen, Xiangpeng, and Xie, Zhengde

Subjects

VIRAL gastroenteritis, HOSPITAL care of children, CLINICAL epidemiology, MYCOPLASMA pneumoniae infections, RESPIRATORY diseases, VIRAL variation

Abstract

Background: Acute gastroenteritis (AGE) causes significant morbidity in children worldwide; however, the disease burden of children hospitalized with viral gastroenteritis in China has been rarely described. Through this study, we analyzed the data of hospitalized children with viral gastroenteritis to explore the changes in the epidemiology and clinical characteristics of viral gastroenteritis in the mainland of China. Methods: Data were extracted from Futang Children's Medical Development Research Center (FRCPD), between 2016 and 2020, across 27 hospitals in 7 regions. The demographics, geographic distribution, pathogenic examination results, complications, hospital admission date, length of hospital stays, hospitalization charges and outcomes were collected and analyzed. Results: Viral etiological agents included rotavirus (RV), adenovirus (ADV), norovirus (NV) and coxsackievirus (CV) that were detected in 25,274 (89.6%), 1,047 (3.7%), 441 (1.5%) and 83 (0.3%) cases. There was a higher prevalence of RV and NV infection among children younger than 3 years of age. RV and NV had the highest detection rates in winter, while ADV in summer. Children with viral gastroenteritis were often accompanied by other diseases, such as myocardial diseases (10.98–31.04%), upper respiratory tract diseases (1.20–20.15%), and seizures (2.41–14.51%). Among those cases, the co-infection rate with other pathogens was 6.28%, with Mycoplasma pneumoniae (M. pneumoniae), Epstein-Barr virus (EBV), and influenza virus (FLU) being the most common pathogens. The median length of stay was 5 days, and the median cost of hospitalization corresponded to587 US dollars. Conclusions: This finding suggests that viral gastroenteritis, especially those caused by RV, is a prevalent illness among younger children. Co-infections and the presence of other diseases are common. The seasonality and regional variation of viral etiological agents highlight the need for targeted prevention and control measures. Although viral gastroenteritis rarely leads to death, it also results in a significant economic burden on healthcare systems. [ABSTRACT FROM AUTHOR]

Published

2024

35. Surfing the Waves of SARS-CoV-2: Analysis of Viral Genome Variants Using an NGS Survey in Verona, Italy.

Author

Tonon, Emil, Cecchetto, Riccardo, Diani, Erica, Medaina, Nicoletta, Turri, Giona, Lagni, Anna, Lotti, Virginia, and Gibellini, Davide

Subjects

VIRAL transmission, WAVE analysis, VIRAL variation, VIRAL genomes, DELETION mutation, NUCLEOTIDE sequencing, COMPARATIVE genomics

Abstract

The availability of new technologies for deep sequencing, including next-generation sequencing (NGS), allows for the detection of viral genome variations. The epidemiological determination of SARS-CoV-2 viral genome changes during the pandemic waves displayed the genome evolution and subsequent onset of variants over time. These variants were often associated with a different impact on viral transmission and disease severity. We investigated, in a retrospective study, the trend of SARS-CoV-2-positive samples collected from the start of the Italian pandemic (January 2020) to June 2023. In addition, viral RNAs extracted from 938 nasopharyngeal swab samples were analyzed using NGS between February 2022 and June 2023. Sequences were analyzed with bioinformatic tools to identify lineages and mutations and for phylogenetic studies. Six pandemic waves were detected. In our samples, we predominantly detected BA.2, BQ.1, BA.5.1, BA.5.2, and, more recently, XBB.1 and its subvariants. The data describe the SARS-CoV-2 genome evolution involved in viral interactions with the host and the dynamics of specific genome mutations and deletions. [ABSTRACT FROM AUTHOR]

Published

2024

36. Variation in Viral Tolerance of 21 Grapevine Rootstocks.

Author

Zhao, Mei, Peng, Lixia, Agüero, Cecilia B., Liu, Gengsen, Zhang, Yuefeng, Walker, Andrew M., and Cui, Zhenhua

Subjects

*VIRAL variation, *ROOTSTOCKS, *GRAPES, *CABERNET wines, *VIRUS diseases, *PLANT growth, *VINEYARDS

Abstract

Grapevine is one of the most economically important fruit crops cultivated worldwide. However, grapevine is highly susceptible to virus infections and exposed to the most diverse forms of viral diseases compared to other fruit crops, and virus-induced incompatibility affects plant growth to different degrees ranging from decline to death. The influence of virus-induced incompatibility could be mitigated to an acceptable level by using appropriate rootstocks. However, the viral tolerance of various grapevine rootstocks with diverse genetic backgrounds remains unclear, along with the identification of the specific viral tolerance factors. In this study, the viral tolerance of 21 grapevine rootstocks was evaluated in a green grafting system. Cabernet Franc varieties infected with a single virus [grapevine leafroll associated virus-1 (GLRaV-1)], a co-infection of two viruses (GLRaV-1 plus grapevine virus A—GVA), and no infection were used as the scions, respectively. The vegetative growth and photosynthetic function of the grafts were analyzed 4 months after grafting. The results indicated that some rootstocks could alleviate the influence of the virus infection, with vegetative growth and photosynthetic function sustained at a normal level, whereas other rootstocks were susceptible to the virus infection, resulting in a decline in the growth and photosynthetic function of the grafts. Our research provides evidence for the existence and diversity of viral tolerance among grapevine rootstocks, offering important information for appropriate rootstock selection in the establishment of new vineyards and in the breeding of grapevine rootstocks with enhanced viral tolerance. [ABSTRACT FROM AUTHOR]

Published

2024

37. Significance of Cytomegalovirus gB Genotypes in Adult Patients Undergoing Hematopoietic Stem Cell Transplantation: Insights from a Single-Centre Investigation.

Author

Vasiljevic, Tamara, Jankovic, Marko, Tomic, Ana, Bakrac, Ida, Radenovic, Stefan, Miljanovic, Danijela, Knezevic, Aleksandra, Jovanovic, Tanja, Djunic, Irena, and Todorovic-Balint, Milena

Subjects

*HEMATOPOIETIC stem cell transplantation, *GENOTYPES, *ADULTS, *CYTOMEGALOVIRUSES, *VIRAL variation, *CUCUMBER mosaic virus

Abstract

Introduction: Cytomegalovirus (CMV) infection is a major clinical issue after allogeneic hematopoietic stem cell transplantation (HSCT). The CMV envelope glycoproteins are key in viral pathogenesis; the glycoprotein B (gB) encoded by the UL55 gene might be an important determinant of viral virulence and disease severity marker in patients treated with allogeneic HSCT. Our aim was to investigate the molecular diversity of CMV gB and inquire into the associations between UL55 gene variations and clinical manifestations in adult patients treated with allogeneic HSCT. Results: The most prevalent genotypes were gB1 and gB4 (11/27, 40.7%). Patients with genotype gB1 infection had earlier platelet engraftment (p < 0.033) and less frequent minimal/measurable residual disease post HSCT than those without this genotype. Patients with gB4 glycoprotein infection had a significantly lower CD4+/CD8+ ratio at D90 (p < 0.026). Interestingly, patients with gB5 glycoprotein infection had shorter overall survival from base condition diagnosis (p < 0.042), as well as shorter overall survival after HSCT (p < 0.036). Acute GvHD was noted more frequently in those with mixed-genotype infection (p = 0.047). Material and Methods: The study included fifty-nine adult patients treated with allogeneic HSCT. Peripheral venous blood was sampled typically per week, with detection of CMV performed by quantitative real-time PCR. Multiplex nested PCR was used to determine specific gB genotypes, which were then statistically compared vis-à-vis specific clinical variables. Conclusions: Our study points to variations in the viral UL55 locus imparting both beneficial (earlier platelet engraftment, less frequent MRD post HSCT) and adverse effects (shorter overall survival, more frequent acute GvHD, less frequent 100% chimerism at day 90) to the transplanted host. Comprehensive molecular investigations are necessary to validate this apparent duality, as the potential benefits of CMV could perhaps be utilized for the benefit of the patient in the future. [ABSTRACT FROM AUTHOR]

Published

2024

38. Seasonal Variability in the Prevalence of DWV Strains in Individual Colonies of European Honeybees in Hawaii.

Author

Zhang, Zhening, Villalobos, Ethel M., Nikaido, Scott, and Martin, Stephen J.

Subjects

*BEE colonies, *HONEYBEES, *VIRAL variation, *VIRAL load, *PANEL analysis, *SEASONS

Abstract

Simple Summary: Deformed wing virus (DWV) is the most widespread bee virus and one of the most destructive pathogens affecting honeybees. Initially believed to be a honeybee virus with one dominant variant, DWV-A, we now know there are four master variants DWV-A, B (VDV-1), C and D. Since 2010, a shift in prevalence from the originally dominant DWV-A strain towards an increase in DWV-B prevalence has been observed in several countries. The geographical isolation of the bee populations in Hawaii provides a unique opportunity to examine the changes in DWV strain prevalence both at the individual colony and the apiary level. In this study, we present longitudinal data on the prevalence of DWV strains in individual colonies on the Island of Oahu, Hawaii. We found that although DWV-A was the dominant strain in the apiary, individual colonies could now be characterized as a mix of DWV-A and DWV-B and some tested positive for DWV-B only. Finally, DWV-B exhibited seasonal variations in both viral loads and prevalence in the apiary. Our long term DWV monitoring at the individual colony level contributes a unique perspective on the emerging patterns of DWV-B. The most prevalent viral pathogen of honeybees is Deformed Wing Virus (DWV) and its two most widely studied and common master-variants are DWV-A and DWV-B. The prevalence of DWV variants in the UK and in the US is changing, with the prevalence of the DWV-A strain declining and DWV-B increasing over time. In 2012, only DWV-A was detected on the Hawaiian Islands of Oahu. In this study we focused on a colony-level survey of DWV strains in a single apiary and examined the prevalence of DWV variants over the course of two years. In 2018 and 2019, a total of 16 colonies underwent viral testing in January, May, and September. Of those 16 colonies, four were monitored in both 2018 and 2019. Individual colonies showed variability of DWV master variants throughout the sampling period. DWV-A was consistently detected; however, the detection of DWV-B was variable across time in individual colonies. Ultimately, this study demonstrated a seasonal variation in both viral prevalence and load for DWV-B, providing a perspective on the dynamic nature of DWV master variants emerging in Hawaii. [ABSTRACT FROM AUTHOR]

Published

2024

39. Influence of perceived risk on travel mode choice during Covid-19.

Author

Wang, Yu, Choudhury, Charisma, Hancock, Thomas O., Wang, Yacan, and Ortúzar, Juan de Dios

Subjects

*COVID-19 pandemic, *CHOICE of transportation, *VIRAL variation, *RISK perception, *PUBLIC transit, *EXTREME value theory

Abstract

We aim to understand the effect of different information types on risk perception and examine the relationship between perceived risk and travel behaviour during a pandemic outbreak. A hybrid choice model structure, incorporating a multiple discrete-continuous extreme value model, was formulated and estimated to explore travellers' mode choice and usage changes. We used a risk perception map to visually explain which risk elements felt unfamiliar and uncontrollable to travellers. Virus variation , Potential sequelae , and Long-term coexistence of coronavirus with humans were perceived as the most unfamiliar and uncontrollable risk elements. The model results indicate that increased perceived risk tends to reduce travellers' use of public transport and increase the use of shared bikes and private cars. Reducing passengers' perceived risk is critical to encourage the re-uptake of public transport in the post-pandemic era. As travellers also show significant heterogeneity, governments should aim to design targeted intervention strategies to encourage different travellers to return to public transport when considering risk communication. • This paper examines the effect of different information on perceived risk and the influence of perceived risk on travel behaviour changes during the Covid-19 pandemic. • A risk perception map is used to find out risk elements that feel unfamiliar and uncontrollable to travellers. • A hybrid choice structure, incorporating a multiple discrete-continuous extreme value (MDCEV) model is formulated and estimated to understand mode choice and changes in the frequency of usage of these modes. • As Travellers show significant heterogeneity, targeted intervention strategies for different types of travellers are required to encourage re-uptake of public transport. [ABSTRACT FROM AUTHOR]

Published

2024

40. Development of in-house ELISA based on recombinant gag proteins of small ruminant lentiviruses isolated from goats in Thailand.

Author

Mongkonwattanaporn, Tatchapon, Lertwatcharasarakul, Preeda, and Rukkwamsuk, Theera

Subjects

*GAG proteins, *LENTIVIRUSES, *RUMINANTS, *GOATS, *VIRAL variation

Abstract

Small ruminant lentiviruses (SRLVs), are grouped in Retroviridae family, remain a significant loss in the small ruminant husbandry. As a result of unavailability of vaccine and effective treatment, the diagnosis plays a crucial role for the control of SRLV infection. However, the major challenge of diagnosis of SRLV infection is the genetic and antigenic variability of the viruses that can lead to a failure in serological detection. This study investigated the circulating strains of the viruses in goats in Thailand and an in-house ELISA was developed. The coding sequences for gag protein were optimized, synthesized, and expressed in Escherichia coli for increasing the sensitivity of ELISA test. A total of 365 serum samples were examined against the recombinant protein in an in-house ELISA. The results showed that the recombinant gag achieves 96.67% sensitivity and 93.18% specificity as compared with the commercially available ELISA test kit. [ABSTRACT FROM AUTHOR]

Published

2024

41. Stochastic model of vesicular stomatitis virus replication reveals mutational effects on virion production.

Author

King, Connor R., Berezin, Casey-Tyler, and Peccoud, Jean

Subjects

*VESICULAR stomatitis, *VIRION, *STOCHASTIC models, *VIRAL replication, *VIRAL variation

Abstract

We present the first complete stochastic model of vesicular stomatitis virus (VSV) intracellular replication. Previous models developed to capture VSV's intracellular replication have either been ODE-based or have not represented the complete replicative cycle, limiting our ability to understand the impact of the stochastic nature of early cellular infections on virion production between cells and how these dynamics change in response to mutations. Our model accurately predicts changes in mean virion production in gene-shuffled VSV variants and can capture the distribution of the number of viruses produced. This model has allowed us to enhance our understanding of intercellular variability in virion production, which appears to be influenced by the duration of the early phase of infection, and variation between variants, arising from balancing the time the genome spends in the active state, the speed of incorporating new genomes into virions, and the production of viral components. Being a stochastic model, we can also assess other effects of mutations beyond just the mean number of virions produced, including the probability of aborted infections and the standard deviation of the number of virions produced. Our model provides a biologically interpretable framework for studying the stochastic nature of VSV replication, shedding light on the mechanisms underlying variation in virion production. In the future, this model could enable the design of more complex viral phenotypes when attenuating VSV, moving beyond solely considering the mean number of virions produced. Author summary: This study presents the first complete stochastic model of vesicular stomatitis virus (VSV) replication. Our model captures the dynamic process of VSV's replication within host cells, accounting for the stochastic nature of early cellular infections and how these dynamics change in response to mutations. By accurately predicting changes in mean virion production and the distribution of viruses in gene-shuffled VSV variants, our model enhances our understanding of viral replication and the variation we see in virion production. Importantly, our findings shed light on the mechanisms underlying the production of VSV virions, revealing the influence of factors such as the duration of the early infection phase and the interplay between the genome's ability to switch into an inactive state and viral protein production. We go beyond assessing the mean number of virions produced and examine other effects of mutations, including the probability of aborted infections and the variability in virion production. This stochastic model provides a valuable framework for studying the complex nature of viral replication, contributing to our understanding of single-cell viral dynamics and variability. Ultimately, this knowledge could pave the way for designing more effective strategies to attenuate VSV. [ABSTRACT FROM AUTHOR]

Published

2024

42. Phylogenetic and Molecular Analysis of the Porcine Epidemic Diarrhea Virus in Mexico during the First Reported Outbreaks (2013–2017).

Author

Rivera-Benítez, José Francisco, Martínez-Bautista, Rebeca, González-Martínez, Raúl, De la Luz-Armendáriz, Jazmín, Herrera-Camacho, Irma, Rosas-Murrieta, Nora, Márquez-Valdelamar, Laura, and Lara, Rocio

Subjects

*PORCINE epidemic diarrhea virus, *VIRAL variation

Abstract

The characteristics of the whole PEDV genome that has circulated in Mexico from the first outbreak to the present are unknown. We chose samples obtained from 2013 to 2017 and sequenced them, which enabled us to identify the genetic variation and phylogeny in the virus during the first four years that it circulated in Mexico. A 99% identity was found among the analyzed pandemic strains; however, the 1% difference affected the structure of the S glycoprotein, which is essential for the binding of the virus to the cellular receptor. The S protein induces the most efficacious antibodies; hence, these changes in structure could be implicated in the clinical antecedents of the outbreaks. Antigenic changes could also help PEDV avoid neutralization, even in the presence of previous immunity. The characterization of the complete genome enabled the identification of three circulating strains that have a deletion in ORF1a, which is present in attenuated Asian vaccine strains. The phylogenetic analysis of the complete genome indicates that the first PEDV outbreaks in Mexico were caused by INDEL strains and pandemic strains related to USA strains; however, the possibility of the entry of European strains exists, which may have caused the 2015 and 2016 outbreaks. [ABSTRACT FROM AUTHOR]

Published

2024

43. Exploring spatial and temporal patterns of viral infection across populations of the Melissa blue butterfly.

Author

McKeegan, Kelli J., Muchoney, Nadya D., Teglas, Mike B., Forister, Matthew L., and Smilanich, Angela M.

Subjects

*VIRUS diseases, *HOST plants, *VIRAL variation, *INSECT populations, *BUTTERFLIES

Abstract

Identifying patterns of pathogen infection in natural systems is crucial to understanding mechanisms of host–pathogen interactions. In this study, we explored how Junonia coenia densovirus (JcDV) infection varies over space and time in populations of the Melissa blue butterfly (Lycaeides melissa: Lycaenidae) using two different host plants. Collections of L. melissa adults from multiple populations and years, along with host plant tissue and community samples of arthropods found on host plants, were screened to determine JcDV prevalence and load. Additionally, we sampled at multiple time points within a single L. melissa flight season to investigate intra‐annual variation in infection patterns.We found population‐specific variation in viral prevalence of L. melissa across collection years, with historical samples potentially having higher viral prevalence than contemporary samples, although host plant diet was not informative for these patterns. Patterns of infection across multiple generations within a flight season showed that late‐season samples had a higher proportion of JcDV‐positive individuals, suggesting an accumulation of virus over the season. Sequence data from a segment of the JcDV capsid gene showed a lack of viral genetic diversity between L. melissa collected from different localities, and little to no viral particles were found in the surrounding environment.Our discovery of temporal variation in infection suggests that multiple sampling efforts must be made when describing pathogen prevalence in multivoltine hosts. Our findings represent an important first step towards further exploration of the ecological factors mediating disease prevalence and host‐specific variability of infection in wild insect populations. [ABSTRACT FROM AUTHOR]

Published

2024

44. The emergence of a novel SARS-CoV-2 variant with higher efficiency of binding with the human host cell receptors in Iraqi subjects.

Author

Al-Mousawi, Masar R. R., Musafer, Karar N. J., Alattabi, Alaa S., and Al-Shuhaib, Mohammed Baqur S.

Subjects

*CELL receptors, *SARS-CoV-2, *VIRAL variation, *GENETIC variation, *ANGIOTENSIN converting enzyme, *AVIAN influenza

Abstract

The objective of this study was to assess the impact of variations in the surface glycoprotein of SARS-CoV-2, which is generated by the spike (S) gene, on its interaction with host receptors in seventy-six viral Iraqi samples. Out of seven SNPs in the coding regions, three missense SNPs were identified. Based on phylogenetic analysis, four distinct groups of amino acid variations were revealed. In group-1 (p.N655H), group-2 (p.H622D), and group-3 (p.L449R), one missense SNP was observed, while no missense SNP was identified in the group-4 (wild-type) samples. Due to their novel amino acid variations, both group-1 and group-2 variants occupied two distinct phylogenetic positions in the tree. Molecular docking was performed between the identified S gene variants and the host angiotensin-converting enzyme 2 (ACE2) receptor, and the effects of these variants were evaluated. Compared with the other viral variations, docking revealed that p.N655H variant exhibited the highest affinity to the ACE2 receptor. It was found that patients infected with p.N655H variants showed a higher level of severity compared to the other types of infections. In conclusion, the observed p.N655H was associated with a higher severity of SARS-CoV-2 infection, which may be associated with greater host entry capacity compared to the wild type or other identified variants. These findings provide insights into the mechanism by which these novel viral strains interact with host cell receptors. They also highlight the importance of understanding virus-host interactions for assessing the impact of the global pandemic caused by SARS-CoV-2. [ABSTRACT FROM AUTHOR]

Published

2024

45. Evolutionary History and Genetic Variation of Zika Virus: Connection Between Thailand Zika Viruses and Global Outbreaks Strains.

Author

Bahoussi, Amina Nawal, Shah, Pir Tariq, Liu, Yue, Guo, Yan-Yan, Bu, Hongli, Wu, Changxin, and Xing, Li

Subjects

*VIRAL variation, *GENETIC variation, *WHOLE genome sequencing, *VACCINE development

Abstract

Background: Zika virus (ZIKV) has significant potential to cause future outbreaks due to insufficient countermeasures. The evolution of ZIKV in Southeast Asian countries remains poorly understood. Materials and Methods: The phylogenetic, phylogeographic network, and recombination analyses of 366 ZIKV complete genome sequences identified between 1947 and 2021 were performed and the amino acid variation landscape was determined to reveal the evolutionary characteristics. Results: ZIKV falls into two major genogroups: GI and GII, segregated into further subgenogroups (GI-1 to GI-3) and (GII-1 to GII-3), respectively. Importantly, Thailand strains cluster with Southeast Asian outbreak strains (Singapore 2016, the Philippines 2012, Cambodia 2010) into GII-2 and form a lineage independent of French Polynesia and the Americas large outbreak strains. Thailand ZIKV strains shared their ancestral route to the strains from French Polynesia, which further connects to Brazil ZIKV through a short mutational branch. Both recombination and specific mutations may contribute to the emergence of new virus lineage in Thailand. Conclusion: This report provides insights into the evolutionary characteristics of ZIKV in Southeast Asia, which may be helpful for epidemiological investigation, vaccine development, and surveillance of the virus. [ABSTRACT FROM AUTHOR]

Published

2024

46. Ontology-based taxonomical analysis of experimentally verified natural and laboratory human coronavirus hosts and its implication for COVID-19 virus origination and transmission.

Author

Wang, Yang, Ye, Muhui, Zhang, Fengwei, Freeman, Zachary Thomas, Yu, Hong, Ye, Xianwei, and He, Yongqun

Subjects

*CORONAVIRUSES, *COVID-19, *COVID-19 pandemic, *VIRAL variation, *SEAFOOD markets, *COMMUNICABLE diseases, *MICE

Abstract

To fully understand COVID-19, it is critical to study all possible hosts of SARS-CoV-2 (the pathogen of COVID-19). In this work, we collected, annotated, and performed ontology-based taxonomical analysis of all the reported and verified hosts for all human coronaviruses including SARS-CoV, MERS-CoV, SARS-CoV-2, HCoV-229E, HCoV-NL63, HCoV-OC43, and HCoV-HKU1. A total of 37 natural hosts and 19 laboratory animal hosts of human coronaviruses were identified based on experimental evidence. Our analysis found that all the verified susceptible natural and laboratory animals belong to therian mammals. Specifically, these 37 natural therian hosts include one wildlife marsupial mammal (i.e., Virginia opossum) and 36 Eutheria mammals (a.k.a. placental mammals). The 19 laboratory animal hosts are also classified as therian mammals. The mouse models with genetically modified human ACE2 or DPP4 were more susceptible to virulent human coronaviruses with clear symptoms, suggesting the critical role of ACE2 and DPP4 to coronavirus virulence. Coronaviruses became more virulent and adaptive in the mouse hosts after a series of viral passages in the mice, providing clue to the possible coronavirus origination. The Huanan Seafood Wholesale Market animals identified early in the COVID-19 outbreak were also systematically analyzed as possible COVID-19 hosts. To support knowledge standardization and query, the annotated host knowledge was modeled and represented in the Coronavirus Infectious Disease Ontology (CIDO). Based on our and others' findings, we further propose a MOVIE model (i.e., Multiple-Organism viral Variations and Immune Evasion) to address how viral variations in therian animal hosts and the host immune evasion might have led to dynamic COVID-19 pandemic outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

47. Sequence variation of the Epstein-Barr virus nuclear antigen 1 (EBNA1) gene in chronic lymphocytic leukemia and healthy volunteer subjects.

Author

Vafapour, Zahra, Tabatabaie, Fatemeh Hosseini, Hosseini, Seyed Younes, Haghighat, Shirin, Hashemi, Seyed Mohammad Ali, Moattari, Afagh, and Sarvari, Jamal

Subjects

*CHRONIC lymphocytic leukemia, *VIRAL variation, *EPSTEIN-Barr virus, *CD20 antigen, *THREONINE, *C-terminal residues, *VOLUNTEERS

Abstract

Epstein-Barr virus–related malignancies have been linked to variations in the sequences of EBV genes, notably EBNA1. Therefore, the purpose of this study was to examine the DBD/DD domain and USP7 binding domain sequences at the C-terminus of the EBNA1 gene in patients with chronic lymphocytic leukemia (CLL). This study included 40 CLL patients and 21 healthy volunteers. Using commercial kits, total DNA was extracted from buffy coat samples, and each sample was tested for the presence of the EBV genome. The C-terminus of EBNA1 was then amplified from positive samples, using nested PCR. Sanger sequencing was used to identify mutations in the PCR products, and the results were analyzed using MEGA11 software. The mean ages of CLL patients and healthy individuals were 61.07 ± 10.2 and 59.08 ± 10.3, respectively. In the EBNA-1 amplicons from CLL patients and healthy individuals, 38.5% and 16.7%, respectively, harbored mutations in the DBD/DD domain of the C-terminal region of the EBNA1 gene (P = 0.378). The mutation frequency at locus 97,320 was significantly higher in CLL patients than in healthy individuals (P = 0.039). Three EBV subtypes based on residue 487 were detected. The frequency of alanine, threonine, and valine in both groups was 88, 8, and 4 percent, respectively (P = 0.207). Moreover, all of the isolates from healthy donors had alanine at this position. The findings indicated that the presence of threonine or valine at residue 487 as well as a synonymous substitution at residue 553 in the C-terminal region of EBNA1 might be involved in the pathogenesis of EBV in CLL patients. [ABSTRACT FROM AUTHOR]

Published

2024

48. Distribution of Wheat-Infecting Viruses and Genetic Variability of Wheat Streak Mosaic Virus and Barley Stripe Mosaic Virus in Kazakhstan.

Author

Kapytina, Anastasiya, Kolchenko, Mariya, Kerimbek, Nazym, Pozharskiy, Alexandr S., Nizamdinova, Gulnaz, Taskuzhina, Aisha, Adilbayeva, Kamila, Khusnitdinova, Marina, Amidullayeva, Malika, Moisseyev, Ruslan, Kachiyeva, Zulfiya, and Gritsenko, Dilyara

Subjects

*MOSAIC viruses, *VIRAL variation, *GENETIC variation, *FOOD safety, *BARLEY, *BARLEY yellow dwarf viruses, *WHEAT, WHEAT genetics

Abstract

Wheat is an essential cereal crop for the economy and food safety of Kazakhstan. In the present work, a screening of wheat and barley from different regions of Kazakhstan was conducted using newly developed specific primers for reverse transcription PCR and loop-mediated isothermal amplification (LAMP) assays. In total, 82 and 19 of 256 samples of wheat and barley tested positive for wheat streak mosaic virus (WSMV) and barley stripe mosaic virus (BSMV), respectively. A phylogenetic analysis using two independent methods revealed that most of the analyzed isolates had a European origin. Molecular data on the distribution and diversity of cereal viruses in Kazakhstan were obtained for the first time and will help lay a foundation for the implementation of genetics and genomics in wheat phyto-epidemiology in the country. [ABSTRACT FROM AUTHOR]

Published

2024

49. OPEN READING FRAME 8 GENE SEQUENCE VARIATION OF CORONA VIRUS IN PATIENTS FROM ERBIL CITY/IRAQ.

Author

Abdulla, Abdulla Kamil, Gharib AL-Barzinji, Ruqaya Muammed, and Taher, Chato A.

Subjects

*CORONAVIRUSES, *VIRAL variation, *GENETIC recombination, *ASPARTIC acid, *COMPLEMENTARY DNA, *VIRAL genomes

Abstract

Background: The rapid rate of mutation of corona virus, which is a significant characteristic, suggests that as it moves across various habitats, the viral genome undergoes new alterations. The objective of this study was to analyze SARS-COV2 ORF8 gene sequence variation among patients in Erbil city. Materials & Methods: During the period of January to December 2022, ten SARS-CoV-2 positive patients (4 female and 6 male), who were detected during the pandemic at Erbil central Laboratory aged (20-70) years enrolled in this cross-sectional study. The single strand RNA extracted from patients and transformed to double stranded complementary DNA. The primers (forward and reveres)- were designed by Bioinformatics program, (Primer3 Plus). Polymerase chain reaction amplification for ORF8 gene was carried out. The products ran on gel electrophoresis to visualize the DNA products. Each species was bi-directionally sequenced to get sequence of DNA strand according to forward primer. The sequence editing was analyzed using BLAST NCBI to indicate the homology from closest species. Phylogenetic tree was constructed. Results: In comparing to the wild type that stated by NCBI (Genbank Reference accession number: OP732758.1) sequencing of our samples showed mutations at different position in which codon number 35 nucleotide A changed to C which results in replacement of an amino acid Aspartic Acid by Alanine, in addition to that in codon 69 nucleotide T changed to C as a consequence amino acid Serine change to Proline. Conclusions: Sequence variation in viral ORF8 gene is regarded as the primary hotspot for genetic recombination and mutation of spike protein of SARS-CoV-2. Monitoring frequent nucleotide substitutions in ORF8 gene could be extremely helpful in understanding how the virus evolved in the community. Formation of new clades in Erbil city may have impact on vaccination program or the infectivity of the virus. [ABSTRACT FROM AUTHOR]

Published

2024

50. Transmission Bottleneck Size Estimation from De Novo Viral Genetic Variation.

Author

Shi, Yike Teresa, Harris, Jeremy D, Martin, Michael A, and Koelle, Katia

Subjects

VIRAL variation, GENETIC variation, GENETIC drift, VIRUS diseases, NATURAL selection

Abstract

Sequencing of viral infections has become increasingly common over the last decade. Deep sequencing data in particular have proven useful in characterizing the roles that genetic drift and natural selection play in shaping within-host viral populations. They have also been used to estimate transmission bottleneck sizes from identified donor–recipient pairs. These bottleneck sizes quantify the number of viral particles that establish genetic lineages in the recipient host and are important to estimate due to their impact on viral evolution. Current approaches for estimating bottleneck sizes exclusively consider the subset of viral sites that are observed as polymorphic in the donor individual. However, these approaches have the potential to substantially underestimate true transmission bottleneck sizes. Here, we present a new statistical approach for instead estimating bottleneck sizes using patterns of viral genetic variation that arise de novo within a recipient individual. Specifically, our approach makes use of the number of clonal viral variants observed in a transmission pair, defined as the number of viral sites that are monomorphic in both the donor and the recipient but carry different alleles. We first test our approach on a simulated dataset and then apply it to both influenza A virus sequence data and SARS-CoV-2 sequence data from identified transmission pairs. Our results confirm the existence of extremely tight transmission bottlenecks for these 2 respiratory viruses. [ABSTRACT FROM AUTHOR]

Published

2024