Publications by authors named "Kenneth A Stapleford"
Article Synopsis
- Envelope proteins, specifically the E1 and E2 proteins of the Chikungunya virus (CHIKV), drive the fusion of the virus with host cell membranes, allowing the virus to enter cells.
- Research on CHIKV has shown that mutations in these proteins can confer resistance to antiviral treatments by enhancing fusion capabilities, particularly a double-mutant strain that tolerates a higher pH for effective fusion.
- Molecular dynamics simulations suggest that interactions between specific residues in these envelope proteins are crucial for their rearrangement during the fusion process, revealing important insights into viral infection mechanisms and potential therapeutic targets.
Article Synopsis
- Alphaviruses, like chikungunya virus, rely on an error-prone RNA-dependent RNA polymerase (nsP4) for genome replication, but the full role of nsP4 in the virus life cycle is unclear.
- Researchers studied the significance of a key residue (C483) in nsP4 and created various nsP4 variants to explore their effects on viral replication in mammalian and mosquito cells.
- Their findings reveal that specific subdomains of nsP4 are critical for both RNA transcription and virion production, with temperature conditions impacting virus infectivity but enhancing replication and protein production in mammalian cells.
Article Synopsis
- Arboviruses pose a significant public health risk, especially as cardiovascular symptoms related to these infections are becoming more recognized.
- A study explored how various arboviruses, particularly the alphaviruses chikungunya and Mayaro, interact with human cardiac cells, revealing that while Mayaro can replicate effectively, the Indian Ocean Lineage of chikungunya shows complete replication restrictions.
- The research suggests that this replication restriction occurs during the virus's entry and exit from cells, and hints that Mayaro may better evade the immune response in heart cells, warranting further investigation into how these dynamics affect disease outcomes.
Chikungunya virus (CHIKV) is a mosquito-transmitted, RNA virus that causes an often-severe musculoskeletal illness characterized by fever, joint pain, and a range of debilitating symptoms. The virus has re-emerged as a global health threat in recent decades, spreading from its origin in Africa across Asia and the Americas, leading to widespread outbreaks impacting millions of people. Despite more than 50 years of research into the pathogenesis of CHIKV, there is still no curative treatment available.
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- Severe COVID-19 patients frequently experience coinfections with bacterial and fungal pathogens, leading to higher mortality rates compared to infections with just one pathogen.
- A study investigated blood and respiratory samples from hospitalized patients to analyze the relationship between SARS-CoV-2 and coinfections, finding no specific lineage associated with COVID-19 but noting trends in the virulence of bloodstream strains.
- Research using a mouse model demonstrated that SARS-CoV-2 infection increases susceptibility to subsequent infections with low-cytotoxicity pathogens, highlighting the enhanced risk of severe outcomes from these coinfections.
Article Synopsis
- Scientists studied a virus called chikungunya and found changes in its protein that affect how it infects cells.
- They discovered specific mutations in the virus’s E1 protein that change another protein called E2, making it easier for the virus to enter different types of cells.
- The study showed that these changes can make the virus infect more effectively in mosquitoes and certain cell types, which helps us understand how the virus spreads and could help fight it.
Unlabelled: The genomic determinants that contribute to orthobunyavirus infection and pathogenesis are not well-defined. In this study, we harnessed the process of reassortment to understand which viral factors drive change in the replication and pathogenesis of La Crosse virus (LACV). We systematically reassorted the genomic segments of two genetically similar Lineage I LACV isolates into six unique reassortants.
View Article and Find Full Text PDFAlphaviruses encode an error-prone RNA-dependent RNA polymerase (RdRp), nsP4, required for genome synthesis, yet how the RdRp functions in the complete alphavirus life cycle is not well-defined. Previous work using chikungunya virus (CHIKV) has established the importance of the nsP4 residue cysteine 483 in maintaining viral genetic fidelity. Given the location of residue C483 in the nsP4 palm domain, we hypothesized that other residues within this domain and surrounding subdomains would also contribute to polymerase function.
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- - Researchers found that patients with COVID-19 have a heightened risk of heart complications for up to a year after infection, and this might be linked to the virus's impact on cardiovascular health.
- - The study detected SARS-CoV-2 viral RNA in coronary artery lesions from deceased COVID-19 patients, indicating that the virus can directly infect these areas and influence inflammation.
- - SARS-CoV-2 seems to target macrophages in atherosclerotic plaques, leading to increased inflammatory responses that may contribute to both immediate and long-term cardiovascular risks.
Article Synopsis
- Alphaviruses, such as CHIKV, have different mechanisms for infecting mammals and insects, with this study focusing on specific variants of the E1 glycoprotein that affect host infection dynamics.
- The variants E1-N20Y and E1-M88L showed enhanced infectivity in mosquito and mammalian cells, respectively, suggesting that the E1 glycoprotein's structure plays a crucial role in virus binding and entry.
- The findings highlight the importance of understanding glycoprotein interactions and dynamics, as they influence the virus's ability to infect different cell types and hosts, which is vital given the public health implications of arboviruses.
Generation of virus-host protein-protein interactions (PPIs) maps may provide clues to uncover SARS-CoV-2-hijacked cellular processes. However, these PPIs maps were created by expressing each viral protein singularly, which does not reflect the life situation in which certain viral proteins synergistically interact with host proteins. Our results reveal the host-viral protein-protein interactome of SARS-CoV-2 NSP3, NSP4, and NSP6 expressed individually or in combination.
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- - COVID-19 patients have an increased risk of heart-related issues, such as heart attacks and strokes, for up to a year after infection, possibly due to the body’s inflammatory response to the virus.
- - Research shows that SARS-CoV-2 can be found in coronary artery plaque samples from severe COVID-19 patients, indicating the virus may directly infect these areas and cause local inflammation.
- - The virus targets macrophages (a type of immune cell) within the plaque, especially in cholesterol-rich environments, leading to a strong inflammatory response that could potentially result in serious cardiovascular complications.
Arthropod-borne viruses (arboviruses) are an emerging and evolving global public health threat, with limited antiviral treatments or vaccines available. La Crosse virus (LACV) from the order is responsible for pediatric encephalitis cases in the United States, yet little is known about the infectivity of LACV. Given the structural similarities between class II fusion glycoproteins of LACV and chikungunya virus (CHIKV), an alphavirus from the family, we hypothesized that LACV would share similar entry mechanisms with CHIKV.
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- - Chikungunya virus (CHIKV) can infect heart cells, specifically cardiac fibroblasts, and while often cleared by the immune response in healthy mice, it can lead to cardiac issues in the absence of proper immune signaling.
- - The study used mouse models and human cardiac cells to show that MAVS signaling is crucial for clearing CHIKV from the heart, and without it, persistent infection can cause inflammatory heart conditions.
- - Researchers emphasize the need for monitoring heart health in patients infected with CHIKV due to the potential for lasting cardiovascular problems, including vasculitis and myocarditis.
Unlabelled: Arthropod-borne viruses (arboviruses) are an emerging and evolving global public health threat with little to no antiviral treatments. La Crosse virus (LACV) from the order is responsible for pediatric encephalitis cases in the United States, yet little is known about the infectivity of LACV. Given the structural similarities between class II fusion glycoproteins of LACV and chikungunya virus (CHIKV), an alphavirus from the family, we hypothesized that LACV would share similar entry mechanisms to CHIKV.
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- Gut microbiome dysbiosis is linked to COVID-19 severity, but a direct causal relationship has not been proven yet.
- Research shows that SARS-CoV-2 infection leads to changes in gut bacteria in mice, which could compromise gut barrier function and increase infection risk.
- Analysis of samples from 96 COVID-19 patients indicates that altered gut bacteria can enter the bloodstream, potentially causing severe secondary infections in these patients.
Article Synopsis
- The study investigates how COVID-19 affects the gastrointestinal system, focusing on the variation in virus replication among different individuals' intestinal organoids.
- Researchers found significant differences in the replication of the SARS-CoV-2 virus based on the levels of ACE2 expression in the organoids, which indicates a potential link to varying patient outcomes.
- The findings suggest that the Omicron variant may have a heightened ability to infect intestinal tissues, highlighting the importance of ACE2 levels in understanding COVID-19's gastrointestinal effects.
Article Synopsis
- * Research using a mouse model shows that SARS-CoV-2 infection disrupts the gut microbiome and affects gut cell function, mirroring findings in human patients.
- * The study found that hospitalized COVID-19 patients have an overgrowth of harmful bacteria, including antibiotic-resistant strains, which are associated with secondary infections that may originate from the gut.
Epidemic RNA viruses seem to arise year after year leading to countless infections and devastating disease. SARS-CoV-2 is the most recent of these viruses, but there will undoubtedly be more to come. While effective SARS-CoV-2 vaccines are being deployed, one approach that is still missing is effective antivirals that can be used at the onset of infections and therefore prevent pandemics.
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- Chikungunya virus (CHIKV) is a serious health risk and understanding its disease mechanisms and replication is vital for public health efforts.
- Research identified two key mutations (E1 V156A and E1 K211T) in the CHIKV glycoprotein that enhance the virus's ability to infect and cause disease in hosts, including humans.
- These mutations alter how the virus interacts with host cells, leading to increased infectivity and symptoms like foot swelling in mouse models, highlighting the need for further studies on CHIKV variants.
Article Synopsis
- Alphaviruses and flaviviruses have similar class II fusion glycoproteins crucial for their assembly and infectivity, specifically noting conservation in the tip of domain II among both virus families.
- Research on Zika virus identified a novel envelope glycoprotein variant that, while minimally affecting infection in mosquitoes, reduced viral replication in human cells and mice and heightened sensitivity to ammonium chloride.
- The study further explored mutations in the flavivirus E β-strand c and ij loop, revealing that certain alterations can inhibit the production of infectious Zika and yellow fever viruses, suggesting that structural similarities in these glycoproteins play significant roles in viral infection and could inform antiviral strategies.
Objective: Heightened inflammation, dysregulated immunity, and thrombotic events are characteristic of hospitalized COVID-19 patients. Given that platelets are key regulators of thrombosis, inflammation, and immunity they represent prime candidates as mediators of COVID-19-associated pathogenesis. The objective of this study was to understand the contribution of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) to the platelet phenotype via phenotypic (activation, aggregation) and transcriptomic characterization.
View Article and Find Full Text PDFGiven the evidence for a hyperactive platelet phenotype in COVID-19, we investigated effector cell properties of COVID-19 platelets on endothelial cells (ECs). Integration of EC and platelet RNA sequencing revealed that platelet-released factors in COVID-19 promote an inflammatory hypercoagulable endotheliopathy. We identified and as transcripts enriched in COVID-19 platelets and were induced by megakaryocyte infection with SARS-CoV-2.
View Article and Find Full Text PDFRespiratory failure is associated with increased mortality in COVID-19 patients. There are no validated lower airway biomarkers to predict clinical outcome. We investigated whether bacterial respiratory infections were associated with poor clinical outcome of COVID-19 in a prospective, observational cohort of 589 critically ill adults, all of whom required mechanical ventilation.
View Article and Find Full Text PDFAlphaviruses are important pathogens that continue to cause outbreaks of disease in humans and animals worldwide. Diseases caused by alphavirus infections include acute symptoms of fever, rash, and nausea as well as chronic arthritis and severe-to-fatal conditions including myocarditis and encephalitis. Despite their prevalence and the significant public health threat they pose, there are currently no effective antiviral treatments or vaccines against alphaviruses.
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