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Author: Elise Biquand Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
An estimated 10%-20% of the world's population is affected each year by seasonal epidemic influenza, causing about 250,000 to 500,000 fatal cases. The pandemic risk reinforces the trait of influenza A virus (IAV) infection as a public health issue. The virus life cycle critically relies on its ability to manipulate the host proteome. Besides, the ubiquitin-proteasome system (UPS) is involved in many regulatory processes in mammalian cells by inducing protein degradation, mediating protein activation or shaping their sub-cellular localisation. Therefore, UPS is a prime target hijacked by viruses. Recent evidence indicates that an intricate regulatory network involving viral proteins and the cellular UPS is likely to contribute to viral replication and immune evasion of influenza A viruses. However, usurpation of the host UPS by IAV is far from being comprehensively deciphered. To gain better understanding, we assessed the interplay between the human UPS and the PB2 subunit of the influenza A virus polymerase through a global proteomic profiling approach. For that purpose, an UPS-dedicated library of 590 human cDNAs, comprising 63% of the whole human UPS, was constituted and characterised. In an initial screen, UPS factors were challenged using a high-throughput split luciferase assay for interaction with the PB2 protein from 5 influenza A strains of different pathogenicity in human. A total of 80 UPS factors emerged as potential PB2 partners, of which 42 were validated as high-confidence PB2 partners for at least one of the strains. Further comparison of interaction profiles of the 5 PB2 with the UPS by hierarchical clustering revealed an interaction dendrogram fitting with the circulation time in the human population.Functional importance of interactors was tested by siRNA-mediated knock down experiments using luciferase tagged recombinant IAV viruses. Depletion of 36 out of the 42 tested UPS factors showed an effect on the infection with all or a subset of IAV strains, underlying the strong functional output of the developed methodology. Among these factors three deubiquitinases (DUBs) were further studied to decipher their involvement in IAV viral cycle. We have shown that they are involved in early and late stage of the infection and began to draw their function in viral cycle. We demonstrated with our colleagues in Hong-Kong that OTUB1 is involved in the host cytokine response and most probably in virus assembly. OTUD6A was also shown to be implicated in late stages of the infection but we still don't know its exact role. Contrariwise, the inactive DUB PAN2, which is part of poly-deadenylation complexes, is implicated in early phase of IAV infection, but surprisingly apparently not through viral mRNA regulation. More work is on-going to precise by which mechanisms these DUBs are implicated in IAV infection.
Author: Elise Biquand Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
An estimated 10%-20% of the world's population is affected each year by seasonal epidemic influenza, causing about 250,000 to 500,000 fatal cases. The pandemic risk reinforces the trait of influenza A virus (IAV) infection as a public health issue. The virus life cycle critically relies on its ability to manipulate the host proteome. Besides, the ubiquitin-proteasome system (UPS) is involved in many regulatory processes in mammalian cells by inducing protein degradation, mediating protein activation or shaping their sub-cellular localisation. Therefore, UPS is a prime target hijacked by viruses. Recent evidence indicates that an intricate regulatory network involving viral proteins and the cellular UPS is likely to contribute to viral replication and immune evasion of influenza A viruses. However, usurpation of the host UPS by IAV is far from being comprehensively deciphered. To gain better understanding, we assessed the interplay between the human UPS and the PB2 subunit of the influenza A virus polymerase through a global proteomic profiling approach. For that purpose, an UPS-dedicated library of 590 human cDNAs, comprising 63% of the whole human UPS, was constituted and characterised. In an initial screen, UPS factors were challenged using a high-throughput split luciferase assay for interaction with the PB2 protein from 5 influenza A strains of different pathogenicity in human. A total of 80 UPS factors emerged as potential PB2 partners, of which 42 were validated as high-confidence PB2 partners for at least one of the strains. Further comparison of interaction profiles of the 5 PB2 with the UPS by hierarchical clustering revealed an interaction dendrogram fitting with the circulation time in the human population.Functional importance of interactors was tested by siRNA-mediated knock down experiments using luciferase tagged recombinant IAV viruses. Depletion of 36 out of the 42 tested UPS factors showed an effect on the infection with all or a subset of IAV strains, underlying the strong functional output of the developed methodology. Among these factors three deubiquitinases (DUBs) were further studied to decipher their involvement in IAV viral cycle. We have shown that they are involved in early and late stage of the infection and began to draw their function in viral cycle. We demonstrated with our colleagues in Hong-Kong that OTUB1 is involved in the host cytokine response and most probably in virus assembly. OTUD6A was also shown to be implicated in late stages of the infection but we still don't know its exact role. Contrariwise, the inactive DUB PAN2, which is part of poly-deadenylation complexes, is implicated in early phase of IAV infection, but surprisingly apparently not through viral mRNA regulation. More work is on-going to precise by which mechanisms these DUBs are implicated in IAV infection.
Author: Marwah Karim Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The ubiquitin proteasome system regulates numerous cell processes, through ubiquitination of proteins. A vast interplay between viral proteins and host UPS exists, to promote successful infection and escape host's immune response. We focused on the interaction between influenza A virus (IAV) polymerase protein PB2 and factors of the multi-components E3 ubiquitin ligase complex based on cullin 4 (CRL4) namely DDB1, DCAF11 and DCAF12L1 (designated as CRL4s). We found that PB2 undergoes a non-proteolytic ubiquitination, catalyzed by two CRL4s during infection. These CRL4s are positive regulators of viral infection, required for an optimal virions production and normal progression of viral cycle. We identified K29-linked ubiquitin chains as the main components of the non-proteolytic PB2 ubiquitination mediated by the CRL4s, thereby providing the first example of therole of this atypical ubiquitin linkage in the regulation of a viral infection. Although CRL4 E3 ligases are able to bind to PB2 when engaged in the viral polymerase complex, they did not affect the transcription and replication of viral segments. The two CRL4 ligases catalyzed the ubiquitination of different lysines on PB2, which might support distinct functions of PB2. Our work provides the first characterization of a non-proteolytic PTM of PB2, which might be essential for the successful outcome of an IAV infection. Furthermore, using affinity-purification followed by mass spectrometry (AP/MS) we identified distinct sets of cellular factors binding to the CRL4s during IAV infection. These results point towards the rewiring of cellular proteome targeted by the pro-viral CRL4 E3 ligases during IAV infection.
Author: Vladimir Uversky Publisher: John Wiley & Sons ISBN: 0470618310 Category : Science Languages : en Pages : 532
Book Description
This book provides up-to-date information on experimental and computational characterization of the structural and functional properties of viral proteins, which are widely involved in regulatory and signaling processes. With chapters by leading research groups, it features current information on the structural and functional roles of intrinsic disorders in viral proteomes. It systematically addresses the measles, HIV, influenza, potato virus, forest virus, bovine virus, hepatitis, and rotavirus as well as viral genomics. After analyzing the unique features of each class of viral proteins, future directions for research and disease management are presented.
Author: Sanjeev Kumar Singh Publisher: Springer Nature ISBN: 9811589364 Category : Science Languages : en Pages : 334
Book Description
This book presents various computer-aided drug discovery methods for the design and development of ligand and structure-based drug molecules. A wide variety of computational approaches are now being used in various stages of drug discovery and development, as well as in clinical studies. Yet, despite the rapid advances in computer software and hardware, combined with the exponential growth in the available biological information, there are many challenges that still need to be addressed, as this book shows. In turn, it shares valuable insights into receptor-ligand interactions in connection with various biological functions and human diseases. The book discusses a wide range of phylogenetic methods and highlights the applications of Molecular Dynamics Simulation in the drug discovery process. It also explores the application of quantum mechanics in order to provide better accuracy when calculating protein-ligand binding interactions and predicting binding affinities. In closing, the book provides illustrative descriptions of major challenges associated with computer-aided drug discovery for the development of therapeutic drugs. Given its scope, it offers a valuable asset for life sciences researchers, medicinal chemists and bioinformaticians looking for the latest information on computer-aided methodologies for drug development, together with their applications in drug discovery.
Author: JH van der Kolk Publisher: CRC Press ISBN: 1840766247 Category : Medical Languages : en Pages : 336
Book Description
A clinician and a pathologist have collaborated to produce this thorough and balanced account of infectious diseases affecting horses. The book evaluates the latest diagnostic aids, including rapid developments in molecular biology, while emphasising that they are no substitute for clinical observation and skills.The majority of equine infectious d
Author: Uday Kishore Publisher: Springer ISBN: 9781461495291 Category : Medical Languages : en Pages : 0
Book Description
The book starts with dissecting mechanisms underlying viral immune evasion via exploiting the host complement system by vaccinia virus, and by modulating the type 1 interferon response by RNA viruses. Yet another chapter looks into how viroporins expressed by different families of viruses causing influenza A virus, SARS, hepatitis C and HIV interact with several cellular pathways. Understanding of these mechanisms can aid the development of novel potential anti‐viral targets. The chapter on tuberculosis discusses the emerging importance of the innate immune mechanisms against Mycobacterium tuberculosis infection and latency. This book has a strong focus on fungal pathogenesis and immunity, starting with virulence and host factors that attain great importance in candidiasis and associated escape tricks of seriously opportunistic fungi. Two chapters on Aspergillus fumigatus elaborate on the pathogenic mechanisms: first discussing A. fumigatus‐airway epithelium interaction, followed by fungal and host factors that are paramount in the development of allergic and invasive aspergillosis. In the subsequent chapter, there is a general discussion on the innate and adaptive immune responses against primary and opportunistic fungal pathogens.
Author: Pallaval Veera Bramhachari Publisher: Springer ISBN: 9789811510441 Category : Medical Languages : en Pages : 0
Book Description
This book discusses various components of the innate and adaptive immune response in combating viral infections, presenting the recent advances in our understanding of innate immunity recognition of viruses and highlighting the important role of inflammation, cytokines such as interferon, toll-like receptors and leukocytes in the initial detection of invading viruses and subsequent activation of adaptive immunity. It also summarizes the role of the adaptive immunity against viral infections through clearance of virus and establishment of memory response that protects against the recurrent infections. In addition, the book examines the role of DNA and RNA sensors in viral recognition and in controlling viral infection. Lastly, it reviews the latest developments in the development of the rational viral vaccines. As such it is a useful resource book for postgraduate and early researchers wanting to gain insights into the immune response to viral infections.
Author: Neal Nathanson Publisher: Elsevier ISBN: 0080471056 Category : Medical Languages : en Pages : 279
Book Description
Based on the highly successful reference work Viral Pathogenesis published in 1997, this concise, economical version can be used both as an introductory text or for self-education by medical students and biologists alike. This latest edition provides a completely revised overview of the subject with new chapters on innate immunity, emerging viral diseases, and antiviral therapy in a format that is easy to understand without continually referring to additional information. Used by the author in his graduate classes at the University of Pennsylvania, it sets forth the essential principles and discusses the details of how the immune system responds to viral invasion including the treatment and prevention of infection. Illustrated by pertinent examples it is one of the only books devoted exclusively to this topic. * Offers almost a 20% expansion over the first edition * Focuses specifically on viral pathogenesis unlike other texts where only a few chapters are devoted to the topic* Neal Nathanson is one of the primary authorities in the field and has authored chapters on viral pathogenesis in two of the most well known virology and microbiology titles Field's Virology and Topley and Wilson's Microbiology* Now in four color throughout!
Author: Sonia Longhi Publisher: Nova Publishers ISBN: 9781600216299 Category : Medical Languages : en Pages : 180
Book Description
Measles virus possesses a non segmented, single stranded, negative sense RNA genome that is encapsidated by the nucleoprotein to form a helical nucleocapsid. This ribonucleoproteic complex is the substrate for both transcription and replication. The RNA-dependent RNA polymerase binds to the nucleocapsid template via its co-factor, the phosphoprotein. This book focuses on the main structural information available on the nucleoprotein, showing that it consists of a structured core (NCORE) and of an intrinsically disordered C-terminal domain (NTAIL). The functional implications of the disordered nature of NTAIL are discussed in light of the ability of disordered regions to establish interactions with multiple partners, thus leading to multiple biological effects. Indeed, beyond the phosphoprotein, NTAIL also interacts with cellular partners, including the major heat shock protein, hsp72, the interferon regulator factor 3, IRF3, and a yet unidentified cellular receptor referred to as NR. This book consists of two chapters devoted to the general functions of the nucleoprotein in transcription and replication and to a detailed overview of its structural properties, and of three chapters focused on the functional relevance of the interaction between NTAIL and its various intracellular and extracellular partners.
Author: Catherine Adamson Publisher: MDPI ISBN: 3039289535 Category : Science Languages : en Pages : 386
Book Description
Antiviral agents are used for the treatment of viral diseases. Antiviral drugs have been successfully developed and used clinically for a limited number of important human viral diseases notably caused by human immunodeficiency virus (HIV), hepatitis C virus (HCV), hepatitis B virus (HBV), herpes, and influenza viruses. Despite the successes of these antiviral drugs, issues with drug resistance and toxicity remain challenging. These challenges are driving research to identify new drug candidates and to investigate novel drug targets to develop new mechanistic drug classes. Antiviral agents are not available against many viruses that cause human disease and economic burdens; in particular, the development of antiviral agents against emerging, re-emerging, and neglected viruses is increasingly becoming a priority. This book includes six review articles that discuss new antiviral strategies. The reviews either discuss advances relating to a specific virus or new therapeutic targets and approaches. The book includes 15 original research articles reporting new antiviral agents against a variety of clinically and economically important viruses and studies into the prevalence or acquisition of drug resistance. Overall, this book is an exciting collection of new research and ideas relating to the development of antiviral agents.
Author: Elise Biquand
Author: Elise Biquand
Author: Marwah Karim
Author: Vladimir Uversky
Author: Sanjeev Kumar Singh
Author: JH van der Kolk
Author: Uday Kishore
Author: Pallaval Veera Bramhachari
Author: Neal Nathanson
Author: Sonia Longhi
Author: Catherine Adamson