Presentation is loading. Please wait.

Presentation is loading. Please wait.

Michael S. Diamond, Theodore C. Pierson  Cell 

Published byBritta Sundström Modified over 5 years ago

Similar presentations

Presentation on theme: "Michael S. Diamond, Theodore C. Pierson  Cell "— Presentation transcript:

1 Molecular Insight into Dengue Virus Pathogenesis and Its Implications for Disease Control 
Michael S. Diamond, Theodore C. Pierson  Cell  Volume 162, Issue 3, Pages (July 2015) DOI: /j.cell Copyright © 2015 Elsevier Inc. Terms and Conditions

2 Figure 1 Cell Biology of DENV Infection
DENV interacts with target cells via one or more host factors that enhance attachment. DENV subsequently is internalized by endocytosis and fuses with membranes of the late endosome in a pH-dependent manner. Virus binding and membrane fusion are orchestrated by the envelope (E) protein, which is composed of three domains (top center, DI, shown in red; DII, shown in yellow; and DIII, shown in blue). Viral RNA translation and replication occur in association with membranes of the endoplasmic reticulum (ER). Newly synthesized viral RNA is packaged into immature virions, which bud into the ER lumen. During egress, the virion undergoes a maturation step defined by cleavage of the prM protein by furin proteases (orange spheres). DENV infection is detected by host pattern recognition receptors that selectively bind viral RNA molecules, including TLRs and RIG-I-like receptors (RLRs). Additionally, DENV infection activates the DNA sensor cGAS and STING pathway via unknown mechanisms. These cell-intrinsic host defense systems stimulate the production of IFNs to promote expression of antiviral ISGs. DENV has evolved mechanisms, including the NS2B/3-mediated cleavage of STING and NS5-mediated degradation of STAT2, to antagonize antiviral pathways. (Inset) An increasingly detailed understanding of the structural basis of antibody recognition has emerged. Antibodies have been characterized that bind epitopes (in green) on the virion comprised of a single or multiple E proteins. For example, the DIII lateral ridge epitope is contained within a single E protein (top), whereas the E-dimer-dependent quaternary epitope is composed of residues of both E proteins in the anti-parallel dimer (bottom). In contrast, other mAbs bind epitopes not predicted to be accessible using existing models of virion structure (middle). Cell  , DOI: ( /j.cell ) Copyright © 2015 Elsevier Inc. Terms and Conditions

Download ppt "Michael S. Diamond, Theodore C. Pierson  Cell "

Similar presentations

Vaccines and Antivirals. Clinical Use of Interferon Therefore they have been used in the treatment of cancers of various types. Therefore they have been.

Vaccines and Antivirals. Clinical Use of Interferon Therefore they have been used in the treatment of cancers of various types. Therefore they have been.
Flaviviridae Positive stranded RNA viruses. Flaviviridae Enveloped virions made up of a lipid bilayer with two or more types of envelope (E) glycoproteins.

Flaviviridae Positive stranded RNA viruses. Flaviviridae Enveloped virions made up of a lipid bilayer with two or more types of envelope (E) glycoproteins.
Virus Replication John Goulding, Imperial College London, UK

Virus Replication John Goulding, Imperial College London, UK
Hepatitis C virus: life cycle in cells, infection and host response, and analysis of molecular markers influencing the outcome of infection and response.

Hepatitis C virus: life cycle in cells, infection and host response, and analysis of molecular markers influencing the outcome of infection and response.
Identification and functions of pattern-recognition receptors

Identification and functions of pattern-recognition receptors
Structural biology of hepatitis C virus

Structural biology of hepatitis C virus
Occult Hepatitis C Virus Infection: Are We Digging Too Deep?

Occult Hepatitis C Virus Infection: Are We Digging Too Deep?
Hepatitis C virus: life cycle in cells, infection and host response, and analysis of molecular markers influencing the outcome of infection and response.

Hepatitis C virus: life cycle in cells, infection and host response, and analysis of molecular markers influencing the outcome of infection and response.
Identification and functions of pattern-recognition receptors

Identification and functions of pattern-recognition receptors
HCV NS5A Inhibitors: The Devil Is in the Details

HCV NS5A Inhibitors: The Devil Is in the Details
Interferon-λ: Immune Functions at Barrier Surfaces and Beyond

Interferon-λ: Immune Functions at Barrier Surfaces and Beyond
Nader Yatim, Matthew L. Albert  Immunity 

Nader Yatim, Matthew L. Albert  Immunity 
Figure 1 HCV life cycle and site of action of DAAs

Figure 1 HCV life cycle and site of action of DAAs
Sterol-izing Innate Immunity

Sterol-izing Innate Immunity
NMD: Nonsense-Mediated Defense

NMD: Nonsense-Mediated Defense
The Influenza Virus Enigma

The Influenza Virus Enigma
Measles Virus Takes a Two-Pronged Attack on PP1

Measles Virus Takes a Two-Pronged Attack on PP1
Volume 159, Issue 5, Pages (November 2014)

Volume 159, Issue 5, Pages (November 2014)
Tetherin: Holding On and Letting Go

Tetherin: Holding On and Letting Go
Toll-like Receptor 9: AEP Takes Control

Toll-like Receptor 9: AEP Takes Control

Similar presentations

Ads by Google