Early Events in Foamy Virus - Host Interaction and Intracellular Trafficking

Lindemann, Dirk, Berka, Ursula, Hamann, Martin Volker

18 December 2015

Here we review viral and cellular requirements for entry and intracellular trafficking of foamy viruses (FVs) resulting in integration of viral sequences into the host cell genome. The virus encoded glycoprotein harbors all essential viral determinants, which are involved in absorption to the host membrane and triggering the uptake of virus particles. However, only recently light was shed on some details of FV’s interaction with its host cell receptor(s). Latest studies indicate glycosaminoglycans of cellular proteoglycans, particularly heparan sulfate, to be of utmost importance. In a species-specific manner FVs encounter endogenous machineries of the target cell, which are in some cases exploited for fusion and further egress into the cytosol. Mostly triggered by pH-dependent endocytosis, viral and cellular membranes fuse and release naked FV capsids into the cytoplasm. Intact FV capsids are then shuttled along microtubules and are found to accumulate nearby the centrosome where they can remain in a latent state for extended time periods. Depending on the host cell cycle status, FV capsids finally disassemble and, by still poorly characterized mechanisms, the preintegration complex gets access to the host cell chromatin. Host cell mitosis finally allows for viral genome integration, ultimately starting a new round of viral replication.

Virologie

Biotechnologie

foamy virus

entry

trafficking

ddc:610

rvk:XD 8000

Early Events in Foamy Virus - Host Interaction and Intracellular Trafficking

Berka, Ursula, Hamann, Martin Volker, Lindemann, Dirk

28 November 2013

Here we review viral and cellular requirements for entry and intracellular trafficking of foamy viruses (FVs) resulting in integration of viral sequences into the host cell genome. The virus encoded glycoprotein harbors all essential viral determinants, which are involved in absorption to the host membrane and triggering the uptake of virus particles. However, only recently light was shed on some details of FV’s interaction with its host cell receptor(s). Latest studies indicate glycosaminoglycans of cellular proteoglycans, particularly heparan sulfate, to be of utmost importance. In a species-specific manner FVs encounter endogenous machineries of the target cell, which are in some cases exploited for fusion and further egress into the cytosol. Mostly triggered by pH-dependent endocytosis, viral and cellular membranes fuse and release naked FV capsids into the cytoplasm. Intact FV capsids are then shuttled along microtubules and are found to accumulate nearby the centrosome where they can remain in a latent state for extended time periods. Depending on the host cell cycle status, FV capsids finally disassemble and, by still poorly characterized mechanisms, the preintegration complex gets access to the host cell chromatin. Host cell mitosis finally allows for viral genome integration, ultimately starting a new round of viral replication.

Spumaviren

Eintritt

intrazellulärer Transport

TU Dresden

Publikationsfonds

Foamy virus

entry

trafficking

Technical University Dresden

Publication funds

ddc:610

rvk:XD 8000

Directed evolution of an HIV-1 LTR specific recombinase for anti-retroviral therapy- a proof of concept study

Sarkar, Indrani

17 January 2007

The prospect of the work presented in this thesis has been to engineer Cre recombinase to recognize and recombine a sequence from an HIV-1 Long Terminal Repeat (LTR), characterize the recombination proficiency of the evolved recombinase in mammalian cells and explore the potential of the recombinase for a novel antiretroviral strategy.

Cre recombinase

HIV

directed evolution

antiretroviral strategy

Cre Rekombinase

HIV

DNA Evolution

antiretrovirale Therapie

ddc:570

rvk:XD 8000

HIV

DNS

Evolution

Antiretrovirale Substanz

Foamy Virus Budding and Release

Hütter, Sylvia, Zurnic, Irena, Lindemann, Dirk

28 November 2013

Like all other viruses, a successful egress of functional particles from infected cells is a prerequisite for foamy virus (FV) spread within the host. The budding process of FVs involves steps, which are shared by other retroviruses, such as interaction of the capsid protein with components of cellular vacuolar protein sorting (Vps) machinery via late domains identified in some FV capsid proteins. Additionally, there are features of the FV budding strategy quite unique to the spumaretroviruses. This includes secretion of non-infectious subviral particles and a strict dependence on capsid-glycoprotein interaction for release of infectious virions from the cells. Virus-like particle release is not possible since FV capsid proteins lack a membrane-targeting signal. It is noteworthy that in experimental systems, the important capsid-glycoprotein interaction could be bypassed by fusing heterologous membrane-targeting signals to the capsid protein, thus enabling glycoprotein-independent egress. Aside from that, other systems have been developed to enable envelopment of FV capsids by heterologous Env proteins. In this review article, we will summarize the current knowledge on FV budding, the viral components and their domains involved as well as alternative and artificial ways to promote budding of FV particle structures, a feature important for alteration of target tissue tropism of FV-based gene transfer systems.

Spumaviren‎

Virusbudding

Egress

Capsid-Glycoprotein Interaktion

Pseudotypisierung

subvirale Partikel

TU Dresden

Publikationsfonds

Foamy virus

budding

virus egress

capsid-glycoprotein interaction

pseudotyping

subviral particles

Technical University Dresden

Publication funds

ddc:610

rvk:XD 8000