Functional differences of class 1a PI 3-kinase heterodimers

Beeton, Carolyn Ann

January 2000

No description available.

572.8

Bmi-1 collaborates with H-ras to promote mammary epithelial cell transformation, tumorigenesis, and metastasis

Hoenerhoff, Mark James.

January 2008

Thesis (Ph.D.)--Michigan State University. Dept. of Pathobiology and Diagnostic Investigation, 2008. / Title from PDF t.p. (viewed on July 10, 2009) Includes bibliographical references (p. 157-174). Also issued in print.

Herpes virus egress through the nuclear envelope and host response against infections

Saiz Ros, Natalia

January 2017

The nuclear envelope is a highly organised double membrane system that separates the activities of the nuclear and cytoplasmic compartments in eukaryotic systems. The wide range of functions recently associated with the NE and the identification of hundreds of proteins associated with this cellular structure indicates that it is a major signalling node for the cell. Recent work indicates NE functions in signalling innate immune responses to herpesviruses. The viruses, on the other hand, often target or usurp NE functions in different ways. The NE is also a physical barrier that must be overcome for viruses like the herpesviridae that assemble capsids in the nucleus. This thesis addresses two important questions: 1) How do herpesviruses cross the NE after new viral particles are produced in the nucleus? and 2) What is the nuclear envelope role of NET23/STING in the activation of immune factors upon herpesvirus infection? To address the first question, I followed two different approaches. The first used the isolation of microsomes from HSV-1 infected cells to identify possible host factors involved during herpesvirus exit through the NE on the prediction that such proteins would disperse into the ER during infection. I identified a group of vesicle fusion proteins that play a role in this herpesvirus exit through the NE. Depletion of three identified vesicle fusion proteins decreased the growth of HSV-1 in host cells, yielding accumulation of viral particles in the nucleus. The second approach was to follow the fate of nuclear envelope transmembrane proteins (NETs) during HSV-1 infection. To address the question of how NET23/STING is involved in innate immunity I tested the hypothesis that this NET acts as a transport receptor to carry signals through the peripheral channels of the NPC when central channel transport is blocked by pathogens. FRAP was used to quantify the mobility of NET23/STING upon the induction of the innate immune response, finding an increase of the mobility for this protein in the NE. To further elucidate its role within the NE I tested whether some NE-NET23/STING binding partners were being redistributed between the nucleus and cytoplasm during innate immune responses. This revealed two of these binding partners normally redistribute upon innate immune response activation and this is blocked in cells knocked down for NET23/STING. Finally, I confirmed that NET23/STING contributes to chromatin remodelling during infection involving an increase in the H3K9Me3 epigenetic mark. Collectively, these data argue the identification of novel host proteins involved in herpesvirus nuclear egress and the finding of a new role for NET23/STING within the NE.

Analyse des protéines cellulaires incorporées dans les particules matures du virus de l’Herpès simplex de type 1

Stegen, Camille

04 1900

Les virus exploitent la machinerie cellulaire de l’hôte de façon très variée et plusieurs types vont même jusqu’à incorporer certaines protéines cellulaires. Nous avons récemment effectué la première analyse protéomique du virion mature de l’Herpès simplex de type 1 (HSV-1), ce qui nous a permis de déterminer que jusqu’à 49 protéines cellulaires différentes se retrouvaient dans ce virus (Loret, S. et al. (2008). "Comprehensive characterization of extracellular herpes simplex virus type 1 virions." J Virol 82(17): 8605-18.). Afin de déterminer leur importance dans le cycle de réplication d’HSV-1, nous avons mis au point un système de criblage nous permettant de quantifier le virus produit et relâché dans le milieu extracellulaire en utilisant un virus marqué à la GFP ainsi que des petits ARN interférents (pARNi) ciblant spécifiquement ces protéines cellulaires. Cette approche nous a permis de démontrer que 17 des protéines identifiées précédemment jouaient un rôle critique dans la réplication d’HSV-1, suggérant ainsi que leur incorporation dans le virus n’est pas aléatoire. Nous avons ensuite examiné le rôle d’une de ces protéines, DDX3X (DEAD (Asp-Glu-Ala-Asp) box polypeptide 3, X-linked), une protéine multifonctionnelle connue pour son implication dans les cycles de réplication de plusieurs virus humains. À l’aide de pARNi ainsi que de différentes lignées cellulaires, dont une lignée DDX3X thermosensible, nous avons démontré que l’inhibition de DDX3X résultait en une diminution du nombre de capsides intracellulaires et induisait une importante diminution de l’expression des gènes viraux. Nous avons aussi démontré que la fraction de DDX3X incorporée dans le virion contribuait activement au cycle infectieux d’HSV-1. Ces résultats confirment l’intérêt de notre approche afin d’étudier les interactions hôte-pathogène en plus de démontrer la contribution des protéines cellulaires incorporées à HSV-1 dans l’infection virale. / Viruses exploit the cellular machineries in many ways and several viruses specifically incorporate host proteins. To understand their biological relevance, we recently performed the first comprehensive characterization of the mature herpes simplex virus type 1 (HSV-1) in which up to 49 distinct cellular proteins were identified by mass spectrometry. In the present study, we sought to identify which of these cellular factors are critical for the HSV-1 life cycle. To this end, we performed a functional screen using small interfering RNA (siRNA) and a GFP-tagged virus, which indicated that at least 17 of the virion-incorporated host proteins alter HSV-1 proliferation in cell culture. Interestingly, these include several Rab GTPases and other intracellular transport components as well as proteins involved in signal transduction, gene regulation and immunity. Among them, the DEAD (Asp-Glu-Ala-Asp) box polypeptide 3, X-linked protein (DDX3X) is a multifunctional molecule previously linked to several other viruses. Its relevance for HSV-1 was further confirmed with different siRNA reagents and cell lines, including a DDX3X thermosensitive cell line. We found that DDX3X inactivation reduced intracellular capsid abundance via a strong inhibition of viral gene expression. We also report evidence that the pool of DDX3X present in the mature virions actively contributes to HSV-1 life cycle. Altogether, this highlights a powerful and biologically relevant approach to characterize host-pathogen interactions and points to the important contribution host proteins within mature viral particles.

Herpès simplex de type 1

Herpes simplex type 1

DDX3X

DDX3X

pARNi

siRNA

Protéines cellulaires

Cellular proteins

Criblage

Screen

Analyse des protéines cellulaires incorporées dans les particules matures du virus de l’Herpès simplex de type 1

Stegen, Camille

04 1900

Les virus exploitent la machinerie cellulaire de l’hôte de façon très variée et plusieurs types vont même jusqu’à incorporer certaines protéines cellulaires. Nous avons récemment effectué la première analyse protéomique du virion mature de l’Herpès simplex de type 1 (HSV-1), ce qui nous a permis de déterminer que jusqu’à 49 protéines cellulaires différentes se retrouvaient dans ce virus (Loret, S. et al. (2008). "Comprehensive characterization of extracellular herpes simplex virus type 1 virions." J Virol 82(17): 8605-18.). Afin de déterminer leur importance dans le cycle de réplication d’HSV-1, nous avons mis au point un système de criblage nous permettant de quantifier le virus produit et relâché dans le milieu extracellulaire en utilisant un virus marqué à la GFP ainsi que des petits ARN interférents (pARNi) ciblant spécifiquement ces protéines cellulaires. Cette approche nous a permis de démontrer que 17 des protéines identifiées précédemment jouaient un rôle critique dans la réplication d’HSV-1, suggérant ainsi que leur incorporation dans le virus n’est pas aléatoire. Nous avons ensuite examiné le rôle d’une de ces protéines, DDX3X (DEAD (Asp-Glu-Ala-Asp) box polypeptide 3, X-linked), une protéine multifonctionnelle connue pour son implication dans les cycles de réplication de plusieurs virus humains. À l’aide de pARNi ainsi que de différentes lignées cellulaires, dont une lignée DDX3X thermosensible, nous avons démontré que l’inhibition de DDX3X résultait en une diminution du nombre de capsides intracellulaires et induisait une importante diminution de l’expression des gènes viraux. Nous avons aussi démontré que la fraction de DDX3X incorporée dans le virion contribuait activement au cycle infectieux d’HSV-1. Ces résultats confirment l’intérêt de notre approche afin d’étudier les interactions hôte-pathogène en plus de démontrer la contribution des protéines cellulaires incorporées à HSV-1 dans l’infection virale. / Viruses exploit the cellular machineries in many ways and several viruses specifically incorporate host proteins. To understand their biological relevance, we recently performed the first comprehensive characterization of the mature herpes simplex virus type 1 (HSV-1) in which up to 49 distinct cellular proteins were identified by mass spectrometry. In the present study, we sought to identify which of these cellular factors are critical for the HSV-1 life cycle. To this end, we performed a functional screen using small interfering RNA (siRNA) and a GFP-tagged virus, which indicated that at least 17 of the virion-incorporated host proteins alter HSV-1 proliferation in cell culture. Interestingly, these include several Rab GTPases and other intracellular transport components as well as proteins involved in signal transduction, gene regulation and immunity. Among them, the DEAD (Asp-Glu-Ala-Asp) box polypeptide 3, X-linked protein (DDX3X) is a multifunctional molecule previously linked to several other viruses. Its relevance for HSV-1 was further confirmed with different siRNA reagents and cell lines, including a DDX3X thermosensitive cell line. We found that DDX3X inactivation reduced intracellular capsid abundance via a strong inhibition of viral gene expression. We also report evidence that the pool of DDX3X present in the mature virions actively contributes to HSV-1 life cycle. Altogether, this highlights a powerful and biologically relevant approach to characterize host-pathogen interactions and points to the important contribution host proteins within mature viral particles.

Herpès simplex de type 1

Herpes simplex type 1

DDX3X

DDX3X

pARNi

siRNA

Protéines cellulaires

Cellular proteins

Criblage

Screen