Molecular mechanism of influenza A virus restriction by human annexin A6

Diaz Gaisenband, Stefan

January 2017

Influenza A virus (IAV) is a major threat to human health with seasonal epidemics, occasional pandemics and emergence of new highly pathogenic strains from the animal reservoir. Our laboratory has shown that the human Annexin A6 (AnxA6) interacts with the IAV M2 proton channel and limits production of progeny IAV from infected cells. We have found that overexpression of AnxA6 impairs morphogenesis and release of progeny viruses. These findings are supported by another study showing that AnxA6 has a critical role in the late endosomal cholesterol balance and affects IAV replication and propagation in AnxA6-overexpressing cells. However, the molecular mechanism responsible for restriction of IAV morphogenesis by AnxA6 is still unclear. AnxA6 is a calcium-dependent phospholipid-binding protein which plays a major role in cellular events such as regulation of cholesterol homeostasis and membrane organisation or repair. AnxA6 is also implicated in the regulation of intracellular signalling pathways required for IAV infection. In this study, we used a combination of virology, cellular biology and biochemistry approaches to decipher the restriction mechanism of IAV by human AnxA6. We found that AnxA6 down-regulates M2 viral protein expression and impairs viral morphogenesis and budding. We also found that AnxA6 regulates chemokines and cytokines expression during viral infection, suggesting that AnxA6 triggers an innate immune response to IAV by modulating signalling pathways required for viral replication. Finally, we observed that IAV down-regulates AnxA6 expression at mRNA level during early stages of infection and at protein level during late infection, suggesting that IAV has developed a strategy to respond to AnxA6 restriction mechanism during viral infection. We conclude that it is essential to better understand the interaction between human AnxA6 and IAV to elucidate the potential of AnxA6 as an antiviral candidate.

616.9

L’influence de HBx sur la réplication du virus de l’Hépatite B et les conséquences sur la cellule / The influence of HBx on Hepatitis B virus replication and its cellular conséquences

Gerossier, Laetitia

03 October 2017

L’infection par le virus de l’hépatite B (HBV) est problème majeur de santé publique mondial car, en dépit d’un vaccin efficace, les traitements curatifs actuels ne permettent pas l’élimination complète du virus. Comprendre les mécanismes de réplication du virus et son rôle dans la survenue du cancer hépatocellulaire (CHC) reste un enjeu majeur.Le rôle de la protéine HBx dans l’infection par HBV et l’oncogenèse viro-induite, reste mal connu, malgré un grand nombre de publications, car les fonctions décrites jusqu'alors sont limitées à des contextes d’études particuliers, souvent loin des conditions physiologiques.Mes travaux de thèse reposent sur l’utilisation de modèles d’études proches de la physiologie naturelle d’une infection par HBV, notamment des cellules primaires infectables in vitro. J’ai pu démontrer lors de mon étude que HBx est indispensable à la réplication de HBV, et qu’il agit essentiellement via son interaction avec DDB1 pour contrer la restriction du virus due au complexe SMC5/6, en induisant sa dégradation. Ce facteur de restriction permet de bloquer la transcription de l’ADN viral au niveau épigénétique. Ce nouveau rôle inattendu de SMC5/6 ouvre de nombreux axes de recherche, notamment sur les mécanismes de restriction des virus à ADN épisomal. SMC5/6 est connu pour son implication dans les voies de réparation de l’ADN : la dernière partie de ce manuscrit montre que sa dégradation dans les cellules infectées, altère ces mécanismes et sensibilise les cellules aux dommages à l’ADN, induits notamment par la radiothérapie. La présence de HBx dans les CHC pourrait ainsi s’avérer un atout pour le traitement du CHC / Hepatitis B virus (HBV) infection is a major health problem worldwide as (1) despite an effective preventive vaccine over 240 million individuals are chronically infected and (2) the actual viral suppressive treatments available do not eliminate viral DNA from cells. Thus, infected individuals are at a high risk of developing hepatocellular carcinoma (HCC) and understanding viral replication mechanisms and how it impacts on hepatocarcinogenesis is a major challenge.The role of the HBx protein, notably in viral replication and oncogenic processes, is the subject of many publications. However, many studies have often used non-physiological infection conditions. My thesis project has addressed these limitations by using cellular models, including primary human hepatocytes which can be infected by HBV, to investigate HBx’s role in these processes. I have shown that HBx is indispensable for HBV replication and that HBx associates with the infected cell’s DDB1/ E3 ubiquitin complex to target its Smc5/6 complex for degradation via the proteasome. These studies have identified that the Smc5/6 complex is a novel viral restriction factor that acts at an epigenetic level to block viral replication. This unexpected role of SMC5/6 has led to new research into the evolutionary conservation of restriction factors for episomal DNA viruses. As SMC5/6 is implicated in DNA Damage Repair (DDR), the last section of my thesis reports how SMC5/6 degradation in infected cells can sensitise cells to the cell killing effects of DNA damaging agents such as ionizing radiation and hydroxyurea. These results open-up possibilities for HCC treatment where HBx expression may be of therapeutic benefit

Hépatite B

HBx

SMC5/6

Facteurs de restriction

Réplication

Carcinome Hépatocellulaire

Hepatitis B

HBx

SMC5/6

Host restriction factor

Viral replication

Hepatocellular carcinoma

579.2