Chronic HBV + HDV infection is associated with greater risk of liver fibrosis, earlier hepatic decompensation, and liver cirrhosis hepatocellular carcinoma compared to HBV mono-infection. However, to-date no direct anti-HDV drugs are available in clinical practice. Here, we identified conserved and variable regions in HBsAg and HDAg domains in HBV + HDV infection, a critical finding for the design of innovative therapeutic agents. The extent of amino-acid variability was measured by Shannon-Entropy (Sn) in HBsAg genotype-D sequences from 31 HBV + HDV infected and 62 HBV mono-infected patients (comparable for demographics and virological-parameters), and in 47 HDAg genotype-1 sequences. Positions with Sn = 0 were defined as conserved. The percentage of conserved HBsAg-positions was significantly higher in HBV + HDV infection than HBV mono-infection (p = 0.001). Results were confirmed after stratification for HBeAg-status and patients’ age. A Sn = 0 at specific positions in the C-terminus HBsAg were correlated with higher HDV-RNA, suggesting that conservation of these positions can preserve HDV-fitness. Conversely, HDAg was characterized by a lower percentage of conserved-residues than HBsAg (p < 0.001), indicating higher functional plasticity. Furthermore, specific HDAg-mutations were significantly correlated with higher HDV-RNA, suggesting a role in conferring HDV replicative-advantage. Among HDAg-domains, only the virus-assembly signal exhibited a high genetic conservation (75% of conserved-residues). In conclusion, HDV can constrain HBsAg genetic evolution to preserve its fitness. The identification of conserved regions in HDAg poses the basis for designing innovative targets against HDV-infection.
HDV can constrain HBV genetic evolution in hbsag: Implications for the identification of innovative pharmacological targets / Colagrossi, Luna; Salpini, Romina; Scutari, Rossana; Carioti, Luca; Battisti, Arianna; Piermatteo, Lorenzo; Bertoli, Ada; Fabeni, Lavinia; Minichini, Carmine; Trimoulet, Pascale; Fleury, Hervé; Nebuloso, Elena; De Cristofaro, Maria; Cappiello, Giuseppina; Spanò, Alberto; Malagnino, Vincenzo; Mari, Terenzio; Barlattani, Angelo; Iapadre, Nerio; Lichtner, Miriam; Mastroianni, Claudio; Lenci, Ilaria; Pasquazzi, Caterina; DE SANCTIS, Giuseppe Maria; Lanza, Alfonso Galeota; Stanzione, Maria; Stornaiuolo, Gianfranca; Marignani, Massimo; Sarmati, Loredana; Andreoni, Massimo; Angelico, Mario; Ceccherini-Silberstein, Francesca; Perno, Carlo-Federico; Coppola, Nicola; Svicher, Valentina. - In: VIRUSES. - ISSN 1999-4915. - STAMPA. - 10:7(2018). [10.3390/v10070363]
HDV can constrain HBV genetic evolution in hbsag: Implications for the identification of innovative pharmacological targets
MALAGNINO, VINCENZOInvestigation
;Lichtner, MiriamInvestigation
;Mastroianni, ClaudioSupervision
;Pasquazzi, CaterinaSupervision
;DE SANCTIS, Giuseppe MariaSupervision
;
2018
Abstract
Chronic HBV + HDV infection is associated with greater risk of liver fibrosis, earlier hepatic decompensation, and liver cirrhosis hepatocellular carcinoma compared to HBV mono-infection. However, to-date no direct anti-HDV drugs are available in clinical practice. Here, we identified conserved and variable regions in HBsAg and HDAg domains in HBV + HDV infection, a critical finding for the design of innovative therapeutic agents. The extent of amino-acid variability was measured by Shannon-Entropy (Sn) in HBsAg genotype-D sequences from 31 HBV + HDV infected and 62 HBV mono-infected patients (comparable for demographics and virological-parameters), and in 47 HDAg genotype-1 sequences. Positions with Sn = 0 were defined as conserved. The percentage of conserved HBsAg-positions was significantly higher in HBV + HDV infection than HBV mono-infection (p = 0.001). Results were confirmed after stratification for HBeAg-status and patients’ age. A Sn = 0 at specific positions in the C-terminus HBsAg were correlated with higher HDV-RNA, suggesting that conservation of these positions can preserve HDV-fitness. Conversely, HDAg was characterized by a lower percentage of conserved-residues than HBsAg (p < 0.001), indicating higher functional plasticity. Furthermore, specific HDAg-mutations were significantly correlated with higher HDV-RNA, suggesting a role in conferring HDV replicative-advantage. Among HDAg-domains, only the virus-assembly signal exhibited a high genetic conservation (75% of conserved-residues). In conclusion, HDV can constrain HBsAg genetic evolution to preserve its fitness. The identification of conserved regions in HDAg poses the basis for designing innovative targets against HDV-infection.| File | Dimensione | Formato | |
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