Trypsin promotes efficient influenza vaccine production in MDCK cells by interfering with the antiviral host response

Trypsin is commonly used in Madin–Darby canine kidney (MDCK) cell culture-based influenza vaccine production to facilitate virus infection by proteolytic activation of viral haemagglutinin, which enables multi-cycle replication. In this study, we were able to demonstrate that trypsin also interferes...

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Veröffentlicht in:	Applied microbiology and biotechnology 2012, Vol.93 (2), p.601-611
Hauptverfasser:	Seitz, Claudius, Isken, Britta, Heynisch, Björn, Rettkowski, Maria, Frensing, Timo, Reichl, Udo
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Sprache:	eng
Schlagworte:	Animals Antiviral Agents - metabolism Antiviral drugs Apoptosis Biomedical and Life Sciences Biotechnological Products and Process Engineering Biotechnology Biotechnology - methods Cell culture Cell Culture Techniques Cell Line Defense Dogs Infections Influenza Influenza Vaccines - isolation & purification Influenza virus Interferon Interferons - metabolism Life Sciences Microbial Genetics and Genomics Microbiology Orthomyxoviridae - growth & development Orthomyxoviridae - isolation & purification Plasmids Process engineering Propagation Proteins Rabies Rabies virus Studies Technology, Pharmaceutical - methods Trypsin - metabolism Vaccines Viruses
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creator	Seitz, Claudius Isken, Britta Heynisch, Björn Rettkowski, Maria Frensing, Timo Reichl, Udo
description	Trypsin is commonly used in Madin–Darby canine kidney (MDCK) cell culture-based influenza vaccine production to facilitate virus infection by proteolytic activation of viral haemagglutinin, which enables multi-cycle replication. In this study, we were able to demonstrate that trypsin also interferes with pathogen defence mechanisms of host cells. In particular, a trypsin concentration of 5 BAEE U/mL (4.5 μg/mL porcine trypsin) used in vaccine manufacturing strongly inhibited interferon (IFN) signalling by proteolytic degradation of secreted IFN. Consequently, absence of trypsin during infection resulted in a considerably stronger induction of IFN signalling and apoptosis, which significantly reduced virus yields. Under this condition, multi-cycle virus replication in MDCK cells was not prevented but clearly delayed. Therefore, incomplete infection can be ruled out as the reason for the lower virus titres. However, suppression of IFN signalling by overexpression of viral IFN antagonists (influenza virus PR8-NS1, rabies virus phosphoprotein) partially rescued virus titres in the absence of trypsin. In addition, virus yields could be almost restored by using the influenza strain A/WSN/33 in combination with fetal calf serum (FCS). For this strain, FCS enabled trypsin-independent fast propagation of virus infection, probably outrunning cellular defence mechanisms and apoptosis induction in the absence of trypsin. Overall, addition of trypsin provided optimal conditions for high yield vaccine production in MDCK cells by two means. On the one hand, proteolytic degradation of IFN keeps cellular defence at a low level. On the other hand, enhanced virus spreading enables viruses to replicate before the cellular response becomes fully activated.
doi_str_mv	10.1007/s00253-011-3569-8
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In addition, virus yields could be almost restored by using the influenza strain A/WSN/33 in combination with fetal calf serum (FCS). For this strain, FCS enabled trypsin-independent fast propagation of virus infection, probably outrunning cellular defence mechanisms and apoptosis induction in the absence of trypsin. Overall, addition of trypsin provided optimal conditions for high yield vaccine production in MDCK cells by two means. On the one hand, proteolytic degradation of IFN keeps cellular defence at a low level. 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In addition, virus yields could be almost restored by using the influenza strain A/WSN/33 in combination with fetal calf serum (FCS). For this strain, FCS enabled trypsin-independent fast propagation of virus infection, probably outrunning cellular defence mechanisms and apoptosis induction in the absence of trypsin. Overall, addition of trypsin provided optimal conditions for high yield vaccine production in MDCK cells by two means. On the one hand, proteolytic degradation of IFN keeps cellular defence at a low level. 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subjects	Animals Antiviral Agents - metabolism Antiviral drugs Apoptosis Biomedical and Life Sciences Biotechnological Products and Process Engineering Biotechnology Biotechnology - methods Cell culture Cell Culture Techniques Cell Line Defense Dogs Infections Influenza Influenza Vaccines - isolation & purification Influenza virus Interferon Interferons - metabolism Life Sciences Microbial Genetics and Genomics Microbiology Orthomyxoviridae - growth & development Orthomyxoviridae - isolation & purification Plasmids Process engineering Propagation Proteins Rabies Rabies virus Studies Technology, Pharmaceutical - methods Trypsin - metabolism Vaccines Viruses
title	Trypsin promotes efficient influenza vaccine production in MDCK cells by interfering with the antiviral host response
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