The Genetic Stability, Replication Kinetics and Cytopathogenicity of Recombinant Avian Coronaviruses with a T16A or an A26F Mutation within the E Protein Is Cell-Type Dependent.

Isobel Webb; Sarah Keep; Kieran Littolff; Jamie Stuart; Graham Freimanis; Paul  Britton; Andrew D Davidson; Helena J. Maier; Erica Bickerton

doi:10.3390/v14081784

The Genetic Stability, Replication Kinetics and Cytopathogenicity of Recombinant Avian Coronaviruses with a T16A or an A26F Mutation within the E Protein Is Cell-Type Dependent.

Isobel Webb, Sarah Keep , Kieran Littolff, Jamie Stuart, Graham Freimanis , Paul Britton, Andrew D Davidson, Helena J. Maier, Erica Bickerton^*

^*Corresponding author for this work

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Abstract

The envelope (E) protein of the avian coronavirus infectious bronchitis virus (IBV) is a small-membrane protein present in two forms during infection: a monomer and a pentameric ion channel. Each form has an independent role during replication; the monomer disrupts the secretory pathway, and the pentamer facilitates virion production. The presence of a T16A or A26F mutation within E exclusively generates the pentameric or monomeric form, respectively. We generated two recombinant IBVs (rIBVs) based on the apathogenic molecular clone Beau-R, containing either a T16A or A26F mutation, denoted as BeauR-T16A and BeauR-A26F. The replication and genetic stability of the rIBVs were assessed in several different cell types, including primary and continuous cells, ex vivo tracheal organ cultures (TOCs) and in ovo. Different replication profiles were observed between cell cultures of different origins. BeauR-A26F replicated to a lower level than Beau-R in Vero cells and in ovo but not in DF1, primary chicken kidney (CK) cells or TOCs. Genetic stability and cytopathic effects were found to differ depending on the cell system. The effect of the T16A and A26F mutations appear to be cell-type dependent, which, therefore, highlights the importance of cell type in the investigation of the IBV E protein.

Original language	English
Article number	1784
Journal	Viruses
Volume	14
Issue number	8
DOIs	https://doi.org/10.3390/v14081784
Publication status	Published - 15 Aug 2022

Bibliographical note

Funding Information:
This research was funded by The British Egg Marketing Board Trust PhD scholarship to Isobel Webb and the Pirbright Institute. This work was additionally supported by the Institute Strategic Programme Grant funding from BBSRC to The Pirbright Institute with grant numbers BBS/E/I/00007030, BBS/E/I/00007031, BBS/E/I/00007034, BBS/E/I/00007035, BBS/E/I/00007037, BBS/E/I/00007038 and BBS/E/I/00007039.

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Webb, I., Keep , S., Littolff, K., Stuart, J., Freimanis , G., Britton, P., Davidson, A. D., Maier, H. J., & Bickerton, E. (2022). The Genetic Stability, Replication Kinetics and Cytopathogenicity of Recombinant Avian Coronaviruses with a T16A or an A26F Mutation within the E Protein Is Cell-Type Dependent. Viruses, 14(8), Article 1784. https://doi.org/10.3390/v14081784

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title = "The Genetic Stability, Replication Kinetics and Cytopathogenicity of Recombinant Avian Coronaviruses with a T16A or an A26F Mutation within the E Protein Is Cell-Type Dependent.",

abstract = "The envelope (E) protein of the avian coronavirus infectious bronchitis virus (IBV) is a small-membrane protein present in two forms during infection: a monomer and a pentameric ion channel. Each form has an independent role during replication; the monomer disrupts the secretory pathway, and the pentamer facilitates virion production. The presence of a T16A or A26F mutation within E exclusively generates the pentameric or monomeric form, respectively. We generated two recombinant IBVs (rIBVs) based on the apathogenic molecular clone Beau-R, containing either a T16A or A26F mutation, denoted as BeauR-T16A and BeauR-A26F. The replication and genetic stability of the rIBVs were assessed in several different cell types, including primary and continuous cells, ex vivo tracheal organ cultures (TOCs) and in ovo. Different replication profiles were observed between cell cultures of different origins. BeauR-A26F replicated to a lower level than Beau-R in Vero cells and in ovo but not in DF1, primary chicken kidney (CK) cells or TOCs. Genetic stability and cytopathic effects were found to differ depending on the cell system. The effect of the T16A and A26F mutations appear to be cell-type dependent, which, therefore, highlights the importance of cell type in the investigation of the IBV E protein.",

author = "Isobel Webb and Sarah Keep and Kieran Littolff and Jamie Stuart and Graham Freimanis and Paul Britton and Davidson, {Andrew D} and Maier, {Helena J.} and Erica Bickerton",

note = "Funding Information: This research was funded by The British Egg Marketing Board Trust PhD scholarship to Isobel Webb and the Pirbright Institute. This work was additionally supported by the Institute Strategic Programme Grant funding from BBSRC to The Pirbright Institute with grant numbers BBS/E/I/00007030, BBS/E/I/00007031, BBS/E/I/00007034, BBS/E/I/00007035, BBS/E/I/00007037, BBS/E/I/00007038 and BBS/E/I/00007039. Publisher Copyright: {\textcopyright} 2022 by the authors.",

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T1 - The Genetic Stability, Replication Kinetics and Cytopathogenicity of Recombinant Avian Coronaviruses with a T16A or an A26F Mutation within the E Protein Is Cell-Type Dependent.

AU - Webb, Isobel

AU - Keep , Sarah

AU - Littolff, Kieran

AU - Stuart, Jamie

AU - Freimanis , Graham

AU - Britton, Paul

AU - Davidson, Andrew D

AU - Maier, Helena J.

AU - Bickerton, Erica

N1 - Funding Information: This research was funded by The British Egg Marketing Board Trust PhD scholarship to Isobel Webb and the Pirbright Institute. This work was additionally supported by the Institute Strategic Programme Grant funding from BBSRC to The Pirbright Institute with grant numbers BBS/E/I/00007030, BBS/E/I/00007031, BBS/E/I/00007034, BBS/E/I/00007035, BBS/E/I/00007037, BBS/E/I/00007038 and BBS/E/I/00007039. Publisher Copyright: © 2022 by the authors.

PY - 2022/8/15

Y1 - 2022/8/15

N2 - The envelope (E) protein of the avian coronavirus infectious bronchitis virus (IBV) is a small-membrane protein present in two forms during infection: a monomer and a pentameric ion channel. Each form has an independent role during replication; the monomer disrupts the secretory pathway, and the pentamer facilitates virion production. The presence of a T16A or A26F mutation within E exclusively generates the pentameric or monomeric form, respectively. We generated two recombinant IBVs (rIBVs) based on the apathogenic molecular clone Beau-R, containing either a T16A or A26F mutation, denoted as BeauR-T16A and BeauR-A26F. The replication and genetic stability of the rIBVs were assessed in several different cell types, including primary and continuous cells, ex vivo tracheal organ cultures (TOCs) and in ovo. Different replication profiles were observed between cell cultures of different origins. BeauR-A26F replicated to a lower level than Beau-R in Vero cells and in ovo but not in DF1, primary chicken kidney (CK) cells or TOCs. Genetic stability and cytopathic effects were found to differ depending on the cell system. The effect of the T16A and A26F mutations appear to be cell-type dependent, which, therefore, highlights the importance of cell type in the investigation of the IBV E protein.

AB - The envelope (E) protein of the avian coronavirus infectious bronchitis virus (IBV) is a small-membrane protein present in two forms during infection: a monomer and a pentameric ion channel. Each form has an independent role during replication; the monomer disrupts the secretory pathway, and the pentamer facilitates virion production. The presence of a T16A or A26F mutation within E exclusively generates the pentameric or monomeric form, respectively. We generated two recombinant IBVs (rIBVs) based on the apathogenic molecular clone Beau-R, containing either a T16A or A26F mutation, denoted as BeauR-T16A and BeauR-A26F. The replication and genetic stability of the rIBVs were assessed in several different cell types, including primary and continuous cells, ex vivo tracheal organ cultures (TOCs) and in ovo. Different replication profiles were observed between cell cultures of different origins. BeauR-A26F replicated to a lower level than Beau-R in Vero cells and in ovo but not in DF1, primary chicken kidney (CK) cells or TOCs. Genetic stability and cytopathic effects were found to differ depending on the cell system. The effect of the T16A and A26F mutations appear to be cell-type dependent, which, therefore, highlights the importance of cell type in the investigation of the IBV E protein.

UR - https://europepmc.org/articles/PMC9415719

U2 - 10.3390/v14081784

DO - 10.3390/v14081784

M3 - Article (Academic Journal)

C2 - 36016406

SN - 1999-4915

VL - 14

JO - Viruses

JF - Viruses

IS - 8

M1 - 1784

ER -

The Genetic Stability, Replication Kinetics and Cytopathogenicity of Recombinant Avian Coronaviruses with a T16A or an A26F Mutation within the E Protein Is Cell-Type Dependent.

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