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Redirecting adenoviruses to tumour cells using therapeutic antibodies: Generation of a versatile human bispecific adaptor

Redirecting adenoviruses to tumour cells using therapeutic antibodies: Generation of a versatile human bispecific adaptor
Redirecting adenoviruses to tumour cells using therapeutic antibodies: Generation of a versatile human bispecific adaptor

Effective use of adenovirus-5 (Ad5) in cancer therapy is heavily dependent on the degree to which the virus's natural tropism can be subverted to one that favours tumour cells. This is normally achieved through either engineering of the viral fiber knob or the use of bispecific adaptors that display both adenovirus and tumour antigen receptors. One of the main limitations of these strategies is the need to tailor each engineering event to any given tumour antigen. Here, we explore bispecific adaptors that can utilise established anti-cancer therapeutic antibodies. Conjugates containing bacterially derived antibody binding motifs are efficient at retargeting virus to antibody targets. Here, we develop a humanized strategy whereby we synthesise a re-targeting adaptor based on a chimeric Ad5 ligand/antibody receptor construct. This adaptor acts as a molecular bridge analogous to therapeutic antibody mediated cross-linking of cytotoxic effector and tumour cells during immunotherapy. As a proof or principle, we demonstrate how this adaptor allows efficient viral recognition and entry into carcinoma cells through the therapeutic monoclonal antibodies Herceptin/trastuzumab and bavituximab. We show that targeting can be augmented by use of contemporary antibody enhancement strategies such as the selective elimination of competing serum IgG using "receptor refocusing" enzymes and we envisage that further improvements are achievable by enhancing the affinities between the adaptor and its ligands. Humanized bispecific adaptors offer the promise of a versatile retargeting technology that can exploit both clinically approved adenovirus and therapeutic antibodies.

Adenovirus, Antibody, Cancer, Endoglycosidase S, Fc Receptor, Glycosylation
0161-5890
234-243
Vasiljevic, Snezana
17e075b4-520d-4b9b-a4a7-08ac394ae5e1
Beale, Emma V.
5ee0388e-b8e0-4570-bba2-8489868d1bf8
Bonomelli, Camille
51edb32c-85d0-45be-b050-b075cc3f6c28
Easthope, Iona S.
c0b7beba-42bd-4ea1-8cfc-f117d4a54a27
Pritchard, Laura K.
bfa1d1b4-50b6-401f-b153-8c3322b2e726
Seabright, Gemma E.
09e75998-09b0-465f-a059-c89b07f3b2c3
Caputo, Alessandro T.
72c2b1da-8f36-4443-81ee-ce54396031a0
Scanlan, Christopher N.
04dd1b57-b6fc-414c-8595-08310dbb3d32
Dalziel, Martin
966f5e8f-ac1b-4677-89ab-15f2a7dfcfbc
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Vasiljevic, Snezana
17e075b4-520d-4b9b-a4a7-08ac394ae5e1
Beale, Emma V.
5ee0388e-b8e0-4570-bba2-8489868d1bf8
Bonomelli, Camille
51edb32c-85d0-45be-b050-b075cc3f6c28
Easthope, Iona S.
c0b7beba-42bd-4ea1-8cfc-f117d4a54a27
Pritchard, Laura K.
bfa1d1b4-50b6-401f-b153-8c3322b2e726
Seabright, Gemma E.
09e75998-09b0-465f-a059-c89b07f3b2c3
Caputo, Alessandro T.
72c2b1da-8f36-4443-81ee-ce54396031a0
Scanlan, Christopher N.
04dd1b57-b6fc-414c-8595-08310dbb3d32
Dalziel, Martin
966f5e8f-ac1b-4677-89ab-15f2a7dfcfbc
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9

Vasiljevic, Snezana, Beale, Emma V., Bonomelli, Camille, Easthope, Iona S., Pritchard, Laura K., Seabright, Gemma E., Caputo, Alessandro T., Scanlan, Christopher N., Dalziel, Martin and Crispin, Max (2015) Redirecting adenoviruses to tumour cells using therapeutic antibodies: Generation of a versatile human bispecific adaptor. Molecular Immunology, 68 (2, Part A), 234-243. (doi:10.1016/j.molimm.2015.08.014).

Record type: Article

Abstract

Effective use of adenovirus-5 (Ad5) in cancer therapy is heavily dependent on the degree to which the virus's natural tropism can be subverted to one that favours tumour cells. This is normally achieved through either engineering of the viral fiber knob or the use of bispecific adaptors that display both adenovirus and tumour antigen receptors. One of the main limitations of these strategies is the need to tailor each engineering event to any given tumour antigen. Here, we explore bispecific adaptors that can utilise established anti-cancer therapeutic antibodies. Conjugates containing bacterially derived antibody binding motifs are efficient at retargeting virus to antibody targets. Here, we develop a humanized strategy whereby we synthesise a re-targeting adaptor based on a chimeric Ad5 ligand/antibody receptor construct. This adaptor acts as a molecular bridge analogous to therapeutic antibody mediated cross-linking of cytotoxic effector and tumour cells during immunotherapy. As a proof or principle, we demonstrate how this adaptor allows efficient viral recognition and entry into carcinoma cells through the therapeutic monoclonal antibodies Herceptin/trastuzumab and bavituximab. We show that targeting can be augmented by use of contemporary antibody enhancement strategies such as the selective elimination of competing serum IgG using "receptor refocusing" enzymes and we envisage that further improvements are achievable by enhancing the affinities between the adaptor and its ligands. Humanized bispecific adaptors offer the promise of a versatile retargeting technology that can exploit both clinically approved adenovirus and therapeutic antibodies.

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More information

Accepted/In Press date: 27 August 2015
e-pub ahead of print date: 29 September 2015
Published date: December 2015
Keywords: Adenovirus, Antibody, Cancer, Endoglycosidase S, Fc Receptor, Glycosylation

Identifiers

Local EPrints ID: 414322
URI: http://eprints.soton.ac.uk/id/eprint/414322
ISSN: 0161-5890
PURE UUID: b21ddc57-058d-44bb-a167-d70e32091777
ORCID for Max Crispin: ORCID iD orcid.org/0000-0002-1072-2694

Catalogue record

Date deposited: 26 Sep 2017 16:30
Last modified: 06 Jun 2024 01:59

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Contributors

Author: Snezana Vasiljevic
Author: Emma V. Beale
Author: Camille Bonomelli
Author: Iona S. Easthope
Author: Laura K. Pritchard
Author: Gemma E. Seabright
Author: Alessandro T. Caputo
Author: Christopher N. Scanlan
Author: Martin Dalziel
Author: Max Crispin ORCID iD

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