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Abstract

It has been shown that blood clotting factors, including factor X (FX), bind to the adenovirus serotype 5 (Ad5) hexon protein and target the virus to liver hepatocytes after intravenous injection. These factors bind to hexon via their conserved vitamin K-dependent γ-carboxyglutamic acid (GLA) domains with subnanomolar affinity. In this work, we have used this strong interaction to retarget Ad to new receptors, using the GLA domain of FX fused to single-chain antibody variable fragment (ScFv). We demonstrate that fusion of the GLA domain of human FX to receptor-specific ScFvs will target Ad5 vectors to cells expressing these receptors. Fusion of an αHer2 ScFv to GLA increased in vitro transduction of Her2-positive versus Her2-negative cells when compared with untargeted virus. Similar results were obtained with ScFvs against the epidermal growth factor receptor (EGFR) and against the stem cell marker ATP-binding cassette protein G2 (ABCG2). Direct expression of GLA fusion protein from replication-defective or replication-competent Ad increased infection and killing of cancer cells in vitro and in vivo. These data demonstrate the potential of using GLA domains to bridge secreted ligands with intracellularly produced Ad5 vectors for vector targeting.

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References

Alba

, Bradshaw

A.C.

, Parker

A.L.

, Bhella

, Waddington

S.N.

, Nicklin

S.A.

, Van Rooijen

, Custers

, Goudsmit

, Barouch

D.H.

, McVey

J.H.

, Baker

A.H.

2009. Identification of coagulation factor (F)X binding sites on the adenovirus serotype 5 hexon: Effect of mutagenesis on FX interactions and gene transfer. Blood, 114:965–971.

Barbas

C.F.

III , Burton

D.R.

, Scott

J.K.

, Silverman

G.J.

2001. Phage Display: A Laboratory Manual. Cold Spring Harbor Laboratory Press: Cold Spring Harbor, NY, 953–964.

Bosher

J.M.

, Williams

, Hurst

H.C.

1995. The developmentally regulated transcription factor AP-2 is involved in c-erbB-2 overexpression in human mammary carcinoma. Proc. Natl. Acad. Sci. U.S.A., 92:744–747.

Campos

S.K.

, Barry

M.A.

2006. Comparison of adenovirus fiber, protein IX, and hexon capsomeres as scaffolds for vector purification and cell targeting. Virology, 349:453–462.

Campos

S.K.

, Parrott

M.B.

, Barry

M.A.

2004. Avidin-based targeting and purification of a protein IX-modified, metabolically biotinylated adenoviral vector. Mol. Ther., 9:943–955.

Glasgow

J.N.

, Mikheeva

, Krasnykh

, Curiel

D.T.

2009. A strategy for adenovirus vector targeting with a secreted single chain antibody. PLoS One, 4:e8355.

Habib

N.A.

, Mitry

, Seth

, Kuppuswamy

, Doronin

, Toth

, Krajcsi

, Tollefson

A.E.

, Wold

W.S.

2002. Adenovirus replication-competent vectors (KD1, KD3) complement the cytotoxicity and transgene expression from replication-defective vectors (Ad-GFP, Ad-Luc) Cancer Gene Ther., 9:651–654.

Hasegawa

, Hu

, Nakamura

, Marks

J.D.

, Russell

S.J.

, Peng

K.W.

2007. Affinity thresholds for membrane fusion triggering by viral glycoproteins. J. Virol., 81:13149–13157.

Hedley

S.J.

, Auf Der Maur

, Hohn

, Escher

, Barberis

, Glasgow

J.N.

, Douglas

J.T.

, Korokhov

, Curiel

D.T.

2006. An adenovirus vector with a chimeric fiber incorporating stabilized single chain antibody achieves targeted gene delivery. Gene Ther., 13:88–94.

10.

Hellstrom

, Goodman

, Pullman

, Yang

, Hellstrom

K.E.

2001. Overexpression of HER-2 in ovarian carcinomas. Cancer Res., 61:2420–2423.

11.

Hirschmann-Jax

, Foster

A.E.

, Wulf

G.G.

, Nuchtern

J.G.

, Jax

T.W.

, Gobel

, Goodell

M.A.

, Brenner

M.K.

2004. A distinct “side population” of cells with high drug efflux capacity in human tumor cells. Proc. Natl. Acad. Sci. U.S.A., 101:14228–14233.

12.

Kalyuzhniy

, Di Paolo

N.C.

, Silvestry

, Hofherr

S.E.

, Barry

M.A.

, Stewart

P.L.

, Shayakhmetov

D.M.

2008. Adenovirus serotype 5 hexon is critical for virus infection of hepatocytes in vivo. Proc. Natl. Acad. Sci. U.S.A., 105:5483–5488.

13.

H.J.

, Everts

, Pereboeva

, Komarova

, Idan

, Curiel

D.T.

, Herschman

H.R.

2007. Adenovirus tumor targeting and hepatic untargeting by a coxsackie/adenovirus receptor ectodomain anti-carcinoembryonic antigen bispecific adapter. Cancer Res., 67:5354–5361.

14.

Nakamura

, Peng

K.W.

, Harvey

, Greiner

, Lorimer

I.A.

, James

C.D.

, Russell

S.J.

2005. Rescue and propagation of fully retargeted oncolytic measles viruses. Nat. Biotechnol., 23:209–214.

15.

Noureddini

S.C.

, Krendelshchikov

, Simonenko

, Hedley

S.J.

, Douglas

J.T.

, Curiel

D.T.

, Korokhov

2006. Generation and selection of targeted adenoviruses embodying optimized vector properties. Virus Res., 116:185–195.

16.

Parker

A.L.

, Waddington

S.N.

, Nicol

C.G.

, Shayakhmetov

D.M.

, Buckley

S.M.

, Denby

, Kemball-Cook

, Ni

, Lieber

, McVey

J.H.

, Nicklin

S.A.

, Baker

A.H.

2006. Multiple vitamin K-dependent coagulation zymogens promote adenovirus-mediated gene delivery to hepatocytes. Blood, 108:2554–2561.

17.

Parrott

M.B.

, Adams

K.E.

, Mercier

G.T.

, Mok

, Campos

S.K.

, Barry

M.A.

2003. Metabolically biotinylated adenovirus for cell-targeting, ligand screening, and vector purification. Mol. Ther., 8:689–702.

18.

Pereboev

A.V.

, Asiedu

C.K.

, Kawakami

, Dong

S.S.

, Blackwell

J.L.

, Kashentseva

E.A.

, Triozzi

P.L.

, Aldrich

W.A.

, Curiel

D.T.

, Thomas

J.M.

, Dmitriev

I.P.

2002. Coxsackievirus–adenovirus receptor genetically fused to anti-human CD40 scFv enhances adenoviral transduction of dendritic cells. Gene Ther., 9:1189–1193.

19.

Rebetz

, Na

, Su

, Holmqvist

, Edqvist

, Nyberg

, Widegren

, Salford

L.G.

, Sjogren

H.O.

, Arnberg

, Qian

, Fan

2009. Fiber mediated receptor masking in non-infected bystander cells restricts adenovirus cell killing effect but promotes adenovirus host co-existence. PLoS One, 4:e8484.

20.

Schier

, Bye

, Apell

, McCall

, Adams

G.P.

, Malmqvist

, Weiner

L.M.

, Marks

J.D.

1996. Isolation of high-affinity monomeric human anti-c-erbB-2 single chain Fv using affinity-driven selection. J. Mol. Biol., 255:28–43.

21.

Shashkova

E.V.

, Doronin

, Senac

J.S.

, Barry

M.A.

2008. Macrophage depletion combined with anticoagulant therapy increases therapeutic window of systemic treatment with oncolytic adenovirus. Cancer Res., 68:5896–5904.

22.

Shashkova

E.V.

, May

S.M.

, Doronin

, Barry

M.A.

2009. Expanded anticancer therapeutic window of hexon-modified oncolytic adenovirus. Mol. Ther., 17:2121–2130.

23.

Tang

, Lou

, Alpaugh

R.K.

, Robinson

M.K.

, Marks

J.D.

, Weiner

L.M.

2007. Regulation of antibody-dependent cellular cytotoxicity by IgG intrinsic and apparent affinity for target antigen. J. Immunol., 179:2815–2823.

24.

Vigant

, Descamps

, Jullienne

, Esselin

, Connault

, Opolon

, Tordjmann

, Vigne

, Perricaudet

, Benihoud

2008. Substitution of hexon hypervariable region 5 of adenovirus serotype 5 abrogates blood factor binding and limits gene transfer to liver. Mol. Ther., 16:1474–1480.

25.

Waddington

S.N.

, McVey

J.H.

, Bhella

, Parker

A.L.

, Barker

, Atoda

, Pink

, Buckley

S.M.

, Greig

J.A.

, Denby

, Custers

, Morita

, Francischetti

I.M.

, Monteiro

R.Q.

, Barouch

D.H.

, van Rooijen

, Napoli

, Havenga

M.J.

, Nicklin

S.A.

, Baker

A.H.

2008. Adenovirus serotype 5 hexon mediates liver gene transfer. Cell, 132:397–409.

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Targeting Adenoviruses with Factor X–Single-Chain Antibody Fusion Proteins

Abstract

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Supplementary Material