A bispecific immunotoxin (DTAT13) targeting human IL-13 receptor (IL-13R) and urokinase-type plasminogen activator receptor (uPAR) in a mouse xenograft model

doi:10.1093/protein/gzh023

PEDS Advance Access originally published online on February 13, 2004
Protein Engineering Design and Selection 2004 17(2):157-164; doi:10.1093/protein/gzh023

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A bispecific immunotoxin (DTAT13) targeting human IL-13 receptor (IL-13R) and urokinase-type plasminogen activator receptor (uPAR) in a mouse xenograft model

Deborah A. Todhunter¹, Walter A. Hall¹, Edward Rustamzadeh¹, Yanqun Shu², Sekou O. Doumbia² and Daniel A. Vallera²^,3

¹Department of Neurosurgery and ²Department of Therapeutic Radiology–Radiation Oncology, Section on Experimental Cancer Immunology, University of Minnesota Cancer Center, Mayo Mail Code 367, Harvard St at East River Road, Minneapolis, MN 55455, USA

³ To whom correspondence should be addressed. e-mail: valle001{at}tc.umn.edu

A bispecific immunotoxin (IT) called DTAT13 was synthesizedin order to target simultaneously the urokinase-type plasminogenactivator receptor (uPAR)-expressing tumor neovasculature andIL-13 receptor expressing glioblastoma cells with the goal ofintratumoral administration for brain tumors. The recombinanthybrid was created using the non-internalizing N-terminal fragment(ATF) of uPA and the IL-13 molecule for binding plus the catalyticand translocation portion of diphtheria toxin (DT) for killing.The 71 kDa protein was highly selective for human glioblastomain vitro showing no loss on binding compared with DTAT and DTIL13controls. In vivo, DTAT13 caused the regression of small tumorswhen administered at 10 µg/day given on a five-dose scheduleevery other day. DTAT13 was able to target both overexpresseduPAR and the vasculature, as demonstrated by its ability tokill HUVEC cells. Also, mortality studies indicated that DTAT13was less toxic than DTAT or DTIL13. These findings indicatethat bispecific IT may allow treatment of a broader subset ofantigenically diverse patients while simultaneously reducingthe exposure to toxin required than if two separate agents wereemployed.

Received October 3, 2003; revised January 29, 2004; accepted February 2, 2004 Edited by Paul Carter

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