Abstract
The targeted delivery of bioactive molecules with antibodies specific to tumor-associated antigens represents a promising strategy for improving the efficacy of tumor therapy. The large isoform of tenascin-C, an abundant glycoprotein of the tumor extracellular matrix, is strongly overexpressed in adult tissue undergoing tissue remodeling, including wound healing and neoplasia, and has been implicated in a variety of different cancers while being virtually undetectable in most normal adult tissues. We have used antibody phage technology to generate good-quality human recombinant antibodies (F16 and P12) specific to the alternatively spliced domains A1 and D of the large isoform of tenascin-C. The tumor-targeting properties of F16 and P12 were assessed by biodistribution studies in tumor xenografts using the antibodies in small immunoprotein (SIP) format. SIP(F16) selectively accumulated at the tumor site with 4.5%ID/g at 24 hours in the U87 glioblastoma model but was rapidly cleared from other organs (tumor-to-organ ratios, approximately 10:1). The accumulation of SIP(P12) in the tumor was lower compared with SIP(F16) and persistent levels of radioactivity were observed in the intestine. These data suggest that the F16 antibody, specific to domain A1 of tenascin-C, is a promising building block for the development of antibody-based pharmaceuticals in view of its excellent tumor-targeting performance and the strong expression of the antigen in a variety of primary and metastatic tumors.
Highlights
The targeted delivery of bioactive molecules with antibodies specific to tumorassociated antigens represents a promising strategy for improving the efficacy of tumor therapy
Several clones that were positive in ELISA and BIAcore were tested by immunohistochemistry for their ability to recognize the antigen in the tissue on tumor xenograft sections
The anti-TnC-A1 antibody small immunoprotein (SIP)(F16) accumulated at the tumor site and targeted tumors with a performance that was comparable with the one of SIP(L19), a high-affinity antibody directed toward the extradomain B of fibronectin (EDB), which is currently in phase II clinical trials
Summary
The targeted delivery of bioactive molecules with antibodies specific to tumorassociated antigens represents a promising strategy for improving the efficacy of tumor therapy. Experimental Design: We have used antibody phage technology to generate good-quality human recombinant antibodies (F16 and P12) specific to the alternatively spliced domains A1 and D of the large isoform of tenascin-C. The tumor-targeting properties of F16 and P12 were assessed by biodistribution studies in tumor xenografts using the antibodies in small immunoprotein (SIP) format. Conclusions:These data suggest that the F16 antibody, specific to domain A1of tenascin-C, is a promising building block for the development of antibody-based pharmaceuticals in view of its excellent tumor-targeting performance and the strong expression of the antigen in a variety of primary and metastatic tumors
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