J Bhatia scite author profile

J Bhatia

4Publications

79Citation Statements Received

23Citation Statements Given

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116

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Affiliations

The Royal Free Hospital, University College London

Publications

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Recombinant anti-carcinoembryonic antigen antibodies for targeting cancer

Chester¹,

Mayer²,

Bhatia³

et al. 2000

Cancer Chemother Pharmacol

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Antibodies can be used to target cancer therapies to malignant tissue; the approach is attractive because conventional treatments such as chemo- and radiotherapy are dose limited due to toxicity in normal tissues. Effective targeting relies on appropriate pharmacokinetics of antibody-based therapeutics, ideally showing maximum uptake and retention in tumor and rapid clearance from normal tissue. We have studied the factors influencing these dynamics for antibodies against carcinoembryonic antigen (CEA). Protein engineering of anti-CEA antibodies, in vivo biodistribution models, and mathematical models have been employed to improve understanding of targeting parameters, define optimal characteristics for the antibody-based molecules employed, and develop new therapies for the clinic. Engineering antibodies to obtain the desired therapeutic characteristics is most readily achieved using recombinant antibody technology, and we have taken the approach of immunizing mice to provide high-affinity anti-CEA single-chain Fv antibodies (sFvs) from filamentous bacteriophage libraries. MFE-23, the most characterized of these sFvs, has been expressed in bacteria and purified in our laboratory for two clinical trials: a gamma camera imaging trial using 123I-MFE-23 and a radioimmunoguided surgery trial using 125I-MFE-23, where tumor deposits are detected by a hand-held probe during surgery. Both these trials showed that MFE-23 is safe and effective in localizing tumor deposits in patients with cancer. We are now developing fusion proteins that use the MFE-23 antibody to deliver a therapeutic moiety; MFE-23:: carboxypeptidase G2 (CPG2) targets the enzyme CPG2 for use in the antibody-directed enzyme prodrug therapy system and MFE::tumor necrosis factor alpha (TNFalpha) aims to reduce sequestration and increase tumor concentrations of systemically administered TNFalpha.

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Catalytic activity of an in vivo tumor targeted anti-CEA scFv::carboxypeptidase G2 fusion protein

Bhatia¹,

Sharma²,

Chester³

et al. 2000

Journal International du Cancer

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Antibody-directed enzyme prodrug therapy (ADEPT) targets an enzyme selectively to a tumor where it converts a relatively non-toxic prodrug to a potent cytotoxic drug. Previous clinical work using antibody-enzyme chemical conjugates has been limited by the moderate efficiency of tumor targeting of these molecules. To address this a recombinant fusion protein composed of MFE-23, an anti-carcinoembryonic antigen (CEA) single chain Fv (scFv) antibody, fused to the amino-terminus of the enzyme carboxypeptidase G2 (CPG2) has been constructed to achieve ADEPT in CEAproducing tumors. MFE-23::CPG2 fusion protein was overexpressed in Escherichia coli and purified using CEA affinity chromatography. Efficacy of MFE-23::CPG2 delivery to tumors in vivo was assessed by measuring catalytic activity after intravenous injection of purified MFE-23::CPG2 into nude mice bearing CEA-positive LS174T human colon adenocarcinoma xenografts. Recombinant MFE-23::CPG2 cleared rapidly from circulation and catalytic activity in extracted tissues showed tumor to plasma ratios of 1.5:1 (6 hr), 10:1 (24 hr), 19:1 (48 hr) and 12:1 (72 hr).125 I-MFE-23::CPG2 was retained in kidney, liver and spleen but MFE-23::CPG2 catalytic activity was not, resulting in excellent tumor to normal tissue enzyme ratios 48 hr after injection. These were 371:1 (tumor to liver), 450:1 (tumor to lung), 562:1 (tumor to kidney), 1,477:1 (tumor to colon) and 1,618:1 (tumor to spleen). Favorable tumor : normal tissue ratios occurred at early time points when there was still 21% (24 hr) and 9.5% (48 hr) of the injected activity present per gram of tumor tissue. The high tumor concentrations and selective tumor retention of active enzyme delivered by MFE-23::CPG2 establish that this recombinant fusion protein has potential to give improved clinical efficiency for ADEPT.Int.

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Glycoforms obtained by expression in Pichia pastoris improve cancer targeting potential of a recombinant antibody-enzyme fusion protein

Medzihradszky

Spencer²,

Sharma³

et al. 2003

Glycobiology

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MFE-CP is a recombinant antibody-enzyme fusion protein used for antibody-mediated delivery of an enzyme to cancer deposits. After clearance from normal tissues, the tumor-targeted enzyme is used to activate a subsequently administered prodrug to give a potent cytotoxic in the tumor. MFE-CP localizes to cancer deposits in vivo, but we propose that its therapeutic potential could be improved by N-glycosylation, obtained by expression in Pichia pastoris. Glycosylation could enhance clearance from healthy tissue and result in better tumor:normal tissue ratios. To test this, glycosylated MFE-CP was expressed and purified from P. pastoris. The resultant MFE-CP fusion protein was enzymatically active and showed enhanced clearance from normal tissues in vivo. Furthermore, it showed effective tumor localization. This favorable glycosylation pattern was analyzed by tandem mass spectrometry. High-resolution, high-detection sensitivity collision-induced dissociation experiments proved essential for this task. Results showed that of the three potential N-glycosylation sites only two were consistently occupied with oligomannose structures. Asn-442 appeared the most heterogeneously populated with oligomannose carbohydrates extending from 5 to 13 units in length. Asn-484 was found only in its nonglycosylated form. There was less heterogeneity at Asn-492, which was glycosylated with oligosaccharide structures ranging from 8 to 10 mannose units. Nonglycosylated forms of Asn-442 and Asn-492 were not observed.

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Antibody and radionuclide characteristics and the enhancement of the effectiveness of radioimmunotherapy by selective dose delivery to radiosensitive areas of tumour

Flynn

Pedley

Green

et al. 2002

International Journal of Radiation Biology

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J Bhatia

Recombinant anti-carcinoembryonic antigen antibodies for targeting cancer

Catalytic activity of an in vivo tumor targeted anti-CEA scFv::carboxypeptidase G2 fusion protein

Glycoforms obtained by expression in Pichia pastoris improve cancer targeting potential of a recombinant antibody-enzyme fusion protein

Antibody and radionuclide characteristics and the enhancement of the effectiveness of radioimmunotherapy by selective dose delivery to radiosensitive areas of tumour

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