Immunization of mice with a 14-mer peptide TKDNNLLGRFELSG, termed "TKD," comprising amino acids 450-461 (aa [450][451][452][453][454][455][456][457][458][459][460][461] ) in the C terminus of inducible Hsp70, resulted in the generation of an IgG1 mouse mAb cmHsp70.1. The epitope recognized by cmHsp70.1 mAb, which has been confirmed to be located in the TKD sequence by SPOT analysis, is frequently detectable on the cell surface of human and mouse tumors, but not on isogenic cells and normal tissues, and membrane Hsp70 might thus serve as a tumor-specific target structure. As shown for human tumors, Hsp70 is associated with cholesterol-rich microdomains in the plasma membrane of mouse tumors. Herein, we show that the cmHsp70.1 mAb can selectively induce antibody-dependent cellular cytotoxicity (ADCC) of membrane Hsp70 + mouse tumor cells by unstimulated mouse spleen cells. Tumor killing could be further enhanced by activating the effector cells with TKD and IL-2. Three consecutive injections of the cmHsp70.1 mAb into mice bearing CT26 tumors significantly inhibited tumor growth and enhanced the overall survival. These effects were associated with infiltrations of NK cells, macrophages, and granulocytes. The Hsp70 specificity of the ADCC response was confirmed by preventing the antitumor response in tumor-bearing mice by coinjecting the cognate TKD peptide with the cmHsp70.1 mAb, and by blocking the binding of cmHsp70.1 mAb to CT26 tumor cells using either TKD peptide or the C-terminal substrate-binding domain of Hsp70.immunotherapy | syngeneic tumor model | tumor antibody dependent cellular cytotoxicity | epitope mapping | surface antigen
The type III-secreted proteins NopE1 and NopE2 of Bradyrhizobium japonicum contain a repeated domain of unknown function (DUF1521), which is present in a few uncharacterized proteins. A nopE1/nopE2 double mutant strain exhibited higher nodulation efficiency on Vigna radiata KPS2 than the wild type or single nopE1 or nopE2 mutants. This indicates that both proteins are effectors that functionally overlap. To test translocation into the plant cell compartment during symbiosis, NopE1 and NopE2 were fused with adenylate cyclase (cya) as reporter. A fusion with the full-length proteins or N-terminal peptides resulted in increased cAMP levels in nodules, indicating translocation. Purified NopE1 exhibited self-cleavage in the presence of Ca(2+). Two identical cleavage sites (GD'PHVD) were identified inside the DUF1521 domains. The C-terminal cleavage site was analyzed by alanine scanning. Protein variants in which aspartate or proline next to the cleavage sites was substituted displayed no cleavage. A noncleavable protein was obtained by exchange of the aspartate residues preceding both cleavage sites. Complementation analysis with the noncleavable NopE1 variant did not restore wild-type phenotype on Vigna radiata KPS2, indicating a physiological role of NopE1 cleavage in effector function.
Although antigen-binding fragments (Fabs) of antibodies constitute established tracers for in vivo radiodiagnostics, their functionality is hampered by a very short circulation half-life. PASylation, the genetic fusion with a long, conformationally disordered amino acid chain comprising Pro, Ala and Ser, provides a convenient way to expand protein size and, consequently, retard renal filtration. Humanized αHER2 and αCD20 Fabs were systematically fused with 100 to 600 PAS residues and produced in E. coli. Cytofluorimetric titration analysis on tumor cell lines confirmed that antigen-binding activities of the parental antibodies were retained. The radio-iodinated PASylated Fabs were studied by positron emission tomography (PET) imaging and biodistribution analysis in mouse tumor xenograft models. While the unmodified αHER2 and αCD20 Fabs showed weak tumor uptake (0.8% and 0.2% ID/g, respectively; 24 h p.i.) tumor-associated radioactivity was boosted with increasing PAS length (up to 9 and 26-fold, respectively), approaching an optimum for Fab-PAS400. Remarkably, 6- and 5-fold higher tumor-to-blood ratios compared with the unmodified Fabs were measured in the biodistribution analysis (48 h p.i.) for αHER2 Fab-PAS100 and Fab-PAS200, respectively. These findings were confirmed by PET studies, showing high imaging contrast in line with tumor-to-blood ratios of 12.2 and 5.7 (24 h p.i.) for αHER2 Fab-PAS100 and Fab-PAS200. Even stronger tumor signals were obtained with the corresponding αCD20 Fabs, both in PET imaging and biodistribution analysis, with an uptake of 2.8% ID/g for Fab-PAS100 vs. 0.24% ID/g for the unmodified Fab. Hence, by engineering Fabs via PASylation, plasma half-life can be tailored to significantly improve tracer uptake and tumor contrast, thus optimally matching reagent/target interactions.
Hsp70, the major stress-inducible member of the 70 kDa heat shock protein family, is frequently exposed on the plasma membrane of human tumours and, even more pronounced, on metastases but not detectable on normal tissues. The mouse monoclonal antibody cmHsp70.1, which recognizes a peptide epitope in the C-terminal substrate binding domain of both human and murine Hsp70, provides a promising reagent for the monitoring of Hsp70-positive tumours during cancer therapy. Here, we describe the variable domain sequences of the antibody produced by the hybridoma cell line and attempts to secrete the corresponding recombinant Fab fragment in Escherichia coli. Initially, the yield of soluble functional Fab fragment that could be purified from the periplasmic cell extract was extremely low, even when preparing different chimeric versions with constant domains of human or murine origin or with the light chain constant domain belonging to the kappa or lambda class. Surprisingly, this yield could be raised dramatically by more than a factor 100 in the presence of the folding helper plasmid pTUM4, which overexpresses two periplasmic disulphide oxido-reductases as well as two chaperones with proline-cis/trans-isomerase activity. Thus, more than 15 mg functional recombinant Fab fragment could be purified per litre E.coli culture from a bench top fermenter. This Fab fragment showed high and specific Hsp70 binding activity in ELISA and SPR measurements, revealing a dissociation constant of 35 nM. Notably, the Fab fragment sensitively recognizes the membrane-associated Hsp70 on tumour cell lines both in immunofluorescence microscopy and flow cytometry, thus showing potential for tumour detection in vitro and in vivo.
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