Sulfhydryl site-specific crosslinking and labeling of monoclonal antibodies by a fluorescent equilibrium transfer alkylation crosslink reagent

Rosario, Renato B. Del; Wahl, Richard L.; Brocchini, Stephen; Lawton, Richard; Smith, Richard H.

doi:10.1021/bc00001a006

Cited by 37 publications

(29 citation statements)

References 28 publications

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“…Arano et al (1994) reported mercaptoethanol reduction of the disulfide bonds of a monoclonal antibody against osteogenic sarcoma to generate 6 to 7 thiols per molecule. Using a procedure similar to that described herein, del Rosario et al (1990) reported the use of DTT at 37°C for approximately 5 h to cleave the hinge region disulfides of antibodies. Upon radioiodination, one of the half antibody preparations possessed immunoreactivity in the highest range typically obtained for routine radioiodination of this antibody.…”

Section: Disc Ussl O Nmentioning

confidence: 99%

Effect of chemical modification strategy on the characteristics of copper-67-Labeled immunoconjugates, Part I: Immunoreactivity

Bhalgat¹,

Roberts²,

Mercer‐Smith³

et al. 1997

Drug Delivery

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The synthetic porphyrins N-benzyl-5,10,15,20-tetrakis(4-car-boxypheny1)porphine (N-bzHTCPP) and N-4-nitrobenzyl-5-(4carboxyphenyl)-l0,15,20-tris(4-sulfophenyl)porphine (NbzHCS3P) represent excellent radiocopper chelating agents that may find utility in antibody-mediated diagnosis and/or therapy. Detailed analyses were performed to explore the effect of the chemical modification strategy on the characteristics of immunoconjugates prepared from the anti-renal cell carcinoma monoclonal antibody A6H and N-bzHCS3P. The parameters included in the study were antibody type [intact A6H and two of its fragments, half A6H and A6H-F(ab')2], chemical linkage type and site, the presence or absence of intermediate linker molecules, and the nature of the chemical modification steps employed. The immunoconjugate synthesized by directly coupling N-bzHCS3P to whole antibody retained 7545% of the immunoreactivity of the unmodified antibody. In general, however, immunoconjugates prepared using the fragments or the intermediate linkers lacked immunoreactivity. This deficiency appeared to be a function of the multistep processes employed and not a function of the linker molecule. The

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Section: Disc Ussl O Nmentioning

confidence: 99%

Effect of chemical modification strategy on the characteristics of copper-67-Labeled immunoconjugates, Part I: Immunoreactivity

Bhalgat¹,

Roberts²,

Mercer‐Smith³

et al. 1997

Drug Delivery

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“…Although bis-alkylating agents have been widely used for peptide cyclization and labelling, [22][23][24][25][26][27][28][29][30][31][32][33][34][35][36][37][38] only a few examples of bis-alkylation of a previously reduced pair of Cys residues of an antibody using a bis-sulfone linker and bromomaleimides have been described in the literature. [39][40][41][42][43] Thus new chemical entities able to preserve the native structure of the antibodies after bioconjugation are needed.…”

Section: ▪ Introductionmentioning

confidence: 99%

Bioconjugation through Mesitylene Thiol Alkylation

et al. 2018

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The design and generation of complex multifunctional macromolecular structures by bioconjugation is a hot topic due to increasing interest in conjugates with therapeutic applications. In this regard, the development of efficient, selective, and safe conjugation methods is a major objective. In this report, we describe the use of the bis(bromomethyl)benzene scaffold as a linker for bioconjugation with special emphasis on antibody conjugation. We first performed the monothioalkylation of 1,3,5-tris(bromomethyl)benzene, which rendered the reactive dibromotrimethylbenzyl derivatives to be used in thiol bis-alkylation. Next, we introduced into the linker either a bis(Cys)-containing peptide or anti-CD4 and -CD13 monoclonal antibodies, previously subjected to partial reduction of disulfide bonds. Mass spectrometry, UV-vis spectra, and SDS-PAGE experiments revealed that this bis-alkylating agent for bioconjugation preserved both antibody integrity and antibody-antigen binding affinity, as assessed by flow cytometry. Taken together, our results show that the mesitylene scaffold is a suitable linker for thiol-based bioconjugation reactions. This linker could be applicable in the near future for the preparation of antibody drug conjugates.

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“…Although we have shown that the 3-carbon bridge can be used to conjugate PEG efficiently in aqueous solution 10,13 , insertion of the bridge also offers the potential to enable the site-specific conjugation of pharmacological and imaging agents to the protein [14][15][16] .…”

Section: Introductionmentioning

confidence: 99%

Identification and insertion of 3-carbon bridges in protein disulfide bonds: a computational approach

et al. 2007

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More than 42,000 3D structures of proteins are available on the Internet. We have shown that the chemical insertion of a 3-carbon bridge across the native disulfide bond of a protein or peptide can enable the site-specific conjugation of PEG to the protein without a loss of its structure or function. For success, it is necessary to select an appropriate and accessible disulfide bond in the protein for this chemical modification. We describe how to use public protein databases and molecular modeling programs to select a protein rationally and to identify the optimum disulfide bond for experimental studies. Our computational approach can substantially reduce the time required for the laboratory-based chemical modification. Identification of solvent-accessible disulfides using published structural information takes approximately 2 h. Predicting the structural effects of the disulfide-based modification can take 3 weeks.

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Sulfhydryl site-specific crosslinking and labeling of monoclonal antibodies by a fluorescent equilibrium transfer alkylation crosslink reagent

Cited by 37 publications

References 28 publications

Effect of chemical modification strategy on the characteristics of copper-67-Labeled immunoconjugates, Part I: Immunoreactivity

Effect of chemical modification strategy on the characteristics of copper-67-Labeled immunoconjugates, Part I: Immunoreactivity

Bioconjugation through Mesitylene Thiol Alkylation

Identification and insertion of 3-carbon bridges in protein disulfide bonds: a computational approach

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