R. Doenges scite author profile

R. Doenges

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Hinge-thiol coupling of monoclonal antibody to silanized iron oxide particles and evaluation of magnetic cell depletion

Hermentin¹,

Doenges²,

Franssen³

et al. 1990

Bioconjugate Chem.

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Iron oxide particles of average size 0.5-1.5 microns, covered by a silane coat carrying amino groups (Bio-Mag, Advanced Magnetics, Boston), were derivatized by reaction with N-[(gamma-maleimidobutyryl)oxy]-succinimide (GMBS), N-hydroxysuccinimidyl iodoacetate (NHIA), 2-iminothiolane (2-It), or N-succinimidyl 3-(2-pyridyldithio)propionate (SPDP). The derivatized particles were suitable for the reaction with sulfhydryl groups and subsequently coated with monoclonal antibodies (MoAbs) of different classes and isotypes (IgM, IgG1, IgG2a, IgG2b, IgG3) as well as polyclonal rabbit anti-mouse IgG (RAM). The antibodies were reduced by dithiothreitol (DTT) and covalently conjugated to the BioMag derivatives via liberated sulfhydryls of the hinge region. The observed conjugation ratios, expressed as protein/iron (micrograms/mg), could be reproducibly varied for optimization. These ratios were dependent on the type and amount of antibody offered for coupling to the derivatized particles, decreasing as follows: polyclonal = IgM greater than IgG2b greater than IgG2a = IgG3 greater IgG1. The conjugation ratios were also dependent on the type and amount of the spacer used to derivatize the BioMag particles, decreasing as follows: GMBS greater than NHIA greater than 2-It greater than SPDP. The magnetically responsive magnetite-antibody conjugates ("magneto-beads"), carrying MoAb BMA 081 (anti-CD8; IgG2a), MoAb BB10 (anti-CD10/CALLA; IgG2b), MoAb VIL-A1 (anti-CD10; IgM), and polyclonal RAM, coupled similarly via 3.6 mumol of GMBS spacer per mg of Fe, were further investigated with respect to a depletion effect on specific cell subsets. The rates of cell depletion were found to be strongly dependent on the individual characteristics of the antibody used.(ABSTRACT TRUNCATED AT 250 WORDS)

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Attachment of rhodosaminylanthracyclinone-type anthracyclines to the hinge-region of monoclonal antibodies

Hermentin

Doenges²,

Gronski³

et al. 1990

Bioconjugate Chem.

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We have found that a maleimidobenzoyl spacer attached to OH-4' of the rhodosamine moiety of rhodosaminylanthracyclinone-type anthracyclines is most suitable for the attachment of these drugs to carriers, providing important advantages: The spacer is selectively and most readily introduced into the rhodosamine moiety of the drugs, is stable enough for proper handling of the derivatives, and can easily be attached to thiol groups of carrier systems such as reduced monoclonal antibodies. The anthracyclines can be liberated from the conjugates by mere hydrolysis, requiring neither hydrolytic enzymes nor acidic pH. Liberation of the drugs can, moreover, be affected by the presence of the appropriate substituents Z on the phenylene ring of the spacer, thus allowing slowed or enhanced liberation of the cytostatically active drug. The corresponding p-maleimidobenzoyl derivatives of beta-rhodomycin I, N,N-dimethyldaunorubicin, and rodorubicin have been attached to thiol groups of the hinge region of reduced monoclonal antibody BW 494/32, directed against a pancreatic cancer associated glycoprotein antigen, resulting in MoAb BW 494/32 conjugates, carrying 4.8-6.8 mol of cytotoxic residues/mol of MoAb. Rodorubicin was similarly attached to MoAb BW 575/931/2, directed against a small cell lung cancer associated antigen and to MoAb BW 431/26, recognizing an epitope detectable on carcinoembryonic antigen. The results provide evidence that the newly developed method of coupling of anthracyclines to the hinge region of monoclonal antibodies may be of broader use.

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R. Doenges

Hinge-thiol coupling of monoclonal antibody to silanized iron oxide particles and evaluation of magnetic cell depletion

Attachment of rhodosaminylanthracyclinone-type anthracyclines to the hinge-region of monoclonal antibodies

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