Jonathan Schultz scite author profile

Although radioimmunotherapy with radiolabeled intact monoclonal antibodies has demonstrated efficacy in the treatment of lymphoma, it provides low tumor-to-normal-tissue radionuclide target ratios and unwanted prolonged radiation exposure to the bone marrow. To overcome these obstacles, the administration of the radionuclide was separated from that of the antibody by using an anti-IL-2 receptor ␣ antibody single chain Fv-streptavidin fusion protein, followed by radiolabeled biotin to treat lymphoma or leukemia xenografted mice. This Pretarget approach provided extremely rapid and effective tumor targeting, permitting the use of short-lived ␣-emitting radionuclides. With the ␤-emitter 90 Y, all of the 10 lymphoma-xenografted mice were cured. With the ␣-emitter 213 Bi, significant efficacy was obtained in treating leukemic mice, and, furthermore, when combined with immunotherapy, 7 of 10 leukemic mice were cured. Thus, Pretarget radioimmunotherapy is very promising and could represent the next generation in the treatment of lymphoma and leukemia.

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Mechanism and Specificity of Human α-1,3-Fucosyltransferase V

Murray

et al. 1996

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Human alpha-1,3-fucosyltransferase catalyzes the transfer of the L-fucose moiety from guanosine diphosphate-beta-L-fucose (GDP-Fuc) to acceptor sugars to form biologically important fucoglycoconjugates, including sialyl Lewis x (SLex). Evidence for a general base mechanism is supported by a pH-rate profile that revealed a catalytic residue with a pKa of 4.1. The characterized solvent kinetic isotope effect (Dv = 2.9, Dv/k = 2.1) in a proton inventory study indicates that only one-proton transfer is involved in the catalytic step leading to the formation of the transition state. Evidence for Mn2+ as an electrophilic catalyst was supported by the observation that the nonenzymatic transfer of L-fucose from GDP-Fuc to the hydroxyl group of water in the presence of 10 mM MnCl2 at 20 degrees C was accelerated from K(obs)= 3.5 x 10(-6) to 3.8 x 10(-5) min-1. Using the GDP-Fuc hydrolysis as the nonenzymatic rate, the enzymatic proficiency of FucT V, (Kcat/Ki,GDP-fuc. K(m),1.acNAc)/K(non), was estimated to be 1.2 x 10(10) M-1 with a transition-state affinity of 8.6 x 10(-11) M. The Km for Mn2+ was determined to be 6.1 mM, and alternative divalent metal cofactors were identified as Ca2+, Co2+, and Mg2+. Detailed kinetic characterization of the acceptor sugar specificity indicated that incorporation of hydrophobic functionality [e.g. -O-(CH2)5CO2CH3] to the reducing end of the acceptor sugar substantially decreased the K(m),acceptor by over 100-fold. The role of the nucleotide was investigated by studying the inhibition of nucleotides, including the guanosine series. The inhibitory potency trend (GTP approximately GDP > GMP > > guanosine) is consistent with bidentate chelation of Mn2+ by GDP-Fuc. The role of charge and distance in the synergistic inhibitory effect by the combination of GDP, an aza sugar, and the acceptor sugar was probed. A mechanism for fucosyl transfer incorporating these findings is proposed and discussed.

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Jonathan Schultz

Pretarget radiotherapy with an anti-CD25 antibody-streptavidin fusion protein was effective in therapy of leukemia/lymphoma xenografts

Mechanism and Specificity of Human α-1,3-Fucosyltransferase V

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