S.C. Lee scite author profile

S.C. Lee

3Publications

26Citation Statements Received

5Citation Statements Given

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Affiliations

The Ohio State University, Pfizer (United States)

Publications

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Biochemical and Immunological Properties of Cytokines Conjugated to Dendritic Polymers

Lee

Parthasarathy

Botwin

et al. 2004

Biomedical Microdevices

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Here we describe a post-translational modification of SC-63032, a variant of the species restricted, multi-lineage hematopoeitic factor human interleukin-3 (hIL-3). We have made two new dendritic polymer (polyamidoamine or PAMAM dendrimers, generation 5)-SC-63032 bioconjugates. Using two distinct chemistries (one of which is novel to this work), we achieved site-specific conjugation with respect to the amino acid in the proteins ligated to the dendrimers. In both bioconjugates, conjugated cytokine maintains its ability to bind the hIL-3 alpha receptor subunit, but is significantly (about 10-fold) less potent in inducing hIL-3 dependent in vitro cell proliferation than is the free cytokine. In vivo data indicates that conjugation decreases the immunogenicity of the conjugated cytokine modestly. In the absence of pharmacokinetic or biodistribution effects associated with the bioconjugates that increase their potency in vivo (which can only be tested in a higher primate, due to the species restriction of hIL-3 and its derivatives), these immune mitigation effects may be too small to be therapeutically significant. Though unmodified PAMAM dendrimers fail to elicit an antibody response in mice, protein conjugation to dendrimers haptenizes them, and a dendrimer-specific antibody response is produced. In toto, the principal limitation of the dendrimer-cytokine bioconjugates herein is in their reduced receptor affinity and potency in vitro. Were the in vivo potency of the bioconjugates to parallel the in vitro potency of the conjugates reported here, it is likely that particular dendrimer bioconjugates could not justify their higher costs of goods relative to the parent SC-63032 molecule, though retention of SC-63032 biological activities in conjugates suggests that other cytokine-dendrimer bioconjugates may be bioactive. This is good news to the nanotechnology community, in as much as PAMAM dendrimers are among the monodisperse polymeric nanomaterials available, and these results show that they can be used successfully in conjugates to bioactive proteins.

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Towards in vivo biosensors for low‐cost protein sensing

et al. 2013

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In vivo biosensing requires stable transistor operation in high‐salt concentration bodily fluids while exhibiting impermeability to mobile alkali ions that would otherwise render the metal‐oxide‐semiconductor (MOS) threshold voltage to drift. Metal oxide semiconductor capacitor structures using Al2O3 as the gate dielectric were soaked in a sterile physiological buffer solution (PBS) up to 24 hours and for thicknesses from 100 to 10 nm. The triangular voltage sweep technique characterised alkali ion penetration, and measured no detectable alkali ions for the Al2O3 capacitors. By contrast, the dose of alkali ions in silicon dioxide MOS capacitors steadily increased with increasing soak times in the PBS solution.

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Electrical Detection of Biological Conjugation by AlGaN/GaN Heterostructure Field Effect Transistors

Wen

Wang

Gupta

et al. 2008

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S.C. Lee

Biochemical and Immunological Properties of Cytokines Conjugated to Dendritic Polymers

Towards in vivo biosensors for low‐cost protein sensing

Electrical Detection of Biological Conjugation by AlGaN/GaN Heterostructure Field Effect Transistors

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