Strategies for labeling proteins with PARACEST agents

Olga Vasalatiy; Piyu Zhao; Mark Woods; Andrei Marconescu; Aminta Castillo-Muzquiz; Philip Thorpe; Garry E. Kiefer; A. Dean Sherry

doi:10.1016/j.bmc.2010.06.026

Strategies for labeling proteins with PARACEST agents

Olga Vasalatiy, Piyu Zhao, Mark Woods, Andrei Marconescu, Aminta Castillo-Muzquiz, Philip Thorpe, Garry E. Kiefer, A. Dean Sherry

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Reactive surface lysine groups on the monoclonal antibody (3G4) and on human serum albumin (HSA) were labeled with two different PARACEST chelates. Between 7.4 and 10.1 chelates were added per 3G4 molecule and between 5.6 and 5.9 chelates per molecule of HSA, depending upon which conjugation chemistry was used. The immunoreactivity of 3G4 as measured by ELISA assays was highly dependent upon the number of attached chelates: 88% immunoreactivity with 7.4 chelates per antibody versus only 17% immunoreactivity with 10.1 chelates per antibody. Upon conjugation to 3G4, the bound water lifetime of Eu-1 increased only marginally, up from 53 μs for the non-conjugated chelate to 65-77 μs for conjugated chelates. Conjugation of a chelate Eu-2 to HSA via a single side-chain group also resulted in little or no change in bound water lifetime (73-75 μs for both the conjugated and non-conjugated forms). These data indicate that exchange of water molecules protons between the inner-sphere site on covalently attached PARACEST agent and bulk water is largely unaffected by the mode of attachment of the agent to the protein and likely its chemical surroundings on the surface of the protein.

Original language	English (US)
Pages (from-to)	1106-1114
Number of pages	9
Journal	Bioorganic and Medicinal Chemistry
Volume	19
Issue number	3
DOIs	https://doi.org/10.1016/j.bmc.2010.06.026
State	Published - Feb 1 2011
Externally published	Yes

Keywords

3G4 Monoclonal antibody
Bifunctional PARACEST agents
Bound water lifetimes
Eu chelates
HSA

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Pharmaceutical Science
Drug Discovery
Clinical Biochemistry
Organic Chemistry

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10.1016/j.bmc.2010.06.026

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title = "Strategies for labeling proteins with PARACEST agents",

abstract = "Reactive surface lysine groups on the monoclonal antibody (3G4) and on human serum albumin (HSA) were labeled with two different PARACEST chelates. Between 7.4 and 10.1 chelates were added per 3G4 molecule and between 5.6 and 5.9 chelates per molecule of HSA, depending upon which conjugation chemistry was used. The immunoreactivity of 3G4 as measured by ELISA assays was highly dependent upon the number of attached chelates: 88% immunoreactivity with 7.4 chelates per antibody versus only 17% immunoreactivity with 10.1 chelates per antibody. Upon conjugation to 3G4, the bound water lifetime of Eu-1 increased only marginally, up from 53 μs for the non-conjugated chelate to 65-77 μs for conjugated chelates. Conjugation of a chelate Eu-2 to HSA via a single side-chain group also resulted in little or no change in bound water lifetime (73-75 μs for both the conjugated and non-conjugated forms). These data indicate that exchange of water molecules protons between the inner-sphere site on covalently attached PARACEST agent and bulk water is largely unaffected by the mode of attachment of the agent to the protein and likely its chemical surroundings on the surface of the protein.",

keywords = "3G4 Monoclonal antibody, Bifunctional PARACEST agents, Bound water lifetimes, Eu chelates, HSA",

author = "Olga Vasalatiy and Piyu Zhao and Mark Woods and Andrei Marconescu and Aminta Castillo-Muzquiz and Philip Thorpe and Kiefer, {Garry E.} and {Dean Sherry}, A.",

note = "Funding Information: This work was supported in parts by grants from the National Institutes of Health ( CA-115531 and RR-02584 ) and the Robert A. Welch Foundation (AT-584). We also thank Dr. Matthew Leybourne for his assistance with ICP MS measurements.",

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AU - Vasalatiy, Olga

AU - Zhao, Piyu

AU - Woods, Mark

AU - Marconescu, Andrei

AU - Castillo-Muzquiz, Aminta

AU - Thorpe, Philip

AU - Kiefer, Garry E.

AU - Dean Sherry, A.

N1 - Funding Information: This work was supported in parts by grants from the National Institutes of Health ( CA-115531 and RR-02584 ) and the Robert A. Welch Foundation (AT-584). We also thank Dr. Matthew Leybourne for his assistance with ICP MS measurements.

PY - 2011/2/1

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N2 - Reactive surface lysine groups on the monoclonal antibody (3G4) and on human serum albumin (HSA) were labeled with two different PARACEST chelates. Between 7.4 and 10.1 chelates were added per 3G4 molecule and between 5.6 and 5.9 chelates per molecule of HSA, depending upon which conjugation chemistry was used. The immunoreactivity of 3G4 as measured by ELISA assays was highly dependent upon the number of attached chelates: 88% immunoreactivity with 7.4 chelates per antibody versus only 17% immunoreactivity with 10.1 chelates per antibody. Upon conjugation to 3G4, the bound water lifetime of Eu-1 increased only marginally, up from 53 μs for the non-conjugated chelate to 65-77 μs for conjugated chelates. Conjugation of a chelate Eu-2 to HSA via a single side-chain group also resulted in little or no change in bound water lifetime (73-75 μs for both the conjugated and non-conjugated forms). These data indicate that exchange of water molecules protons between the inner-sphere site on covalently attached PARACEST agent and bulk water is largely unaffected by the mode of attachment of the agent to the protein and likely its chemical surroundings on the surface of the protein.

AB - Reactive surface lysine groups on the monoclonal antibody (3G4) and on human serum albumin (HSA) were labeled with two different PARACEST chelates. Between 7.4 and 10.1 chelates were added per 3G4 molecule and between 5.6 and 5.9 chelates per molecule of HSA, depending upon which conjugation chemistry was used. The immunoreactivity of 3G4 as measured by ELISA assays was highly dependent upon the number of attached chelates: 88% immunoreactivity with 7.4 chelates per antibody versus only 17% immunoreactivity with 10.1 chelates per antibody. Upon conjugation to 3G4, the bound water lifetime of Eu-1 increased only marginally, up from 53 μs for the non-conjugated chelate to 65-77 μs for conjugated chelates. Conjugation of a chelate Eu-2 to HSA via a single side-chain group also resulted in little or no change in bound water lifetime (73-75 μs for both the conjugated and non-conjugated forms). These data indicate that exchange of water molecules protons between the inner-sphere site on covalently attached PARACEST agent and bulk water is largely unaffected by the mode of attachment of the agent to the protein and likely its chemical surroundings on the surface of the protein.

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KW - Bifunctional PARACEST agents

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KW - Eu chelates

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Strategies for labeling proteins with PARACEST agents

Abstract

Keywords

ASJC Scopus subject areas

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