In vitro and in vivo evaluation of cysteine and site specific conjugated herceptin antibody-drug conjugates

Antibody drug conjugates (ADCs) are monoclonal antibodies designed to deliver a cytotoxic drug selectively to antigen expressing cells. Several components of an ADC including the selection of the antibody, the linker, the cytotoxic drug payload and the site of attachment used to attach the drug to t...

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Published inPloS one Vol. 9; no. 1; p. e83865
Main Authors Jackson, Dowdy, Atkinson, John, Guevara, Claudia I, Zhang, Chunying, Kery, Vladimir, Moon, Sung-Ju, Virata, Cyrus, Yang, Peng, Lowe, Christine, Pinkstaff, Jason, Cho, Ho, Knudsen, Nick, Manibusan, Anthony, Tian, Feng, Sun, Ying, Lu, Yingchun, Sellers, Aaron, Jia, Xiao-Chi, Joseph, Ingrid, Anand, Banmeet, Morrison, Kendall, Pereira, Daniel S, Stover, David
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 14.01.2014
Public Library of Science (PLoS)
Subjects
Acids
Amino acids
Analysis
Animals
Antibodies, Monoclonal, Humanized - chemistry
Antigens
Antineoplastic agents
Antineoplastic Agents - chemistry
Binding Sites
Biocompatibility
Biology
Biopharmaceuticals
Breast cancer
Cancer therapies
Cell Line, Tumor
Chemistry
Conjugates
Cysteine
Cysteine - chemistry
Cytotoxicity
Drug delivery systems
Drug development
Drug Stability
Drugs
Epidermal growth factor
ErbB-2 protein
Evaluation
FDA approval
Female
Gene Expression Regulation, Neoplastic - drug effects
Humans
Immunoconjugates - blood
Immunoconjugates - chemistry
Immunoconjugates - pharmacokinetics
Immunoconjugates - pharmacology
Immunoglobulin G
Immunoglobulins
Lysine
Male
Medical prognosis
Medicine
Metastasis
Mice
Monoclonal antibodies
Phenylalanine
Rats
Receptor, ErbB-2 - metabolism
Serum Albumin - metabolism
Stability
Studies
Substrate Specificity
Thiols
Toxicity
Toxicology
Trastuzumab
Tumor cell lines
Tumors
Xenograft Model Antitumor Assays
La Jolla California
United States > US
California
Online AccessGet full text

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Abstract Antibody drug conjugates (ADCs) are monoclonal antibodies designed to deliver a cytotoxic drug selectively to antigen expressing cells. Several components of an ADC including the selection of the antibody, the linker, the cytotoxic drug payload and the site of attachment used to attach the drug to the antibody are critical to the activity and development of the ADC. The cytotoxic drugs or payloads used to make ADCs are typically conjugated to the antibody through cysteine or lysine residues. This results in ADCs that have a heterogeneous number of drugs per antibody. The number of drugs per antibody commonly referred to as the drug to antibody ratio (DAR), can vary between 0 and 8 drugs for a IgG1 antibody. Antibodies with 0 drugs are ineffective and compete with the ADC for binding to the antigen expressing cells. Antibodies with 8 drugs per antibody have reduced in vivo stability, which may contribute to non target related toxicities. In these studies we incorporated a non-natural amino acid, para acetyl phenylalanine, at two unique sites within an antibody against Her2/neu. We covalently attached a cytotoxic drug to these sites to form an ADC which contains two drugs per antibody. We report the results from the first direct preclinical comparison of a site specific non-natural amino acid anti-Her2 ADC and a cysteine conjugated anti-Her2 ADC. We report that the site specific non-natural amino acid anti-Her2 ADCs have superior in vitro serum stability and preclinical toxicology profile in rats as compared to the cysteine conjugated anti-Her2 ADCs. We also demonstrate that the site specific non-natural amino acid anti-Her2 ADCs maintain their in vitro potency and in vivo efficacy against Her2 expressing human tumor cell lines. Our data suggests that site specific non-natural amino acid ADCs may have a superior therapeutic window than cysteine conjugated ADCs.
AbstractList Antibody drug conjugates (ADCs) are monoclonal antibodies designed to deliver a cytotoxic drug selectively to antigen expressing cells. Several components of an ADC including the selection of the antibody, the linker, the cytotoxic drug payload and the site of attachment used to attach the drug to the antibody are critical to the activity and development of the ADC. The cytotoxic drugs or payloads used to make ADCs are typically conjugated to the antibody through cysteine or lysine residues. This results in ADCs that have a heterogeneous number of drugs per antibody. The number of drugs per antibody commonly referred to as the drug to antibody ratio (DAR), can vary between 0 and 8 drugs for a IgG.sub.1 antibody. Antibodies with 0 drugs are ineffective and compete with the ADC for binding to the antigen expressing cells. Antibodies with 8 drugs per antibody have reduced in vivo stability, which may contribute to non target related toxicities. In these studies we incorporated a non-natural amino acid, para acetyl phenylalanine, at two unique sites within an antibody against Her2/neu. We covalently attached a cytotoxic drug to these sites to form an ADC which contains two drugs per antibody. We report the results from the first direct preclinical comparison of a site specific non-natural amino acid anti-Her2 ADC and a cysteine conjugated anti-Her2 ADC. We report that the site specific non-natural amino acid anti-Her2 ADCs have superior in vitro serum stability and preclinical toxicology profile in rats as compared to the cysteine conjugated anti-Her2 ADCs. We also demonstrate that the site specific non-natural amino acid anti-Her2 ADCs maintain their in vitro potency and in vivo efficacy against Her2 expressing human tumor cell lines. Our data suggests that site specific non-natural amino acid ADCs may have a superior therapeutic window than cysteine conjugated ADCs.
Antibody drug conjugates (ADCs) are monoclonal antibodies designed to deliver a cytotoxic drug selectively to antigen expressing cells. Several components of an ADC including the selection of the antibody, the linker, the cytotoxic drug payload and the site of attachment used to attach the drug to the antibody are critical to the activity and development of the ADC.
Antibody drug conjugates (ADCs) are monoclonal antibodies designed to deliver a cytotoxic drug selectively to antigen expressing cells. Several components of an ADC including the selection of the antibody, the linker, the cytotoxic drug payload and the site of attachment used to attach the drug to the antibody are critical to the activity and development of the ADC. The cytotoxic drugs or payloads used to make ADCs are typically conjugated to the antibody through cysteine or lysine residues. This results in ADCs that have a heterogeneous number of drugs per antibody. The number of drugs per antibody commonly referred to as the drug to antibody ratio (DAR), can vary between 0 and 8 drugs for a IgG1 antibody. Antibodies with 0 drugs are ineffective and compete with the ADC for binding to the antigen expressing cells. Antibodies with 8 drugs per antibody have reduced in vivo stability, which may contribute to non target related toxicities. In these studies we incorporated a non-natural amino acid, para acetyl phenylalanine, at two unique sites within an antibody against Her2/neu. We covalently attached a cytotoxic drug to these sites to form an ADC which contains two drugs per antibody. We report the results from the first direct preclinical comparison of a site specific non-natural amino acid anti-Her2 ADC and a cysteine conjugated anti-Her2 ADC. We report that the site specific non-natural amino acid anti-Her2 ADCs have superior in vitro serum stability and preclinical toxicology profile in rats as compared to the cysteine conjugated anti-Her2 ADCs. We also demonstrate that the site specific non-natural amino acid anti-Her2 ADCs maintain their in vitro potency and in vivo efficacy against Her2 expressing human tumor cell lines. Our data suggests that site specific non-natural amino acid ADCs may have a superior therapeutic window than cysteine conjugated ADCs.
Antibody drug conjugates (ADCs) are monoclonal antibodies designed to deliver a cytotoxic drug selectively to antigen expressing cells. Several components of an ADC including the selection of the antibody, the linker, the cytotoxic drug payload and the site of attachment used to attach the drug to the antibody are critical to the activity and development of the ADC. The cytotoxic drugs or payloads used to make ADCs are typically conjugated to the antibody through cysteine or lysine residues. This results in ADCs that have a heterogeneous number of drugs per antibody. The number of drugs per antibody commonly referred to as the drug to antibody ratio (DAR), can vary between 0 and 8 drugs for a IgG1 antibody. Antibodies with 0 drugs are ineffective and compete with the ADC for binding to the antigen expressing cells. Antibodies with 8 drugs per antibody have reduced in vivo stability, which may contribute to non target related toxicities. In these studies we incorporated a non-natural amino acid, para acetyl phenylalanine, at two unique sites within an antibody against Her2/neu. We covalently attached a cytotoxic drug to these sites to form an ADC which contains two drugs per antibody. We report the results from the first direct preclinical comparison of a site specific non-natural amino acid anti-Her2 ADC and a cysteine conjugated anti-Her2 ADC. We report that the site specific non-natural amino acid anti-Her2 ADCs have superior in vitro serum stability and preclinical toxicology profile in rats as compared to the cysteine conjugated anti-Her2 ADCs. We also demonstrate that the site specific non-natural amino acid anti-Her2 ADCs maintain their in vitro potency and in vivo efficacy against Her2 expressing human tumor cell lines. Our data suggests that site specific non-natural amino acid ADCs may have a superior therapeutic window than cysteine conjugated ADCs.
Antibody drug conjugates (ADCs) are monoclonal antibodies designed to deliver a cytotoxic drug selectively to antigen expressing cells. Several components of an ADC including the selection of the antibody, the linker, the cytotoxic drug payload and the site of attachment used to attach the drug to the antibody are critical to the activity and development of the ADC. The cytotoxic drugs or payloads used to make ADCs are typically conjugated to the antibody through cysteine or lysine residues. This results in ADCs that have a heterogeneous number of drugs per antibody. The number of drugs per antibody commonly referred to as the drug to antibody ratio (DAR), can vary between 0 and 8 drugs for a IgG 1 antibody. Antibodies with 0 drugs are ineffective and compete with the ADC for binding to the antigen expressing cells. Antibodies with 8 drugs per antibody have reduced in vivo stability, which may contribute to non target related toxicities. In these studies we incorporated a non-natural amino acid, para acetyl phenylalanine, at two unique sites within an antibody against Her2/neu. We covalently attached a cytotoxic drug to these sites to form an ADC which contains two drugs per antibody. We report the results from the first direct preclinical comparison of a site specific non-natural amino acid anti-Her2 ADC and a cysteine conjugated anti-Her2 ADC. We report that the site specific non-natural amino acid anti-Her2 ADCs have superior in vitro serum stability and preclinical toxicology profile in rats as compared to the cysteine conjugated anti-Her2 ADCs. We also demonstrate that the site specific non-natural amino acid anti-Her2 ADCs maintain their in vitro potency and in vivo efficacy against Her2 expressing human tumor cell lines. Our data suggests that site specific non-natural amino acid ADCs may have a superior therapeutic window than cysteine conjugated ADCs.
Audience Academic
Author Atkinson, John
Sun, Ying
Joseph, Ingrid
Virata, Cyrus
Pereira, Daniel S
Zhang, Chunying
Jackson, Dowdy
Knudsen, Nick
Pinkstaff, Jason
Tian, Feng
Cho, Ho
Kery, Vladimir
Moon, Sung-Ju
Lu, Yingchun
Jia, Xiao-Chi
Yang, Peng
Lowe, Christine
Anand, Banmeet
Guevara, Claudia I
Morrison, Kendall
Stover, David
Sellers, Aaron
Manibusan, Anthony
AuthorAffiliation 2 Ambrx Incorporated, La Jolla, California, United States of America
National Cancer Institute, NIH, United States of America
1 Agensys, Inc, Santa Monica, California, United States of America
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– name: National Cancer Institute, NIH, United States of America
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/24454709$$D View this record in MEDLINE/PubMed
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Copyright COPYRIGHT 2014 Public Library of Science
2014 Jackson et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
2014 Jackson et al 2014 Jackson et al
Copyright_xml – notice: COPYRIGHT 2014 Public Library of Science
– notice: 2014 Jackson et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
– notice: 2014 Jackson et al 2014 Jackson et al
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DocumentTitleAlternate Efficacy of Site Specific Conjugated Anti-Her2 ADC
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Notes Conceived and designed the experiments: JA XCJ IJ. Performed the experiments: CIG CZ SJM CV CL. Analyzed the data: VK PY BA. Contributed reagents/materials/analysis tools: JP HC NK AM FT YS YL AS. Wrote the paper: DJ. Provided scientific guidance, critiques and allocated adequate resources to complete the studies: KM DSP DS.
Competing Interests: The authors have read the journal's policy and have the following conflicts to declare: DJ JA CIG CZ VK SM CV PY CL XJ IJ BA KM DSP DS are Agensys employees. JP HC NK AK are Ambrx employees. DJ JA CIG CZ VK SM CV PY CL XJ IJ BA KM DSP DS are potential stock holders in Astellas Pharma. JP HC NK AK are potential stock holders in Ambrx, Inc.
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Snippet Antibody drug conjugates (ADCs) are monoclonal antibodies designed to deliver a cytotoxic drug selectively to antigen expressing cells. Several components of...
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SubjectTerms Acids
Amino acids
Analysis
Animals
Antibodies, Monoclonal, Humanized - chemistry
Antigens
Antineoplastic agents
Antineoplastic Agents - chemistry
Binding Sites
Biocompatibility
Biology
Biopharmaceuticals
Breast cancer
Cancer therapies
Cell Line, Tumor
Chemistry
Conjugates
Cysteine
Cysteine - chemistry
Cytotoxicity
Drug delivery systems
Drug development
Drug Stability
Drugs
Epidermal growth factor
ErbB-2 protein
Evaluation
FDA approval
Female
Gene Expression Regulation, Neoplastic - drug effects
Humans
Immunoconjugates - blood
Immunoconjugates - chemistry
Immunoconjugates - pharmacokinetics
Immunoconjugates - pharmacology
Immunoglobulin G
Immunoglobulins
Lysine
Male
Medical prognosis
Medicine
Metastasis
Mice
Monoclonal antibodies
Phenylalanine
Rats
Receptor, ErbB-2 - metabolism
Serum Albumin - metabolism
Stability
Studies
Substrate Specificity
Thiols
Toxicity
Toxicology
Trastuzumab
Tumor cell lines
Tumors
Xenograft Model Antitumor Assays
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Title In vitro and in vivo evaluation of cysteine and site specific conjugated herceptin antibody-drug conjugates
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