Rapid Screening of Peptide Probes through In Situ Single-Bead Sequencing Microarray

Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-be...

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Published inAnalytical chemistry (Washington) Vol. 86; no. 23; pp. 11854 - 11859
Main Authors Wang, Weizhi, Wei, Zewen, Zhang, Di, Ma, Huailei, Wang, Zihua, Bu, Xiangli, Li, Menglin, Geng, Lingling, Lausted, Christopher, Hood, Leroy, Fang, Qiaojun, Wang, Hao, Hu, Zhiyuan
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 02.12.2014
Subjects
Affinity
Algorithms
Analytical chemistry
Animals
Biomedical materials
Biomedical research
Cell Line, Tumor
Combinatorial analysis
diagnostic techniques
drugs
Female
Fluorescent Dyes - chemistry
Hep G2 Cells
Humans
image analysis
In vivo tests
Libraries
Ligands
membrane alanyl aminopeptidase
Mice
Mice, Inbred BALB C
Mice, Nude
microarray technology
Microfluidic Analytical Techniques
Molecular Structure
Nanotechnology
peptide libraries
Peptide Library
Peptides
Peptides - analysis
Probes
Protein Array Analysis
rapid methods
Reagents
Screening
Surgical implants
therapeutics
Online AccessGet full text
ISSN0003-2700
1520-6882
1520-6882
DOI10.1021/ac503454z

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Abstract Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-bead–one-compound (OBOC) combinatorial peptide library screening. We screened a library with 2 × 105 peptide beads within 4 h and discovered 140 noncanonical peptide hits targeting the tumor marker, aminopeptidase N (APN). Using the Clustal algorithm, we identified the conserved sequence Tyr-XX-Tyr in the N terminal. We demonstrated that the novel sequence YVEYHLC peptides have both nanomolar affinity and high specificity for APN in ex vivo and in vivo models. We envision that the successful demonstration of this integrated novel nanotechnology for peptide screening and identification open a new avenue for rapid discovery of new peptide-based reagents for disease diagnostics and therapeutics.
AbstractList Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-bead–one-compound (OBOC) combinatorial peptide library screening. We screened a library with 2 × 10⁵ peptide beads within 4 h and discovered 140 noncanonical peptide hits targeting the tumor marker, aminopeptidase N (APN). Using the Clustal algorithm, we identified the conserved sequence Tyr-XX-Tyr in the N terminal. We demonstrated that the novel sequence YVEYHLC peptides have both nanomolar affinity and high specificity for APN in ex vivo and in vivo models. We envision that the successful demonstration of this integrated novel nanotechnology for peptide screening and identification open a new avenue for rapid discovery of new peptide-based reagents for disease diagnostics and therapeutics.
Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-bead-one-compound (OBOC) combinatorial peptide library screening. We screened a library with 2 x 10^sup 5^ peptide beads within 4 h and discovered 140 noncanonical peptide hits targeting the tumor marker, aminopeptidase N (APN). Using the Clustal algorithm, we identified the conserved sequence Tyr-XX-Tyr in the N terminal. We demonstrated that the novel sequence YVEYHLC peptides have both nanomolar affinity and high specificity for APN in ex vivo and in vivo models. We envision that the successful demonstration of this integrated novel nanotechnology for peptide screening and identification open a new avenue for rapid discovery of new peptide-based reagents for disease diagnostics and therapeutics.
Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-bead-one-compound (OBOC) combinatorial peptide library screening. We screened a library with 2 × 10(5) peptide beads within 4 h and discovered 140 noncanonical peptide hits targeting the tumor marker, aminopeptidase N (APN). Using the Clustal algorithm, we identified the conserved sequence Tyr-XX-Tyr in the N terminal. We demonstrated that the novel sequence YVEYHLC peptides have both nanomolar affinity and high specificity for APN in ex vivo and in vivo models. We envision that the successful demonstration of this integrated novel nanotechnology for peptide screening and identification open a new avenue for rapid discovery of new peptide-based reagents for disease diagnostics and therapeutics.
Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-bead-one-compound (OBOC) combinatorial peptide library screening. We screened a library with 2 × 10(5) peptide beads within 4 h and discovered 140 noncanonical peptide hits targeting the tumor marker, aminopeptidase N (APN). Using the Clustal algorithm, we identified the conserved sequence Tyr-XX-Tyr in the N terminal. We demonstrated that the novel sequence YVEYHLC peptides have both nanomolar affinity and high specificity for APN in ex vivo and in vivo models. We envision that the successful demonstration of this integrated novel nanotechnology for peptide screening and identification open a new avenue for rapid discovery of new peptide-based reagents for disease diagnostics and therapeutics.Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-bead-one-compound (OBOC) combinatorial peptide library screening. We screened a library with 2 × 10(5) peptide beads within 4 h and discovered 140 noncanonical peptide hits targeting the tumor marker, aminopeptidase N (APN). Using the Clustal algorithm, we identified the conserved sequence Tyr-XX-Tyr in the N terminal. We demonstrated that the novel sequence YVEYHLC peptides have both nanomolar affinity and high specificity for APN in ex vivo and in vivo models. We envision that the successful demonstration of this integrated novel nanotechnology for peptide screening and identification open a new avenue for rapid discovery of new peptide-based reagents for disease diagnostics and therapeutics.
Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-bead-one-compound (OBOC) combinatorial peptide library screening. We screened a library with 2 x 10 super( 5) peptide beads within 4 h and discovered 140 noncanonical peptide hits targeting the tumor marker, aminopeptidase N (APN). Using the Clustal algorithm, we identified the conserved sequence Tyr-XX-Tyr in the N terminal. We demonstrated that the novel sequence YVEYHLC peptides have both nanomolar affinity and high specificity for APN in ex vivo and in vivo models. We envision that the successful demonstration of this integrated novel nanotechnology for peptide screening and identification open a new avenue for rapid discovery of new peptide-based reagents for disease diagnostics and therapeutics.
Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and specificity screening of large peptide libraries remains a tedious process. Here, we report a continuous-flow microfluidic method for one-bead–one-compound (OBOC) combinatorial peptide library screening. We screened a library with 2 × 105 peptide beads within 4 h and discovered 140 noncanonical peptide hits targeting the tumor marker, aminopeptidase N (APN). Using the Clustal algorithm, we identified the conserved sequence Tyr-XX-Tyr in the N terminal. We demonstrated that the novel sequence YVEYHLC peptides have both nanomolar affinity and high specificity for APN in ex vivo and in vivo models. We envision that the successful demonstration of this integrated novel nanotechnology for peptide screening and identification open a new avenue for rapid discovery of new peptide-based reagents for disease diagnostics and therapeutics.
Author Geng, Lingling
Hood, Leroy
Ma, Huailei
Wei, Zewen
Li, Menglin
Wang, Zihua
Lausted, Christopher
Bu, Xiangli
Hu, Zhiyuan
Wang, Weizhi
Fang, Qiaojun
Zhang, Di
Wang, Hao
AuthorAffiliation Beijing Institute of Radiation Medicine
Beijing Proteome Research Center
National Center for Nanoscience and Technology of China
CAS Key Laboratory for Biomedical Effects of Nanomaterials & Nanosafety
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Snippet Peptide ligands as targeting probes for in vivo imaging and drug delivery have attracted great interest in the biomedical community. However, high affinity and...
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SubjectTerms Affinity
Algorithms
Analytical chemistry
Animals
Biomedical materials
Biomedical research
Cell Line, Tumor
Combinatorial analysis
diagnostic techniques
drugs
Female
Fluorescent Dyes - chemistry
Hep G2 Cells
Humans
image analysis
In vivo tests
Libraries
Ligands
membrane alanyl aminopeptidase
Mice
Mice, Inbred BALB C
Mice, Nude
microarray technology
Microfluidic Analytical Techniques
Molecular Structure
Nanotechnology
peptide libraries
Peptide Library
Peptides
Peptides - analysis
Probes
Protein Array Analysis
rapid methods
Reagents
Screening
Surgical implants
therapeutics
Title Rapid Screening of Peptide Probes through In Situ Single-Bead Sequencing Microarray
URI http://dx.doi.org/10.1021/ac503454z
https://www.ncbi.nlm.nih.gov/pubmed/25370073
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