Isolation of peptide ligands that interact specifically with human glioma cells

Poor prognosis of high grade gliomas coupled with the difficulty of widespread delivery of therapeutic agents prompted the search into new molecular targets. Our aim is to isolate glioma-specific peptide sequences that can be used for targeted delivery of therapeutic drugs and imaging tracer to accu...

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Vydáno v:	Peptides (New York, N.Y. : 1980) Ročník 31; číslo 4; s. 644 - 650
Hlavní autoři:	Ho, Ivy A.W., Hui, Kam M., Lam, Paula Y.P.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	New York, NY Elsevier Inc 01.04.2010 Elsevier
Témata:	Amino Acid Sequence Biological and medical sciences Cell Line, Tumor Fundamental and applied biological sciences. Psychology Glioma Glioma - metabolism Glioma - pathology Glioma-specific Humans Ligands Medical sciences Molecular Sequence Data Neoplasm Transplantation Neurology Peptides - genetics Peptides - isolation & purification Peptides - metabolism Phage display Tissue Distribution Transplantation, Heterologous Tumors of the nervous system. Phacomatoses Vector targeting Vertebrates: endocrinology Vector targeting Phage display Glioma-specific Glioma Human Nervous system diseases Targeting Peptides Ligand Cell line Central nervous system disease Tumor Isolation Vector
ISSN:	0196-9781, 1873-5169, 1873-5169
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Abstract	Poor prognosis of high grade gliomas coupled with the difficulty of widespread delivery of therapeutic agents prompted the search into new molecular targets. Our aim is to isolate glioma-specific peptide sequences that can be used for targeted delivery of therapeutic drugs and imaging tracer to accurately demarcate tumor volume as a response to therapy. Herein, we describe the isolation and characterization of a glioma-specific peptide sequence, GL1, that interact exclusively with human glioma cells lines and primary glioma cells derived from human biopsy in vitro. Further analysis showed that the receptors for GL1 were located on the external side of the plasma membrane, where the GL1 peptides could bind stably up to a period of 180 min. More importantly, GL1 phages home specifically to human glioma xenograft when administered through tail vein, a phenomenon that was not observed when non-specific phages were used as control. Taken together, our results confirmed that GL1 could represent a novel peptide that target to tumor of glial origins, and could potentially be used as a targeting moiety for the conjugation of therapeutic drugs or diagnostic imaging radiolabels.
AbstractList	Poor prognosis of high grade gliomas coupled with the difficulty of widespread delivery of therapeutic agents prompted the search into new molecular targets. Our aim is to isolate glioma-specific peptide sequences that can be used for targeted delivery of therapeutic drugs and imaging tracer to accurately demarcate tumor volume as a response to therapy. Herein, we describe the isolation and characterization of a glioma-specific peptide sequence, GL1, that interact exclusively with human glioma cells lines and primary glioma cells derived from human biopsy in vitro. Further analysis showed that the receptors for GL1 were located on the external side of the plasma membrane, where the GL1 peptides could bind stably up to a period of 180 min. More importantly, GL1 phages home specifically to human glioma xenograft when administered through tail vein, a phenomenon that was not observed when non-specific phages were used as control. Taken together, our results confirmed that GL1 could represent a novel peptide that target to tumor of glial origins, and could potentially be used as a targeting moiety for the conjugation of therapeutic drugs or diagnostic imaging radiolabels. Poor prognosis of high grade gliomas coupled with the difficulty of widespread delivery of therapeutic agents prompted the search into new molecular targets. Our aim is to isolate glioma-specific peptide sequences that can be used for targeted delivery of therapeutic drugs and imaging tracer to accurately demarcate tumor volume as a response to therapy. Herein, we describe the isolation and characterization of a glioma-specific peptide sequence, GL1, that interact exclusively with human glioma cells lines and primary glioma cells derived from human biopsy in vitro. Further analysis showed that the receptors for GL1 were located on the external side of the plasma membrane, where the GL1 peptides could bind stably up to a period of 180 min. More importantly, GL1 phages home specifically to human glioma xenograft when administered through tail vein, a phenomenon that was not observed when non-specific phages were used as control. Taken together, our results confirmed that GL1 could represent a novel peptide that target to tumor of glial origins, and could potentially be used as a targeting moiety for the conjugation of therapeutic drugs or diagnostic imaging radiolabels.Poor prognosis of high grade gliomas coupled with the difficulty of widespread delivery of therapeutic agents prompted the search into new molecular targets. Our aim is to isolate glioma-specific peptide sequences that can be used for targeted delivery of therapeutic drugs and imaging tracer to accurately demarcate tumor volume as a response to therapy. Herein, we describe the isolation and characterization of a glioma-specific peptide sequence, GL1, that interact exclusively with human glioma cells lines and primary glioma cells derived from human biopsy in vitro. Further analysis showed that the receptors for GL1 were located on the external side of the plasma membrane, where the GL1 peptides could bind stably up to a period of 180 min. More importantly, GL1 phages home specifically to human glioma xenograft when administered through tail vein, a phenomenon that was not observed when non-specific phages were used as control. Taken together, our results confirmed that GL1 could represent a novel peptide that target to tumor of glial origins, and could potentially be used as a targeting moiety for the conjugation of therapeutic drugs or diagnostic imaging radiolabels. Poor prognosis of high grade gliomas coupled with the difficulty of widespread delivery of therapeutic agents prompted the search into new molecular targets. Our aim is to isolate glioma-specific peptide sequences that can be used for targeted delivery of therapeutic drugs and imaging tracer to accurately demarcate tumor volume as a response to therapy. Herein, we describe the isolation and characterization of a glioma-specific peptide sequence, GL1, that interact exclusively with human glioma cells lines and primary glioma cells derived from human biopsy in vitro. Further analysis showed that the receptors for GL1 were located on the external side of the plasma membrane, where the GL1 peptides could bind stably up to a period of 180 min. More importantly, GL1 phages home specifically to human glioma xenograft when administered through tail vein, a phenomenon that was not observed when non-specific phages were used as control. Taken together, our results confirmed that GL1 could represent a novel peptide that target to tumor of glial origins, and could potentially be used as a targeting moiety for the conjugation of therapeutic drugs or diagnostic imaging radiolabels.
Author	Lam, Paula Y.P. Ho, Ivy A.W. Hui, Kam M.
Author_xml	– sequence: 1 givenname: Ivy A.W. surname: Ho fullname: Ho, Ivy A.W. organization: Laboratory of Cancer Gene Therapy, Singapore – sequence: 2 givenname: Kam M. surname: Hui fullname: Hui, Kam M. organization: Bek Chai Heah Laboratory of Cancer Genomics, Humprey Oei Institute of Cancer Research, National Cancer Centre of Singapore, Singapore – sequence: 3 givenname: Paula Y.P. surname: Lam fullname: Lam, Paula Y.P. email: cmrlyp@nccs.com.sg organization: Laboratory of Cancer Gene Therapy, Singapore
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Keywords	Vector targeting Phage display Glioma-specific Glioma Human Nervous system diseases Targeting Peptides Ligand Cell line Central nervous system disease Tumor Isolation Vector
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Snippet	Poor prognosis of high grade gliomas coupled with the difficulty of widespread delivery of therapeutic agents prompted the search into new molecular targets....
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SubjectTerms	Amino Acid Sequence Biological and medical sciences Cell Line, Tumor Fundamental and applied biological sciences. Psychology Glioma Glioma - metabolism Glioma - pathology Glioma-specific Humans Ligands Medical sciences Molecular Sequence Data Neoplasm Transplantation Neurology Peptides - genetics Peptides - isolation & purification Peptides - metabolism Phage display Tissue Distribution Transplantation, Heterologous Tumors of the nervous system. Phacomatoses Vector targeting Vertebrates: endocrinology
Title	Isolation of peptide ligands that interact specifically with human glioma cells
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