Interactions of amidated acids with heparin

Ruel Z.B. Desamero; Hu Cheng; Sean Cahill; Mark Girvin; Hua Deng; Robert Callender; Parshuram Rath; Bruce Variano; John E. Smart

doi:10.1002/bip.10040

Interactions of amidated acids with heparin

Ruel Z.B. Desamero, Hu Cheng, Sean Cahill, Mark Girvin, Hua Deng, Robert Callender, Parshuram Rath, Bruce Variano, John E. Smart

Biochemistry

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

1 Scopus citations

Abstract

Raman and NMR studies are performed to characterize the solution structures of complexes between heparin and a group of amidated acids, which act as delivery agents that facilitate the gastrointestinal absorption of orally administered heparin. At concentrations typically employed for the oral drug delivery of heparin, the contact points between heparin complexed with the delivery agents include points near the OH groups of heparin. The results suggest that heparin interacts rather nonspecifically with the amidated acids as monomers and with self-associated complexes of the delivery agents. It is also found that the carboxyl groups of at least one of the bioactive delivery agents easily protonates when it forms complexes with itself or heparin. This attribute may be one reason why this class of compounds is effective in the oral delivery of heparin.

Original language	English (US)
Pages (from-to)	41-48
Number of pages	8
Journal	Biopolymers - Biospectroscopy Section
Volume	67
Issue number	1
DOIs	https://doi.org/10.1002/bip.10040
State	Published - 2002

Keywords

Amidated acids
Heparin
Oral drug delivery

ASJC Scopus subject areas

Biophysics
Biochemistry
Biomaterials
Organic Chemistry

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10.1002/bip.10040

Cite this

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abstract = "Raman and NMR studies are performed to characterize the solution structures of complexes between heparin and a group of amidated acids, which act as delivery agents that facilitate the gastrointestinal absorption of orally administered heparin. At concentrations typically employed for the oral drug delivery of heparin, the contact points between heparin complexed with the delivery agents include points near the OH groups of heparin. The results suggest that heparin interacts rather nonspecifically with the amidated acids as monomers and with self-associated complexes of the delivery agents. It is also found that the carboxyl groups of at least one of the bioactive delivery agents easily protonates when it forms complexes with itself or heparin. This attribute may be one reason why this class of compounds is effective in the oral delivery of heparin.",

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T1 - Interactions of amidated acids with heparin

AU - Desamero, Ruel Z.B.

AU - Cheng, Hu

AU - Cahill, Sean

AU - Girvin, Mark

AU - Deng, Hua

AU - Callender, Robert

AU - Rath, Parshuram

AU - Variano, Bruce

AU - Smart, John E.

PY - 2002

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N2 - Raman and NMR studies are performed to characterize the solution structures of complexes between heparin and a group of amidated acids, which act as delivery agents that facilitate the gastrointestinal absorption of orally administered heparin. At concentrations typically employed for the oral drug delivery of heparin, the contact points between heparin complexed with the delivery agents include points near the OH groups of heparin. The results suggest that heparin interacts rather nonspecifically with the amidated acids as monomers and with self-associated complexes of the delivery agents. It is also found that the carboxyl groups of at least one of the bioactive delivery agents easily protonates when it forms complexes with itself or heparin. This attribute may be one reason why this class of compounds is effective in the oral delivery of heparin.

AB - Raman and NMR studies are performed to characterize the solution structures of complexes between heparin and a group of amidated acids, which act as delivery agents that facilitate the gastrointestinal absorption of orally administered heparin. At concentrations typically employed for the oral drug delivery of heparin, the contact points between heparin complexed with the delivery agents include points near the OH groups of heparin. The results suggest that heparin interacts rather nonspecifically with the amidated acids as monomers and with self-associated complexes of the delivery agents. It is also found that the carboxyl groups of at least one of the bioactive delivery agents easily protonates when it forms complexes with itself or heparin. This attribute may be one reason why this class of compounds is effective in the oral delivery of heparin.

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KW - Heparin

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Interactions of amidated acids with heparin

Abstract

Keywords

ASJC Scopus subject areas

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