hPEPT1 Affinity and Translocation of Selected Gln-Sar and Glu-Sar Dipeptide Derivatives

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hPEPT1 Affinity and Translocation of Selected Gln-Sar and Glu-Sar Dipeptide Derivatives. / Eriksson, A. H.; Elm, Peter L.; Begtrup, Mikael; Nielsen, Robert; Steffansen, Bente; Larsen, Birger Brodin.

In: Molecular Pharmaceutics, Vol. 2, No. 3, 2005, p. 242-249.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Eriksson, AH, Elm, PL, Begtrup, M, Nielsen, R, Steffansen, B & Larsen, BB 2005, 'hPEPT1 Affinity and Translocation of Selected Gln-Sar and Glu-Sar Dipeptide Derivatives', Molecular Pharmaceutics, vol. 2, no. 3, pp. 242-249. https://doi.org/10.1021/mp050015+

APA

Eriksson, A. H., Elm, P. L., Begtrup, M., Nielsen, R., Steffansen, B., & Larsen, B. B. (2005). hPEPT1 Affinity and Translocation of Selected Gln-Sar and Glu-Sar Dipeptide Derivatives. Molecular Pharmaceutics, 2(3), 242-249. https://doi.org/10.1021/mp050015+

Vancouver

Eriksson AH, Elm PL, Begtrup M, Nielsen R, Steffansen B, Larsen BB. hPEPT1 Affinity and Translocation of Selected Gln-Sar and Glu-Sar Dipeptide Derivatives. Molecular Pharmaceutics. 2005;2(3):242-249. https://doi.org/10.1021/mp050015+

Author

Eriksson, A. H. ; Elm, Peter L. ; Begtrup, Mikael ; Nielsen, Robert ; Steffansen, Bente ; Larsen, Birger Brodin. / hPEPT1 Affinity and Translocation of Selected Gln-Sar and Glu-Sar Dipeptide Derivatives. In: Molecular Pharmaceutics. 2005 ; Vol. 2, No. 3. pp. 242-249.

Bibtex

@article{04c36e706c3711dcbee902004c4f4f50,
title = "hPEPT1 Affinity and Translocation of Selected Gln-Sar and Glu-Sar Dipeptide Derivatives",
abstract = "The intestinal di- and tripeptide transporter hPEPT1 is considered responsible for the absorption of di- and tripeptides arising from digestion, along with several drugs and prodrugs. In order to gather information on the binding site of the protein, several structure-affinity relationships have been suggested. However, these are not necessarily predictive of compounds that are actually translocated by hPEPT1. More information on affinity to and translocation via hPEPT1 of side-chain-modified dipeptides may be gained by conducting a study of selected dipeptide derivatives with variety in size, hydrophobicity, and bond type. The aim of the present study was to synthesize new esters and amides based on l-Glu-Sar and investigate the effects that bond type and size of modification of the N-terminal side chain of sarcosine-containing dipeptides have on the affinity to and translocation via hPEPT1. The esters l-Glu(O-i-Bu)-Sar and l-Glu(OCH2Ada)-Sar and the amides l-Gln(N,N-dimethyl)-Sar and l-Gln(N-piperidinyl)-Sar were synthesized, and affinity to and translocation via hPEPT1 were investigated in mature Caco-2 cell monolayers, grown on permeable supports. Affinity was estimated in a competition assay using 14C-labeled Gly-Sar. Translocation was measured as fluorescence ratios induced by the substrates using the fluorescent probe BCECF and an epifluorescence microscope setup. All compounds showed high affinity to hPEPT1, but only the amides l-Gln(N,N-dimethyl)-Sar and l-Gln(N-piperidinyl)-Sar were translocated by hPEPT1. hPEPT1 is very susceptible to modifications of the N-terminal amino acid side chain of dipeptidomimetic substrates, in terms of achieving compounds with high affinity for the transporter. However, as affinity is not predictive of translocation, derivatization in this position must be performed with great caution since some of the compounds investigated turn out not to be translocated by the transporter.",
author = "Eriksson, {A. H.} and Elm, {Peter L.} and Mikael Begtrup and Robert Nielsen and Bente Steffansen and Larsen, {Birger Brodin}",
note = "Keywords: Dipeptide derivatives; hPEPT1; Caco-2; intracellular pH; BCECF; epifluorescence microscopy",
year = "2005",
doi = "10.1021/mp050015+",
language = "English",
volume = "2",
pages = "242--249",
journal = "Molecular Pharmaceutics",
issn = "1543-8384",
publisher = "American Chemical Society",
number = "3",

}

RIS

TY - JOUR

T1 - hPEPT1 Affinity and Translocation of Selected Gln-Sar and Glu-Sar Dipeptide Derivatives

AU - Eriksson, A. H.

AU - Elm, Peter L.

AU - Begtrup, Mikael

AU - Nielsen, Robert

AU - Steffansen, Bente

AU - Larsen, Birger Brodin

N1 - Keywords: Dipeptide derivatives; hPEPT1; Caco-2; intracellular pH; BCECF; epifluorescence microscopy

PY - 2005

Y1 - 2005

N2 - The intestinal di- and tripeptide transporter hPEPT1 is considered responsible for the absorption of di- and tripeptides arising from digestion, along with several drugs and prodrugs. In order to gather information on the binding site of the protein, several structure-affinity relationships have been suggested. However, these are not necessarily predictive of compounds that are actually translocated by hPEPT1. More information on affinity to and translocation via hPEPT1 of side-chain-modified dipeptides may be gained by conducting a study of selected dipeptide derivatives with variety in size, hydrophobicity, and bond type. The aim of the present study was to synthesize new esters and amides based on l-Glu-Sar and investigate the effects that bond type and size of modification of the N-terminal side chain of sarcosine-containing dipeptides have on the affinity to and translocation via hPEPT1. The esters l-Glu(O-i-Bu)-Sar and l-Glu(OCH2Ada)-Sar and the amides l-Gln(N,N-dimethyl)-Sar and l-Gln(N-piperidinyl)-Sar were synthesized, and affinity to and translocation via hPEPT1 were investigated in mature Caco-2 cell monolayers, grown on permeable supports. Affinity was estimated in a competition assay using 14C-labeled Gly-Sar. Translocation was measured as fluorescence ratios induced by the substrates using the fluorescent probe BCECF and an epifluorescence microscope setup. All compounds showed high affinity to hPEPT1, but only the amides l-Gln(N,N-dimethyl)-Sar and l-Gln(N-piperidinyl)-Sar were translocated by hPEPT1. hPEPT1 is very susceptible to modifications of the N-terminal amino acid side chain of dipeptidomimetic substrates, in terms of achieving compounds with high affinity for the transporter. However, as affinity is not predictive of translocation, derivatization in this position must be performed with great caution since some of the compounds investigated turn out not to be translocated by the transporter.

AB - The intestinal di- and tripeptide transporter hPEPT1 is considered responsible for the absorption of di- and tripeptides arising from digestion, along with several drugs and prodrugs. In order to gather information on the binding site of the protein, several structure-affinity relationships have been suggested. However, these are not necessarily predictive of compounds that are actually translocated by hPEPT1. More information on affinity to and translocation via hPEPT1 of side-chain-modified dipeptides may be gained by conducting a study of selected dipeptide derivatives with variety in size, hydrophobicity, and bond type. The aim of the present study was to synthesize new esters and amides based on l-Glu-Sar and investigate the effects that bond type and size of modification of the N-terminal side chain of sarcosine-containing dipeptides have on the affinity to and translocation via hPEPT1. The esters l-Glu(O-i-Bu)-Sar and l-Glu(OCH2Ada)-Sar and the amides l-Gln(N,N-dimethyl)-Sar and l-Gln(N-piperidinyl)-Sar were synthesized, and affinity to and translocation via hPEPT1 were investigated in mature Caco-2 cell monolayers, grown on permeable supports. Affinity was estimated in a competition assay using 14C-labeled Gly-Sar. Translocation was measured as fluorescence ratios induced by the substrates using the fluorescent probe BCECF and an epifluorescence microscope setup. All compounds showed high affinity to hPEPT1, but only the amides l-Gln(N,N-dimethyl)-Sar and l-Gln(N-piperidinyl)-Sar were translocated by hPEPT1. hPEPT1 is very susceptible to modifications of the N-terminal amino acid side chain of dipeptidomimetic substrates, in terms of achieving compounds with high affinity for the transporter. However, as affinity is not predictive of translocation, derivatization in this position must be performed with great caution since some of the compounds investigated turn out not to be translocated by the transporter.

U2 - 10.1021/mp050015+

DO - 10.1021/mp050015+

M3 - Journal article

C2 - 15934785

VL - 2

SP - 242

EP - 249

JO - Molecular Pharmaceutics

JF - Molecular Pharmaceutics

SN - 1543-8384

IS - 3

ER -

ID: 1093610