Structure-Activity Relationships and Identification of Optmized CC-Chemokine Receptor CCR1, 5, and 8 Metal-Ion Chelators

Research output: Contribution to journalJournal articleResearchpeer-review

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Structure-Activity Relationships and Identification of Optmized CC-Chemokine Receptor CCR1, 5, and 8 Metal-Ion Chelators. / Chalikiopoulos, Alexander; Thiele, Stefanie; Malmgaard-Clausen, Mikkel; Rydberg, Patrik; Isberg, Vignir; Ulven, Trond; Frimurer, Thomas M; Rosenkilde, Mette M; Gloriam, David E.

In: Journal of Chemical Information and Modeling, Vol. 53, No. 11, 25.11.2013, p. 2863-73.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Chalikiopoulos, A, Thiele, S, Malmgaard-Clausen, M, Rydberg, P, Isberg, V, Ulven, T, Frimurer, TM, Rosenkilde, MM & Gloriam, DE 2013, 'Structure-Activity Relationships and Identification of Optmized CC-Chemokine Receptor CCR1, 5, and 8 Metal-Ion Chelators', Journal of Chemical Information and Modeling, vol. 53, no. 11, pp. 2863-73. https://doi.org/10.1021/ci4003848

APA

Chalikiopoulos, A., Thiele, S., Malmgaard-Clausen, M., Rydberg, P., Isberg, V., Ulven, T., Frimurer, T. M., Rosenkilde, M. M., & Gloriam, D. E. (2013). Structure-Activity Relationships and Identification of Optmized CC-Chemokine Receptor CCR1, 5, and 8 Metal-Ion Chelators. Journal of Chemical Information and Modeling, 53(11), 2863-73. https://doi.org/10.1021/ci4003848

Vancouver

Chalikiopoulos A, Thiele S, Malmgaard-Clausen M, Rydberg P, Isberg V, Ulven T et al. Structure-Activity Relationships and Identification of Optmized CC-Chemokine Receptor CCR1, 5, and 8 Metal-Ion Chelators. Journal of Chemical Information and Modeling. 2013 Nov 25;53(11):2863-73. https://doi.org/10.1021/ci4003848

Author

Chalikiopoulos, Alexander ; Thiele, Stefanie ; Malmgaard-Clausen, Mikkel ; Rydberg, Patrik ; Isberg, Vignir ; Ulven, Trond ; Frimurer, Thomas M ; Rosenkilde, Mette M ; Gloriam, David E. / Structure-Activity Relationships and Identification of Optmized CC-Chemokine Receptor CCR1, 5, and 8 Metal-Ion Chelators. In: Journal of Chemical Information and Modeling. 2013 ; Vol. 53, No. 11. pp. 2863-73.

Bibtex

@article{cf8e5c9576824f229e64e7108e58ad11,
title = "Structure-Activity Relationships and Identification of Optmized CC-Chemokine Receptor CCR1, 5, and 8 Metal-Ion Chelators",
abstract = "Chemokine receptors are involved in trafficking of leukocytes and represent targets for autoimmune conditions, inflammatory diseases, viral infections, and cancer. We recently published CCR1, CCR8, and CCR5 agonists and positive modulators based on a three metal-ion chelator series: 2,2'-bipyridine, 1,10-phenanthroline, and 2,2';6',2″-terpyridine. Here, we have performed an in-depth structure-activity relationship study and tested eight new optimized analogs. Using density functional theory calculations we demonstrate that the chelator zinc affinities depend on how electron-donating and -withdrawing substituents modulate the partial charges of chelating nitrogens. The zinc affinity was found to constitute the major factor for receptor potency, although the activity of some chelators deviate suggesting favorable or unfavorable interactions. Hydrophobic and halogen substituents are generally better accommodated in the receptors than polar groups. The new analog brominated terpyridine (29) resulted in the highest chelator potencies observed so far CCR1 (EC50: 0.49 μM) and CCR8 (EC50: 0.28 μM). Furthermore, we identified the first selective CCR5 agonist chelator, meta dithiomethylated bipyridine (23). The structure-activity relationships contribute to small-molecule drug development, and the novel chelators constitute valuable tools for studies of structural mechanisms for chemokine receptor activation.",
author = "Alexander Chalikiopoulos and Stefanie Thiele and Mikkel Malmgaard-Clausen and Patrik Rydberg and Vignir Isberg and Trond Ulven and Frimurer, {Thomas M} and Rosenkilde, {Mette M} and Gloriam, {David E.}",
year = "2013",
month = nov,
day = "25",
doi = "10.1021/ci4003848",
language = "English",
volume = "53",
pages = "2863--73",
journal = "Journal of Chemical Information and Modeling",
issn = "1549-9596",
publisher = "American Chemical Society",
number = "11",

}

RIS

TY - JOUR

T1 - Structure-Activity Relationships and Identification of Optmized CC-Chemokine Receptor CCR1, 5, and 8 Metal-Ion Chelators

AU - Chalikiopoulos, Alexander

AU - Thiele, Stefanie

AU - Malmgaard-Clausen, Mikkel

AU - Rydberg, Patrik

AU - Isberg, Vignir

AU - Ulven, Trond

AU - Frimurer, Thomas M

AU - Rosenkilde, Mette M

AU - Gloriam, David E.

PY - 2013/11/25

Y1 - 2013/11/25

N2 - Chemokine receptors are involved in trafficking of leukocytes and represent targets for autoimmune conditions, inflammatory diseases, viral infections, and cancer. We recently published CCR1, CCR8, and CCR5 agonists and positive modulators based on a three metal-ion chelator series: 2,2'-bipyridine, 1,10-phenanthroline, and 2,2';6',2″-terpyridine. Here, we have performed an in-depth structure-activity relationship study and tested eight new optimized analogs. Using density functional theory calculations we demonstrate that the chelator zinc affinities depend on how electron-donating and -withdrawing substituents modulate the partial charges of chelating nitrogens. The zinc affinity was found to constitute the major factor for receptor potency, although the activity of some chelators deviate suggesting favorable or unfavorable interactions. Hydrophobic and halogen substituents are generally better accommodated in the receptors than polar groups. The new analog brominated terpyridine (29) resulted in the highest chelator potencies observed so far CCR1 (EC50: 0.49 μM) and CCR8 (EC50: 0.28 μM). Furthermore, we identified the first selective CCR5 agonist chelator, meta dithiomethylated bipyridine (23). The structure-activity relationships contribute to small-molecule drug development, and the novel chelators constitute valuable tools for studies of structural mechanisms for chemokine receptor activation.

AB - Chemokine receptors are involved in trafficking of leukocytes and represent targets for autoimmune conditions, inflammatory diseases, viral infections, and cancer. We recently published CCR1, CCR8, and CCR5 agonists and positive modulators based on a three metal-ion chelator series: 2,2'-bipyridine, 1,10-phenanthroline, and 2,2';6',2″-terpyridine. Here, we have performed an in-depth structure-activity relationship study and tested eight new optimized analogs. Using density functional theory calculations we demonstrate that the chelator zinc affinities depend on how electron-donating and -withdrawing substituents modulate the partial charges of chelating nitrogens. The zinc affinity was found to constitute the major factor for receptor potency, although the activity of some chelators deviate suggesting favorable or unfavorable interactions. Hydrophobic and halogen substituents are generally better accommodated in the receptors than polar groups. The new analog brominated terpyridine (29) resulted in the highest chelator potencies observed so far CCR1 (EC50: 0.49 μM) and CCR8 (EC50: 0.28 μM). Furthermore, we identified the first selective CCR5 agonist chelator, meta dithiomethylated bipyridine (23). The structure-activity relationships contribute to small-molecule drug development, and the novel chelators constitute valuable tools for studies of structural mechanisms for chemokine receptor activation.

U2 - 10.1021/ci4003848

DO - 10.1021/ci4003848

M3 - Journal article

C2 - 24083637

VL - 53

SP - 2863

EP - 2873

JO - Journal of Chemical Information and Modeling

JF - Journal of Chemical Information and Modeling

SN - 1549-9596

IS - 11

ER -

ID: 94028139