Synthesis, structural characterisation, and preliminary evaluation of non-indolin-2-one-based angiogenesis inhibitors related to sunitinib (Sutent®)

Pichit Sudta; Nicholas Kirk; Anna Bezos; Anthony Gurlica; Rhys Mitchell; Thomas Weber; Anthony C. Willis; Samran Prabpai; Palangpon Kongsaeree; Christopher R. Parish; Sunit Suksamrarn; Michael J. Kelso

doi:10.1071/CH13219

Synthesis, structural characterisation, and preliminary evaluation of non-indolin-2-one-based angiogenesis inhibitors related to sunitinib (Sutent®)

Pichit Sudta, Nicholas Kirk, Anna Bezos, Anthony Gurlica, Rhys Mitchell, Thomas Weber, Anthony C. Willis, Samran Prabpai, Palangpon Kongsaeree, Christopher R. Parish, Sunit Suksamrarn, Michael J. Kelso^*

^*Corresponding author for this work

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

9 Citations (Scopus)

Abstract

The indolin-2-one fused-ring system and the 2,4-dimethylpyrrole unit represent key structural motifs in the anticancer drug sunitinib (Sutent®) and predecessor angiogenesis inhibitors that have undergone anticancer clinical trials (e.g. semaxanib, SU5416). In pursuit of novel anti-angiogenic scaffolds, we were interested in identifying whether the indolin-2-one group in these structures could be modified without losing activity. This paper describes novel condensation chemistry used to prepare a test series of (E)-and (Z)-alkenes related to SU5416 that retain the 2,4-dimethylpyrrole unit while incorporating ring-opened indolin-2-ones. Unique structural characteristics were identified in the compounds, such as intramolecular hydrogen bonds in the (Z)-alkenes, and several examples were shown to possess significant anti-angiogenic activity in a rat aorta in vitro model of angiogenesis. The work demonstrates that the indolin-2-one moiety is not an absolute requirement for angiogenesis inhibition in the sunitinib/SU5416 class.

Original language	English
Pages (from-to)	864-873
Number of pages	10
Journal	Australian Journal of Chemistry
Volume	66
Issue number	8
DOIs	https://doi.org/10.1071/CH13219
Publication status	Published - 2013

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Sudta, P., Kirk, N., Bezos, A., Gurlica, A., Mitchell, R., Weber, T., Willis, A. C., Prabpai, S., Kongsaeree, P., Parish, C. R., Suksamrarn, S., & Kelso, M. J. (2013). Synthesis, structural characterisation, and preliminary evaluation of non-indolin-2-one-based angiogenesis inhibitors related to sunitinib (Sutent®). Australian Journal of Chemistry, 66(8), 864-873. https://doi.org/10.1071/CH13219

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title = "Synthesis, structural characterisation, and preliminary evaluation of non-indolin-2-one-based angiogenesis inhibitors related to sunitinib (Sutent{\textregistered})",

abstract = "The indolin-2-one fused-ring system and the 2,4-dimethylpyrrole unit represent key structural motifs in the anticancer drug sunitinib (Sutent{\textregistered}) and predecessor angiogenesis inhibitors that have undergone anticancer clinical trials (e.g. semaxanib, SU5416). In pursuit of novel anti-angiogenic scaffolds, we were interested in identifying whether the indolin-2-one group in these structures could be modified without losing activity. This paper describes novel condensation chemistry used to prepare a test series of (E)-and (Z)-alkenes related to SU5416 that retain the 2,4-dimethylpyrrole unit while incorporating ring-opened indolin-2-ones. Unique structural characteristics were identified in the compounds, such as intramolecular hydrogen bonds in the (Z)-alkenes, and several examples were shown to possess significant anti-angiogenic activity in a rat aorta in vitro model of angiogenesis. The work demonstrates that the indolin-2-one moiety is not an absolute requirement for angiogenesis inhibition in the sunitinib/SU5416 class.",

author = "Pichit Sudta and Nicholas Kirk and Anna Bezos and Anthony Gurlica and Rhys Mitchell and Thomas Weber and Willis, {Anthony C.} and Samran Prabpai and Palangpon Kongsaeree and Parish, {Christopher R.} and Sunit Suksamrarn and Kelso, {Michael J.}",

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Sudta, P, Kirk, N, Bezos, A, Gurlica, A, Mitchell, R, Weber, T, Willis, AC, Prabpai, S, Kongsaeree, P, Parish, CR, Suksamrarn, S & Kelso, MJ 2013, 'Synthesis, structural characterisation, and preliminary evaluation of non-indolin-2-one-based angiogenesis inhibitors related to sunitinib (Sutent®)', Australian Journal of Chemistry, vol. 66, no. 8, pp. 864-873. https://doi.org/10.1071/CH13219

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AU - Bezos, Anna

AU - Gurlica, Anthony

AU - Mitchell, Rhys

AU - Weber, Thomas

AU - Willis, Anthony C.

AU - Prabpai, Samran

AU - Kongsaeree, Palangpon

AU - Parish, Christopher R.

AU - Suksamrarn, Sunit

AU - Kelso, Michael J.

PY - 2013

Y1 - 2013

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AB - The indolin-2-one fused-ring system and the 2,4-dimethylpyrrole unit represent key structural motifs in the anticancer drug sunitinib (Sutent®) and predecessor angiogenesis inhibitors that have undergone anticancer clinical trials (e.g. semaxanib, SU5416). In pursuit of novel anti-angiogenic scaffolds, we were interested in identifying whether the indolin-2-one group in these structures could be modified without losing activity. This paper describes novel condensation chemistry used to prepare a test series of (E)-and (Z)-alkenes related to SU5416 that retain the 2,4-dimethylpyrrole unit while incorporating ring-opened indolin-2-ones. Unique structural characteristics were identified in the compounds, such as intramolecular hydrogen bonds in the (Z)-alkenes, and several examples were shown to possess significant anti-angiogenic activity in a rat aorta in vitro model of angiogenesis. The work demonstrates that the indolin-2-one moiety is not an absolute requirement for angiogenesis inhibition in the sunitinib/SU5416 class.

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DO - 10.1071/CH13219

M3 - Article

SN - 0004-9425

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JO - Australian Journal of Chemistry

JF - Australian Journal of Chemistry

IS - 8

ER -

Synthesis, structural characterisation, and preliminary evaluation of non-indolin-2-one-based angiogenesis inhibitors related to sunitinib (Sutent®)

Abstract

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