John A. Kepler scite author profile

The highly cytotoxic, sponge-derived, antimitotic macrolide polyether spongistatin 1 has been previously shown to inhibit microtubule assembly, the binding of vinblastine and GTP to tubulin, and displacement of GDP bound in the exchangeable site of tubulin. We have now examined in detail inhibition by spongistatin 1 of both [3H]vinblastine and [3H]dolastatin 10 binding to tubulin. We found spongistatin 1 to be a noncompetitive inhibitor of the binding of both radiolabeled drugs to tubulin, in contrast to competitive patterns obtained with vincristine versus [3H]vinblastine and with a chiral isomer of dolastatin 10 versus [3H]dolastatin 10. Since dolastatin 10 is itself a noncompetitive inhibitor of vinca alkaloid binding to tubulin, this implies at least three distinct binding sites for the structurally complex and diverse natural products that interfere with each others binding to tubulin and with nucleotide exchange. Spongistatin 1, in contrast to both vinca alkaloids and peptide antimitotic agents like dolastatin 10, does not induce formation of a GTP-independent, morphologically distinctive polymer ("aggregate"). We also examined eight compounds closely related structurally to spongistatin 1 (spongistatins 2-9). The most distinctive in their properties were spongistatins 6 and 8. These two compounds, despite activity comparable to spongistatin 1 as inhibitors of tubulin polymerization and [3H]vinblastine binding, had much reduced activity as inhibitors of nucleotide exchange and [3H]dolastatin 10 binding. Spongistatins 1 and 6 were compared for effects on dolastatin 10-induced aggregate formation in conjunction with effects on [3H]dolastatin 10 binding. Spongistatin 6 was about 4-fold less active than spongistatin 1 as an inhibitor of aggregation and over 20-fold less active as an inhibitor of dolastatin 10 binding.

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Direct Photoaffinity Labeling by Dolastatin 10 of the Amino-terminal Peptide of β-Tubulin Containing Cysteine 12

Bai

Covell

Taylor

et al. 2004

Journal of Biological Chemistry

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The subunit protein of microtubules, the ␣␤-tubulin heterodimer, has a number of ligand-binding sites. These include the exchangeable and nonexchangeable GTP-binding sites and at least three reasonably well characterized sites that bind antimitotic drugs. The electron crystallographic model of the tubulin sheet polymer formed in the presence of zinc and paclitaxel and composed of antiparallel protofilaments has provided relatively detailed information about the locations of the nucleotide-binding sites and the paclitaxel site on the ␣␤-dimer (1).

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Peptide derivatives of primaquine as potential antimalarial agents

Philip

Kepler²,

Johnson³

et al. 1988

J. Med. Chem.

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Three peptide derivatives of primaquine were synthesized. The compounds were tested for radical curative antimalarial activity against Plasmodium cynomolgi in rhesus monkeys and blood schizonticidal antimalarial activity against Plasmodium berghei in mice. All three peptide derivatives showed activity against P. cynomolgi greater than that expected for the primaquine content of each prodrug. The toxicity of one of the peptide derivatives was less than that of primaquine in mice.

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Carbon-13 nuclear magnetic resonance spectra of morphine alkaloids

Carroll¹,

Moreland²,

Brine³

et al. 1976

J. Org. Chem.

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Total Synthesis of (±)-Calanolide A

Rehder

Kepler

1996

Synthetic Communications

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John A. Kepler

The Spongistatins, Potently Cytotoxic Inhibitors of Tubulin Polymerization, Bind in a Distinct Region of the Vinca Domain

Direct Photoaffinity Labeling by Dolastatin 10 of the Amino-terminal Peptide of β-Tubulin Containing Cysteine 12

Peptide derivatives of primaquine as potential antimalarial agents

Carbon-13 nuclear magnetic resonance spectra of morphine alkaloids

Total Synthesis of (±)-Calanolide A

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