Abstract
The anti-cancer drug taxol binds to β-tubulin in assembled microtubules and causes cell cycle arrest in animal cells; in contrast, in fungi, the effect of taxol varies. For instance, the taxol-producer Pestalotiopsis microspora Ne32, an ascomycete, is resistant to taxol (IC50 greater than 11.7 μM), whereas Pythium ultimum, an oomycete, is sensitive to taxol (IC50 0.1 μM). In order to understand the differential fungal response to taxol, we isolated cDNAs encoding β-tubulin from both P. microspora and P. ultimum. The deduced amino acid sequence of β-tubulin from P. microspora is very similar to those from other Ascomycetes, many of which are resistant to taxol. The sequence of β-tubulin from P. ultimum is very similar to those from Oomycetes and non-fungal organisms, many of which are sensitive to taxol. To examine the interaction between taxol and fungal microtubules, binding studies were performed with fungal cells, using [3H]taxol. The labeled taxol was found to bind specifically to P. ultimum, but not to P. microspora. In addition, the amount of [3H]taxol specifically bound to P. ultimum was reduced by the microtubule-depolymerizing drug thiabendazole, in a dose-dependent manner. These results suggest efficient binding of taxol to microtubules in P. ultimum, but not in P. microspora, and are consistent with the differential taxol sensitivity of these two organisms. Finally a comparison of previously characterized taxol binding sites in various β-tubulin sequences showed that β-tubulins of taxol-sensitive organisms, including P. ultimum, contain Thr219, but β-tubulins of resistant organisms, including P. microspora, contain Asn or Gln at this position, suggesting an important role for residue 219 in the interaction between taxol and β-tubulin.
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Received: 16 March 1999 / Accepted: 21 August 1999
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Mu, JH., Bollon, A. & Sidhu, R. Analysis of β-tubulin cDNAs from taxol-resistant Pestalotiopsis microspora and taxol-sensitive Pythium ultimum and comparison of the taxol-binding properties of their products. Mol Gen Genet 262, 857–868 (1999). https://doi.org/10.1007/s004380051151
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DOI: https://doi.org/10.1007/s004380051151