Mechanism of Action of Antitumor Drugs that Interact with Microtubules and Tubulin

ISSN: 1875-5992 (Online)
ISSN: 1871-5206 (Print)

Volume 16, 12 Issues, 2016

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Anti-Cancer Agents in Medicinal Chemistry

Formerly: Current Medicinal Chemistry - Anti-Cancer Agents

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Michelle Prudhomme
Universite Blaise Pascal - C.N.R.S
Aubiere Cedex

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Mechanism of Action of Antitumor Drugs that Interact with Microtubules and Tubulin

Anti-Cancer Agents in Medicinal Chemistry, 2(1): 1-17.

Author(s): M A Jordan.

Affiliation: Department of Molecular, Cellular, and Developmental Biology, and Neuroscience Research Institute, University of California Santa Barbara, Santa Barbara, CA, 93106, USA


Microtubules, major structural components in cells, are the target of a large and diverse group of natural product anticancer drugs. Given the success of this class of drugs in cancer treatment, it can be argued that microtubules represent the single best cancer target identified to date. Microtubules are highly dynamic assemblies of the protein tubulin. They readily polymerize and depolymerize in cells, and they undergo two interesting kinds of dynamics called dynamic instability and treadmilling. These dynamic behaviors are crucial to mitosis, the process of chromosomal division to form new cells. Microtubule dynamics are highly regulated during the cell cycle by endogenous cellular regulators. In addition, many antitumor drugs and natural compounds alter the polymerization dynamics of microtubules, blocking mitosis, and consequently, inducing cell death by apoptosis. These drugs include several that inhibit microtubule polymerization at high drug concentrations, namely, the Vinca alkaloids, crypto phycins, halichondrins, estramustine, and colchicine. Another group of these compounds stimulates microtubule polymerization and stabilizes microtubules at high concentrations. These include Taxol, Taxotere, eleutherobins, epothilones, laulimalide, sarcodictyins, and discodermolide. Importantly, considerable evidence indicates that, at lower concentrations, these drugs have a common mechanism of action; they suppress the dynamics of microtubules without appreciably changing the mass of microtubules in the cell. The drugs bind to diverse sites on tubulin and at different positions within the microtubule, and they have diverse effects on microtubule dynamics. However, by their common mechanism of suppression microtubule dynamics, they all block mitosis at the metaphase / anaphase transition, and induce cell death.


Antitumor Drugs, Microtubules, Tubulin, Vinca alkaloids, Cryptophycins, Halichondrins, Estramustine, Colchicines, Taxol, Taxotere.

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Article Details

Volume: 2
Issue Number: 1
First Page: 1
Last Page: 17
Page Count: 17
DOI: 10.2174/1568011023354290

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