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Tubulin detyrosination: Crucial enzyme unveiled at last

Date:
December 4, 2017
Source:
CEA
Summary:
After 40 years of research, researchers have finally identified the enzyme responsible for the tubulin detyrosination. Surprisingly, it is not one enzyme but two which control the modification of this essential component of the cytoskeletal structure. This work opens up new prospects for improved understanding of the role played by tubulin, deregulation of which has been linked to cancers, cardiovascular diseases and neural disorders.
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FULL STORY

​After 40 years of research, researchers at the CEA, CNRS, University Grenoble-Alps, University of Montpellier and Inserm have finally identified the enzyme responsible for the tubulin detyrosination. Surprisingly, it is not one enzyme but two which control the modification of this essential component of the cytoskeletal structure. This work opens up new prospects for improved understanding of the role played by tubulin, deregulation of which has been linked to cancers, cardiovascular diseases and neural disorders.

A collaborative international project involving researchers from CEA (French Atomic Energy Commission), CNRS (French National Centre for Scientific Research), Inserm (French National Institute of Health and Medical Research), University Grenoble-Alps, University of Montpellier and Stanford Universityhas identified the enzyme, Tubulin CarboxyPeptidase (TCP), responsible for the biochemical transformation of cellular microtubules, through detyrosination. Detyrosination is a biological reaction resulting in the removal of the terminal amino acid tyrosine from α-tubulin, one of the subunits making up microtubules. After four decades of research, biologists have finally succeeded in purifying this protein, and have gone on to provide evidence of its cellular activity.

Microtubules contribute to essential cellular functions

Microtubules are dynamic fibres present in all cells, they are formed by the combination of two proteins (α-tubulin and β-tubulin). Microtubules fulfil numerous functions: they separate the chromosomes to distribute them between the two daughter cells during cell division; they contribute to cellular polarity, morphology and to cell migration; they also form a network inside the cell, on which cellular constituents, such as proteins or RNA strands, can be transported.

These cellular functions are regulated by "signals" which are present on the surface of microtubules. These signals, consisting of biochemical modifications to amino acids (known as post-translational modifications, as they take place after protein synthesis), occur at multiple sites in cells and are executed by a broad range of enzymes; in this case, the enzymes modify the tubulins.

The enzyme TCP, finally identified after 40 years of mystery

The activity of one of these enzymes was first identified in 1977 by an Argentinian research team. They named this activity "TCP" (Tubulin CarboxyPeptidase). This enzyme was shown to perform the detyrosination reaction: removal of the terminal amino acid, a tyrosine, from the end of α-tubulin, but the protein itself remained to be identified (its size and sequence were unknown). Another enzyme, the ligase TTL, performs the reverse reaction -- tyrosination -- through which the tyrosine is replaced. The detyrosination/tyrosination cycle is vital for the cell and the organism as a whole. Massive (abnormal) detyrosination is observed in a number of severe cancer types and in cardiovascular diseases.

The identification and characterisation of TCP was therefore a major objective for researchers wishing to understand the physiological function of α-tubulin detyrosination and to determine the consequences of its inhibition.

To isolate TCP, the researchers monitored its activity, used conventional biochemical techniques, and collaborated with chemists from Stanford University, who developed a small molecule inhibiting its activity. This molecule was then used as bait to "trap" the elusive enzyme.

In the end, not one, but two enzymes were discovered. VASH1 and VASH2 were already known to scientists, but they had not previously been associated with the cytoskeleton. The researchers demonstrated that, when associated with a partner protein called SVBP, VASH1 and VASH2 can cause detyrosination of α-tubulin. To demonstrate this activity, the team inhibited the expression of VASH1/2 (or their partner SVBP) in neurons. In both cases, a very strong decline in the level of detyrosination of α-tubulin was observed along with altered neuronal morphology. The researchers went on to demonstrate that these enzymes are also involved in the development of the cerebral cortex.

Prospects for the fight against cancer

Thus, forty years after the first evidence of α-tubulin detyrosination was presented, the enzymes responsible have been identified. Scientists are now hoping that, by modulating TCP activity and improving their knowledge of the detyrosination/tyrosination cycle, they will be able to develop new treatments for specific cancers, and to gain a better understanding of its cerebral and cardiac functions.


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Materials provided by CEA. Note: Content may be edited for style and length.


Journal Reference:

  1. Chrystelle Aillaud, Christophe Bosc, Leticia Peris, Anouk Bosson, Pierre Heemeryck, Juliette Van Dijk, Julien Le Friec, Benoit Boulan, Frédérique Vossier, Laura E. Sanman, Salahuddin Syed, Neri Amara, Yohann Couté, Laurence Lafanechère, Eric Denarier, Christian Delphin, Laurent Pelletier, Sandrine Humbert, Matthew Bogyo, Annie Andrieux, Krzysztof Rogowski, Marie-Jo Moutin. Vasohibins/SVBP are tubulin carboxypeptidases (TCP) that regulate neuron differentiation. Science, 2017; eaao4165 DOI: 10.1126/science.aao4165

Cite This Page:

CEA. "Tubulin detyrosination: Crucial enzyme unveiled at last." ScienceDaily. ScienceDaily, 4 December 2017. <www.sciencedaily.com/releases/2017/12/171204150730.htm>.
CEA. (2017, December 4). Tubulin detyrosination: Crucial enzyme unveiled at last. ScienceDaily. Retrieved March 28, 2024 from www.sciencedaily.com/releases/2017/12/171204150730.htm
CEA. "Tubulin detyrosination: Crucial enzyme unveiled at last." ScienceDaily. www.sciencedaily.com/releases/2017/12/171204150730.htm (accessed March 28, 2024).

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