Giorgio Maccari scite author profile

The pore site in microtubules has been studied with the use of Hexaflutax, a fluorescent probe derived from paclitaxel. The compound is active in cells with similar effects to paclitaxel, indicating that the pore may be a target to microtubule stabilizing agents. While other taxanes bind microtubules in a monophasic way, thus indicating a single type of sites, Hexaflutax association is biphasic. Analysis of the phases indicates that two different binding sites are detected, reflecting two different modes of binding, which could arise from different arrangements of the taxane or fluorescein moieties in the pore. Association of the 4-4-20 antifluorescein monoclonal antibody-Hexaflutax complex to microtubules remains biphasic, thus indicating that the two phases observed arise from two different poses of the taxane moiety.

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Possible binding site for paclitaxel at microtubule pores

Magnani

Maccari

Andreu

et al. 2009

The FEBS Journal

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Taxanes and other microtubule‐stabilizing agents comprise an important class of anticancer drugs. It is well known that taxanes act by binding to β‐tubulin on the lumenal side of microtubules. However, experimental evidence obtained in recent years led to the hypothesis of an external site on the microtubule wall to which taxanes and other microtubule‐stabilizing agents could bind before being internalized to their lumenal site. In the present study, different computational techniques were combined to explore the possible existence of an exposed and easily accessible binding site for microtubule‐stabilizing agents on the outside of microtubules. The results obtained indicate that the conformational rearrangement of the H6–H7 hoop of β‐tubulin can form a suitable pocket on the outer microtubule surface, and that paclitaxel can efficaciously interact with this newly‐proposed binding site.

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Raft component GD3 associates with tubulin following CD95/Fas ligation

et al. 2009

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In a previous investigation, we demonstrated that after CD95/Fas triggering, raft-associated GD3 ganglioside, normally localized at the plasma membrane of T cells, can be detected in mitochondria, where they contribute to apoptogenic events. Here, we show the association of the glycosphingolipid GD3 with microtubular cytoskeleton at very early time points following Fas ligation. This was assessed by different methodological approaches, including fluorescence resonance energy transfer, immunoelectron microscopy, and coimmunoprecipitation. Furthermore, docking analysis also showed that GD3 has a high affinity for the pore formed by 4 tubulin heterodimers (type I pore), thus suggesting a possible direct interaction between tubulin and GD3. Finally, time-course analyses indicated that the relocalization of GD3 to the mitochondria was time related with the alterations of the mitochondrial membrane potential. Hence, microtubules could act as tracks for ganglioside redistribution following apoptotic stimulation, possibly contributing to the mitochondrial alterations leading to cell death.

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Identification, synthesis and biological activity of alkyl-guanidine oligomers as potent antibacterial agents

Zamperini

Maccari

Deodato

et al. 2017

Sci Rep

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In the last two decades, the repertoire of clinically effective antibacterials is shrinking due to the rapidly increasing of multi-drug-resistant pathogenic bacteria. New chemical classes with innovative mode of action are required to prevent a return to the pre-antibiotic era. We have recently reported the identification of a series of linear guanidine derivatives and their antibacterial properties. A batch of a promising candidate for optimization studies (compound 1) turned out to be a mixture containing two unknown species with a better biological activity than the pure compound. This serendipitous discovery led us to investigate the chemical nature of the unknown components of the mixture. Through MS analysis coupled with design and synthesis we found that the components were spontaneously generated oligomers of the original compound. Preliminary biological evaluations eventually confirmed the broad-spectrum antibacterial activity of this new family of molecules. Interestingly the symmetric dimeric derivative (2) exhibited the best profile and it was selected as lead compound for further studies.

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Synthesis, biological evaluation and molecular modeling of 1,2,3-triazole analogs of combretastatin A-1

Akselsen

Odlo

Cheng

et al. 2012

Bioorganic & Medicinal Chemistry

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Giorgio Maccari

Probing the Pore Drug Binding Site of Microtubules with Fluorescent Taxanes: Evidence of Two Binding Poses

Possible binding site for paclitaxel at microtubule pores

Raft component GD3 associates with tubulin following CD95/Fas ligation

Identification, synthesis and biological activity of alkyl-guanidine oligomers as potent antibacterial agents

Synthesis, biological evaluation and molecular modeling of 1,2,3-triazole analogs of combretastatin A-1

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