Macrolide Antibiotics: Binding Site, Mechanism of Action, Resistance

Recent studies have documented the biochemical and clinical efficacy of novel aromatase inhibitors. These drugs belong to one of two classes: non-steroidal and steroidal drugs, known to be different with respect to enzyme binding site and their effect on the aromatase enzyme. Several studies have now confirmed a lack of complete cross-resistance to drugs of the two classes. While some of these observations may be explained by a more potent aromatase inhibition caused by some aormatase inhibitors compared to others, this is not always the case. Such observations therefore focus on the importance of alternative mechanism of action like a differential influence on the intratumour aromatase enzyme by the different drugs. Current and future studies should aim at exploring the mechanism of cross-resistance and evaluate optimal use of different aromatase inhibitors in sequence or probably, also in concert.

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Crystallographic characterization of the ribosomal binding site and molecular mechanism of action of Hygromycin A

Nucleic Acids Research ◽

10.1093/nar/gkv975 ◽

2015 ◽

pp. gkv975 ◽

Cited By ~ 3

Author(s):

Tatsuya Kaminishi ◽

Andreas Schedlbauer ◽

Attilio Fabbretti ◽

Letizia Brandi ◽

Borja Ochoa-Lizarralde ◽

...

Keyword(s):

Binding Site ◽

Molecular Mechanism ◽

Mechanism Of Action ◽

Molecular Mechanism Of Action ◽

Ribosomal Binding Site

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Characterization of Glu350as a Critical Residue Involved in the N-Terminal Amine Binding Site of Aminopeptidase N (EC 3.4.11.2): Insights into Its Mechanism of Action

Biochemistry ◽

10.1021/bi971705p ◽

1998 ◽

Vol 37 (2) ◽

pp. 686-692 ◽

Cited By ~ 80

Author(s):

Nathalie Luciani ◽

Cynthia Marie-Claire ◽

Emmanuel Ruffet ◽

Ann Beaumont ◽

Bernard P. Roques ◽

...

Keyword(s):

Binding Site ◽

Mechanism Of Action ◽

Aminopeptidase N ◽

Critical Residue

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Combrestatin derivatives as microtubular assembly inhibitors at colchicine binding site

Anti-Infective Agents ◽

10.2174/2211352519666211119090754 ◽

2021 ◽

Vol 19 ◽

Author(s):

Adarsh Sahu

Keyword(s):

Binding Site ◽

Mechanism Of Action ◽

Molecular Target ◽

Vinca Alkaloids ◽

Microtubule Inhibitor ◽

Colchicine Binding Site ◽

Microtubules Inhibitors

: Colchicine binding site in microtubules is among the most flourishing target for anticancer remedy. Microtubule inhibitor drugs, including combrestatin phosphate, paclitaxel and Vinca alkaloids, were formerly considered to exert their activity primarily by increasing or decreasing the cellular microtubule mass. This review describes the microtubular assembly along with the combrestatin derivatives as microtubules inhibitors, the structures of compounds known to interact with colchicines binding site, and their possible mechanism of action. Additionally, we have also discussed the utility of other heterocyclic rings and their combrestatin derivatives in treating cancer. Colchicines binding site represents a stimulating new molecular target in the design of combrestatin drugs.

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Mechanism of malarial haem detoxification inhibition by chloroquine

Biochemical Journal ◽

10.1042/bj3550333 ◽

2001 ◽

Vol 355 (2) ◽

pp. 333-338 ◽

Cited By ~ 26

Author(s):

Amit V. PANDEY ◽

Himani BISHT ◽

Vinod K. BABBARWAL ◽

Jaya SRIVASTAVA ◽

Kailash C. PANDEY ◽

...

Keyword(s):

Drug Development ◽

Binding Site ◽

Mechanism Of Action ◽

Malaria Parasite ◽

Repeat Sequence ◽

Binding Studies ◽

Native Page ◽

Absorbance Spectroscopy ◽

Haem Detoxification ◽

Detoxification Pathway

The haem detoxification pathway of the malaria parasite Plasmodiumfalciparum is a potential biochemical target for drug development. Free haem, released after haemoglobin degradation, is polymerized by the parasite to form haemozoin pigment. Plasmodiumfalciparum histidine-rich protein-2 (Pfhrp-2) has been implicated as the catalytic scaffold for detoxification of haem in the malaria parasite. Previously we have shown that a hexapeptide repeat sequence (Ala-His-His-Ala-Ala-Asp), which appears 33 times in Pfhrp-2, may be the major haem binding site in this protein. The haem binding studies carried out by ourselves indicate that up to 18 equivalents of haem could be bound by this protein with an observed Kd of 0.94µM. Absorbance spectroscopy provides evidence that chloroquine is capable of extracting haem bound to Pfhrp-2. This was supported by the Kd value, of 37nM, observed for the haem-chloroquine complex. The native PAGE studies reveal that the formation of the haem-Pfhrp-2 complex is disrupted by chloroquine. These results indicate that chloroquine may be acting by inhibiting haem detoxification/binding to Pfhrp-2. Moreover, the higher affinity of chloroquine for haem than Pfhrp-2 suggests a possible mechanism of action for chloroquine; it may remove the haem bound to Pfhrp-2 and form a complex that is toxic to the parasite.

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