Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistencia

Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistencia

The aminoglycoside-aminocyclitol antibiotics constitute one of the antibacterial agent families with greater activity upon aerobic Gram-negative bacilli. These compounds are formed by the combination of one amino-cyclic alcohol (aminocyclitol) and aminosaccharides (aminoglycosides) linked by glycosidic bonds. The strong bactericidal activity exhibited for these compounds is not only explained by their ability to inhibit the protein synthesis, but also by pleiotropic effect altering the permeability of cytoplasmatic membrane. The penetration of these antibiotics to the bacterial cells is mediated by three well defined phases, being the two latest dependant of the proton-motive force. This fact explains that this kind of compounds have no antibacterial activity upon anaerobic bacteria. Bacterial resistance to aminoglycosides is mainly due to aminoglycoside-modifying enzymes (AME), which are commonly encoded by extrachromosomal genetic elements as are plasmids and transposons. Nevertheless, new mechanisms of resistance and genetic elements participating in the resistance to these compounds have been identified. Thus, recently the methylation of the 16S rRNA binding the aminoglycosides has been described. On the other hand, the gene cassettes acquire an increasing importance, because they can host a varied of families of antibiotic resistance genes, including the aminoglycoside-aminocyclitols. These gene cassettes are associated to integrons, which are able to integrate and express these antibiotic resistance determinants.

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Main Authors: Mella M.,Sergio, Sepúlveda A.,Marcela, González R.,Gerardo, BelloT.,Helia, Domínguez Y.,Mariana, Zemelman Z.,Raúl, Ramírez G.,César
Format: Digital revista
Language:Spanish / Castilian
Published: Sociedad Chilena de Infectología 2004
Online Access:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0716-10182004000400007
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spelling oai:scielo:S0716-101820040004000072005-04-14Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistenciaMella M.,SergioSepúlveda A.,MarcelaGonzález R.,GerardoBelloT.,HeliaDomínguez Y.,MarianaZemelman Z.,RaúlRamírez G.,César Aminoglucósidos Resistencia Integrón The aminoglycoside-aminocyclitol antibiotics constitute one of the antibacterial agent families with greater activity upon aerobic Gram-negative bacilli. These compounds are formed by the combination of one amino-cyclic alcohol (aminocyclitol) and aminosaccharides (aminoglycosides) linked by glycosidic bonds. The strong bactericidal activity exhibited for these compounds is not only explained by their ability to inhibit the protein synthesis, but also by pleiotropic effect altering the permeability of cytoplasmatic membrane. The penetration of these antibiotics to the bacterial cells is mediated by three well defined phases, being the two latest dependant of the proton-motive force. This fact explains that this kind of compounds have no antibacterial activity upon anaerobic bacteria. Bacterial resistance to aminoglycosides is mainly due to aminoglycoside-modifying enzymes (AME), which are commonly encoded by extrachromosomal genetic elements as are plasmids and transposons. Nevertheless, new mechanisms of resistance and genetic elements participating in the resistance to these compounds have been identified. Thus, recently the methylation of the 16S rRNA binding the aminoglycosides has been described. On the other hand, the gene cassettes acquire an increasing importance, because they can host a varied of families of antibiotic resistance genes, including the aminoglycoside-aminocyclitols. These gene cassettes are associated to integrons, which are able to integrate and express these antibiotic resistance determinants.info:eu-repo/semantics/openAccessSociedad Chilena de InfectologíaRevista chilena de infectología v.21 n.4 20042004-12-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0716-10182004000400007es10.4067/S0716-10182004000400007
institution SCIELO
collection OJS
country Chile
countrycode CL
component Revista
access En linea
databasecode rev-scielo-cl
tag revista
region America del Sur
libraryname SciELO
language Spanish / Castilian
format Digital
author Mella M.,Sergio
Sepúlveda A.,Marcela
González R.,Gerardo
BelloT.,Helia
Domínguez Y.,Mariana
Zemelman Z.,Raúl
Ramírez G.,César
spellingShingle Mella M.,Sergio
Sepúlveda A.,Marcela
González R.,Gerardo
BelloT.,Helia
Domínguez Y.,Mariana
Zemelman Z.,Raúl
Ramírez G.,César
Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistencia
author_facet Mella M.,Sergio
Sepúlveda A.,Marcela
González R.,Gerardo
BelloT.,Helia
Domínguez Y.,Mariana
Zemelman Z.,Raúl
Ramírez G.,César
author_sort Mella M.,Sergio
title Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistencia
title_short Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistencia
title_full Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistencia
title_fullStr Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistencia
title_full_unstemmed Aminoglucósidos-aminociclitoles: Características estructurales y nuevos aspectos sobre su resistencia
title_sort aminoglucósidos-aminociclitoles: características estructurales y nuevos aspectos sobre su resistencia
description The aminoglycoside-aminocyclitol antibiotics constitute one of the antibacterial agent families with greater activity upon aerobic Gram-negative bacilli. These compounds are formed by the combination of one amino-cyclic alcohol (aminocyclitol) and aminosaccharides (aminoglycosides) linked by glycosidic bonds. The strong bactericidal activity exhibited for these compounds is not only explained by their ability to inhibit the protein synthesis, but also by pleiotropic effect altering the permeability of cytoplasmatic membrane. The penetration of these antibiotics to the bacterial cells is mediated by three well defined phases, being the two latest dependant of the proton-motive force. This fact explains that this kind of compounds have no antibacterial activity upon anaerobic bacteria. Bacterial resistance to aminoglycosides is mainly due to aminoglycoside-modifying enzymes (AME), which are commonly encoded by extrachromosomal genetic elements as are plasmids and transposons. Nevertheless, new mechanisms of resistance and genetic elements participating in the resistance to these compounds have been identified. Thus, recently the methylation of the 16S rRNA binding the aminoglycosides has been described. On the other hand, the gene cassettes acquire an increasing importance, because they can host a varied of families of antibiotic resistance genes, including the aminoglycoside-aminocyclitols. These gene cassettes are associated to integrons, which are able to integrate and express these antibiotic resistance determinants.
publisher Sociedad Chilena de Infectología
publishDate 2004
url http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0716-10182004000400007
work_keys_str_mv AT mellamsergio aminoglucosidosaminociclitolescaracteristicasestructuralesynuevosaspectossobresuresistencia
AT sepulvedaamarcela aminoglucosidosaminociclitolescaracteristicasestructuralesynuevosaspectossobresuresistencia
AT gonzalezrgerardo aminoglucosidosaminociclitolescaracteristicasestructuralesynuevosaspectossobresuresistencia
AT bellothelia aminoglucosidosaminociclitolescaracteristicasestructuralesynuevosaspectossobresuresistencia
AT dominguezymariana aminoglucosidosaminociclitolescaracteristicasestructuralesynuevosaspectossobresuresistencia
AT zemelmanzraul aminoglucosidosaminociclitolescaracteristicasestructuralesynuevosaspectossobresuresistencia
AT ramirezgcesar aminoglucosidosaminociclitolescaracteristicasestructuralesynuevosaspectossobresuresistencia
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