ÿþ<HTML><HEAD><TITLE>25º Congresso Brasileiro de Microbiologia </TITLE><link rel=STYLESHEET type=text/css href=css.css></HEAD><BODY aLink=#ff0000 bgColor=#FFFFFF leftMargin=0 link=#000000 text=#000000 topMargin=0 vLink=#000000 marginheight=0 marginwidth=0><table align=center width=700 cellpadding=0 cellspacing=0><tr><td align=left bgcolor=#cccccc valign=top width=550><font face=arial size=2><strong><font face=Verdana, Arial, Helvetica, sans-serif size=3><font size=1>25º Congresso Brasileiro de Microbiologia </font></font></strong><font face=Verdana size=1><b><br></b></font><font face=Verdana, Arial,Helvetica, sans-serif size=1><strong> </strong></font></font></td><td align=right bgcolor=#cccccc valign=top width=150><font face=arial size=2><strong><font face=Verdana, Arial, Helvetica, sans-serif size=1><font  size=1>ResumoID:1651-1</font></em></font></strong></font></td></tr><tr><td colspan=2><br><br><table align=center width=700><tr><td>Área: <b>Microbiologia Clinica ( Divisão A )</b><p align=justify><strong><H2><FONT SIZE=3>PRESENCE OF <EM>BLA</EM><SUB>TEM-116</SUB> GENE IN ENVIRONMENTAL ISOLATES OF <EM>AEROMONAS HYDROPHILA </EM>AND <EM>AEROMONAS JANDAEI </EM>FROM BRAZIL</FONT></H2></strong></p><p align=justify><b><u>Livia Balsalobre </u></b>  (<i>FSP-USP</i>); <b>Milena  Dropa </b>  (<i>FSP-USP</i>); <b>Danielle  Escudeiro </b>  (<i>FSP-USP</i>); <b>Nilton  Lincopan </b>  (<i>FCF-USP</i>); <b>Elsa  Mamizuka </b>  (<i>FCF-USP</i>); <b>Glavur Rogério  Matté </b>  (<i>FSP-USP</i>); <b>Maria Helena  Matté </b>  (<i>FSP-USP</i>)<br><br></p><b><font size=2>Resumo</font></b><p align=justify class=tres><font size=2><P class=MsoNormal style="MARGIN: 0cm 0cm 0pt; TEXT-ALIGN: justify; mso-layout-grid-align: none"><SPAN lang=EN-US style="mso-ansi-language: EN-US">Members of the genus <SPAN style="mso-bidi-font-style: italic"><EM>Aeromonas</EM> h</SPAN>ave been associated with a wide range of illnesses in humans, including gastrointestinal disorders and systemic infections in both immunocompromised and healthy hosts. Several studies have shown the presence of <EM>Aeromonas</EM> spp. in food and drinking water samples, suggesting that these sources may act as dissemination vehicles of the human pathogen, with implications in the public health. Furthermore, it is known that <EM>Aeromonas</EM> spp. are among the few microorganisms harboring different chromosomal beta-lactamase genes, including <SPAN style="mso-bidi-font-style: italic"><EM>cphA</EM></SPAN> (also named <EM>imiH</EM>), <EM>cep<SPAN style="mso-bidi-font-style: italic">H</SPAN></EM> and <EM>amp<SPAN style="mso-bidi-font-style: italic">H</SPAN></EM>, encoding class B, C and D beta</SPAN><SPAN lang=EN-US style="COLOR: black; mso-ansi-language: EN-US">-lactamases</SPAN><SPAN lang=EN-US style="mso-ansi-language: EN-US">, respectively. The aim of this study was to investigate the presence and phenotypic expression of <EM>bla</EM><SUB>TEM</SUB>, <EM>bla</EM><SUB>SHV</SUB>, and <EM>bla</EM><SUB>CTX-M</SUB> ESBL-encoding genes in 87 environmental water isolates of <EM><STRONG><SPAN style="FONT-WEIGHT: normal">Aeromonas</SPAN></STRONG> hydrophila</EM> (n=41) and <STRONG><SPAN style="FONT-WEIGHT: normal">Aeromonas</SPAN></STRONG> <EM>jandaei</EM> (n=46). The identification of <EM>Aeromonas</EM> species was performed as previously described. All isolates were screened for ESBL production by a synergy test using clavulanic acid (<SPAN style="COLOR: black">amoxicillin-<SPAN style="FONT-WEIGHT: normal; mso-bidi-font-weight: bold">clavulanate disk</SPAN>, 20/10 µg) </SPAN>and cloxacillin (200 µg/ml-containing Mueller-Hinton agar plates) as ESBL and AmpC inhibitors, respectively, and ceftazidime, cefpodoxime and cefotaxime-containing disks as ESBL substrates. Presence of ESBL-encoding genes was evaluated by PCR, and plasmid extraction was carried out using the commercial kit Wizard Plus SV Miniprep (Promega-USA). Also the search for class 1 integron was carried out according to previous literature. Although production of ESBL was not confirmed by phenotypic methods, and no amplification of the <EM>bla</EM><SUB>SHV</SUB> and <EM>bla</EM><SUB>CTX-M</SUB> genes was observed, the presence of the <EM>bla</EM><SUB>TEM</SUB> gene was verified in 97.6% (40/41) and 85% (39/46) of <EM>A. hydrophila</EM> and <EM>A. jandaei</EM> isolates, respectively. Nucleotide sequencing showed 100% sequence identity with the <EM>bla</EM><SUB>TEM-116</SUB> gene (GenBank accession numbers <SPAN class=MsoHyperlink><SPAN style="COLOR: windowtext">FJ767900 to FJ767909)</SPAN></SPAN>. Plasmids were found in 24.4% (10/41) of <EM>A. hydrophila</EM> and in 34.9% (16/46) of <EM>A. jandaei</EM> isolates, suggesting no association between plasmid occurrence and presence of <EM>bla</EM><SUB>TEM</SUB> genes. Also, the association of <EM>bla</EM><SUB>TEM </SUB>genes with the occurrence of class 1 integrons was not observed.<?xml:namespace prefix = o ns = "urn:schemas-microsoft-com:office:office" /><o:p></o:p></SPAN></P></font></p><br><b>Palavras-chave: </b>&nbsp;Aeromonas, blaTEM-116, ESBL, water samples</td></tr></table></tr></td></table></body></html>