Extended-spectrum [beta]-lactamase--producing Enterobacteriaceae, Central African Republic.To the Editor: Since the early 1980s, extended-spectrum [beta]-lactamases (ESBLs) have been the largest source of resistance to broad-spectrum oxyimino-cephalosporins among Enterobacteriaceae (1). Molecular analysis techniques suggest that many ESBLs are derived from mutations in TEM-1, TEM-2, and SHV-1 [beta]-lactamases and that these ESBLs can hydrolyze the extended-spectrum cephalosporins (particularly ceftazidime) and aztreonam aztreonam /az·tre·o·nam/ (az´tre-o-nam?) a narrow-range monobactamantibiotic effective against aerobic gram-negative bacteria. az·tre·o·nam (  z-tr (1). Members of a new group of ESBLs have been recently identified (1). Among them, CTX-M-type ESBLs are rapidly expanding and are derived from chromosomal class A [beta]-lactamases of Kluyvera spp. (1,2). The CTX-M enzymes are not related to TEM or SHV enzymes, as they share only 40% identity with these ESBLs (2). These ESBLS are usually characterized by a higher level of resistance to cefotaxime cefotaxime /cef·o·tax·ime/ (-tak´sem) a semisynthetic, broad-spectrum, ß–resistant, third-generation cephalosporin effective against a wide variety of gram-negative bacteria but less active against gram-positive cocci than are the first- and second-generation cephalosporins; used as the sodium salt. than ceftazidime, except for CTX-M-19 (2). Most organisms that harbor ESBLs are also resistant to other classes of antimicrobial drugs, such as aminoglycosides aminoglycoside /ami·no·gly·co·side/ (-gli´ko-sid) any of a group of antibacterial antibiotics (e.g., streptomycin, gentamicin) derived from various species of Streptomyces or produced synthetically; they interfere with the function of bacterial ribosomes., fluoroquinolones, chloramphenicol, and tetracyclines (1,2). Reports concerning the existence of ESBL-producing Enterobacteriaceae in sub-Saharan Africa are scarce. We therefore conducted a study in the Central African Republic to determine the frequency of ESBLs in Enterobacteriaceae isolated at the Institut Pasteur de Bangui Bangui (bäng-gē`), city (1994 est. pop. 560,000), capital of the Central African Republic, a port on the Ubangi River, near the Congo (Kinshasa) border. Bangui is an administrative, trade, and communications center. Its manufactures include textiles, food products, beer, shoes, and soap. and to characterize their [bla.sub.TEM], [bla.sub.SHV], and [bla.sub.CTX-M] genes. From January 2003 to March 2005, all Enterobacteriaceae isolated from human specimens at the Institut Pasteur de Bangui were screened for ESBLs. Antimicrobial drug susceptibility was determined by using the disk diffusion method (Bio-Rad, Marnes la Coquette, France) on Mueller-Hinton agar (MHA) and interpreted according to the recommendations of the Comite de l'Antibiogramme de la Societe Francaise de Microbiologie (CASFM) (www.sfm.asso.fr). ESBL-producing Enterobacteriaceae were selected by the following criteria: susceptibility to cefoxitin; decreased susceptibility to cefotaxime (30 [micro]g), ceftazidime (30 [micro]g), or cefepime cefepime /cef·e·pime/ (sef´epem) a fourth-generation cephalosporin antibiotic; used as the hydrochloride salt. (30 [micro]g) (zone diameter <21 mm); and enhanced susceptibility in the presence of clavulanic acid by the double disk synergy test (3). For suspected ESBLs, the MICs of broad-spectrum cephalosporins were determined by using the agar dilution method. We screened 450 Enterobacteriaceae for ESBLs during the study. We isolated and identified 17 (4%) ESBL-producing strains (Table). These strains were associated with urinary tract infection, pneumonia in an AIDS patient, wound infection, vaginal or intestinal colonization, and ear infection. We found that 11 isolates were more resistant to cefotaxime (MIC [greater than or equal to] 256 [micro]g/mL) than to ceftazidime (MIC [less than or equal to] 128 [micro]g/mL), which suggests CTX-M-type enzymes. Enterobacteriaceae strains that harbor ESBLs were frequently associated with resistance to aminoglycosides and ciprofloxacin (Table). The conjugal transfer of the resistance determinants was carried out in trypticase soy (TS) broth with rifampin-resistant Escherichia coli J53-2 as the recipient. Mating broths were incubated at 37[degrees]C for 18 h. Transconjugants were selected on MHA plates containing rifampin (250 [micro]g/mL) and cefotaxime (2.5 [micro]g/mL). If conjugal transfer failed, plasmid DNA was extracted from donors with the Qiagen Plasmid Mini Kit (Qiagen, Courtaboeuf, France); 20 [micro]L of E. coli DH10B cells were transformed with plasmid DNA by electroporation according to the manufacturer's instructions (Bio-Rad). Transformants were incubated for 1.5 h at 37[degrees]C in TS broth and then plated on MHA plates supplemented with 2.5 [micro]g/mL cefotaxime. Plasmid-encoded [beta]-lactamase genes were detected on clinical isolates and their tranconjugants or transformants by polymerase chain reaction with oligonucleotide primer sets specific for the [bla.sub.TEM], [bla.sub.SHV], and [bla.sub.CTX-M] genes (4). PCR assays were performed on total DNA extracted by using the commercial Qiagen DNA Mini Kit. The 3 [beta]-lactamase genes were detected in different clinical isolates (Table). PCR results showed that the strains were harboring [greater than or equal to] 2 different types of [beta]-lactamases. Plasmid-encoded [beta]-lactamase genes were characterized by direct DNA sequencing with PCR primers. The nucleotide sequences were analyzed by the BLASTN (nucleotide basic local alignment search tool) program. For ESBLs, the gene types (SHV-2a, SHV-12, CTX-M-15, and CTX-M-3) were identified from different Enterobacteriaceae (Table). Only 1 strain (Enterobacter aerogenes) harbored 2 different ESBLs (CTX-M-3 and SHV-12). We identified TEM- 1 and CTX-M 15 enzymes, which are the most prevalent [beta]-lactamases detected in our strains. ESBL-producing Enterobacteriaceae have been previously described in South Africa (5), Kenya (6), Senegal (7), Cameroon (8), Tanzania (9), and Nigeria (10). As described in these countries, we found that CTX-M-15, SHV-2a, and SHV-12 were the most prevalent enzymes. CTX-M-15, the most recently described ESBL type, is particularly common in Bangui and seems to be closely related to E. coli, as was previously observed in Tanzania (9). This finding is also the first report of CTXM-3 in sub-Saharan Africa. Multidrug resistance profiles involving non-[beta]-lactam antimicrobial drugs coselected these ESBL-producing isolates. We suggest that the misuse of antimicrobial drugs in the Central African Republic and the migratory flux of regional populations could result in emergence and selection of these ESBL phenotypes in the community. We could not establish a relationship between the different strains isolated in hospitalized and ambulatory patients. Because of the implications for treating such infections, particularly in developing countries, the spread of ESBL-producing Enterobacteriaceae merits close surveillance in the Central African Republic. This work was financed by grants from Institut Pasteur de Bangui, Faculte de Medecine Pierre et Marie Curie, Universite Pierre et Marie Curie (Paris VI), and the European Community, contract LSHM-CT 2003-503335. References (1.) Paterson DL, Bonomo RA. Extended-spectrum [beta]-lactamases: a clinical update. Clin Microbiol Rev. 2005; 18:657-86. (2.) Bonnet R. Growing group of extended-spectrum [beta]-lactamases: the CTX-M enzymes. Antimicrob Agents Chemother. 2004;48: 1-14. (3.) Jarlier V, Nicolas MH, Fouruier G, Phillipon A. Extended broad-spectrum [beta]-lactamases conferring transferable resistance to newer [beta]-lactam agents in Enterobaeteriaceae: hospital prevalence and susceptibility patterns. Rev Infect Dis. 1988;10:867-78. (4.) Eckert C, Gautier V, Saladin-Allard M, Hidri N, Verdet C, Ould-Hocine Z, et al. Dissemination of CTX-M-type [beta]-lactamases among clinical isolates of Enterobacteriaceae in Paris, France. Antimicrob Agents Chemother. 2004;48:1249-54. (5.) Pitout JDD, Thomson KS, Hanson ND, Ehrhardt AF, Moland ES, Sanders CC. [beta]-lactamases responsible for resistance to expanded-spectrum cephalosporins in Klebsiella pneumoniae, Escherichia coli, and Proteus mirabilis isolates recovered in South Africa. Antimicrob Agents Chemother. 1998;42:1350-4. (6.) Kariuki S, Corkill JE, Revathi G, Musoke R, Hart CA. Molecular characterization of a novel plasmid-encoded cefotaximase (CTX-M-12) found in clinical isolates from Kenya. Antimicrob Agents Chemother. 2001;45:2141-3. (7.) Weill FX, Perrier-Gros-Claude JD, Demartin M, Coignard S, Grimont P. Characterization of extended-spectrum [beta]-lactamase (CTX-M-15) producing strains of Salmonella enterica isolated in France and Senegal. FEMS Microbiol Lett. 2004;238:353-8. (8.) Gangoue-Pieboji J, Miriagou V, Vourli S, Tzelepi E, Ngassam P, Tzouvelekis LS. Emergence of CTX-M-15-producing enterobacteria in Cameroon and characterization of a [bla.sub.CTX-M-15]-carrying element. Antimicrob Agents Chemother. 2005; 49:441-3. (9.) Blomberg B, Jureen R, Manji KP, Tamim BS, Mwakagile DSM, Urassa WK, et al. High rate of fatal cases of pediatric septicemia caused by gram-negative bacteria with extended-spectrum beta-lactamases be·ta-lac·ta·mase (b   t -lk in Dares Salaam, Tanzania. J Clin Microbiol. 2005;43:745-9. (10.) Soge OO, Queenan AM, Ojo KK, Adeniyi BA, Roberts MC. CTX-M-15 extended-spectrum [beta]-lactamase from Nigerian Klebsiella pneumoniae. J Antimicrob Chemother. Epub 2005 Nov 30. Thierry Frank, * Guillaume Arlet, ([dagger]) ([double dagger]) Valerie Gautier, ([dagger]) Antoine Talarmin, * and Raymond Bercion * * Institut Pasteur de Bangui, Bangui, Central African Republic; ([dagger]) Universite Pierre et Marie Curie (Paris VI), Paris, France; and ([double dagger]) Hopital Tenon AP-HP AP-HP - Assistance Publique - Hôpitaux de Paris, Paris, France Address for correspondence: Guillaume Arlet, Service de Bacteriologie-Hygiene, Hopital Tenon, AP-HP, rue de la Chine, 75970 Paris CEDEX 20, France; email: guillaume.arlet@ tnn.ap-hop-paris.fr |
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