Mutation analysis of mycobacterial rpoB genes and rifampin resistance using recombinant Mycobacterium smegmatis

Rifampin is a major drug used to treat leprosy and tuberculosis. The rifampin resistance of Mycobacterium leprae and Mycobacterium tuberculosis results from a mutation in the rpoB gene, encoding the β subunit of RNA polymerase. A method for the molecular determination of rifampin resistance in these two mycobacteria would be clinically valuable, but the relationship between the mutations and susceptibility to rifampin must be clarified before its use. Analyses of mutations responsible for rifampin resistance using clinical isolates present some limitations. Each clinical isolate has its own genetic variations in some loci other than rpoB, which might affect rifampin susceptibility. For this study, we constructed recombinant strains of Mycobacterium smegmatis carrying the M. leprae or M. tuberculosis rpoB gene with or without mutation and disrupted their own rpoB genes on the chromosome. The rifampin and rifabutin susceptibilities of the recombinant bacteria were measured to examine the influence of the mutations. The results confirmed that several mutations detected in clinical isolates of these two pathogenic mycobacteria can confer rifampin resistance, but they also suggested that some mutations detected in M. leprae isolates or rifampin-resistant M. tuberculosis isolates are not involved in rifampin resistance.     

武汉地区耐利福平结核分枝杆菌rpoB基因突变分析

摘要：目的：探讨武汉地区结核分枝杆菌（MTB）利福平耐药株rpoB基因的突变特征。 方法：对76例MTB临床分离株包括rpoB核心区域81 bp碱基在内的428 bp碱基进行PCR测定,并进行DNA序列分析。 结果：76例临床分离MTB中利福平耐药株56例,敏感株20例。耐药株中92.9%（52/56）存在突变,共涉及10个密码子的18种突变类型。 531、526为常见突变位点,其突变率分别为57.7%(30/52)、19.2%(10/52);联合突变率为13.5%（7/52）;同时发现了509位（AGC→AGA）新的突变类型和国内少见的517位CAG缺失类型。 结论：rpoB基因突变在武汉地区利福平耐药MTB中广泛存在,并存在新的突变位点。     

Rifampin resistance in Mycobacterium kansasii is associated with rpoB mutations

Rifampin is the most potent drug used in the treatment of disease due to Mycobacterium kansasii. A 69-bp fragment of rpoB, the gene that encodes the beta subunit of the bacterial RNA polymerase, was sequenced and found to be identical in five rifampin-susceptible clinical isolates of M. kansasii. This sequence showed 87% homology with the Mycobacterium tuberculosis gene, with an identical deduced amino acid sequence. In contrast, missense mutations were detected in the same fragment amplified from five rifampin-resistant isolates. A rifampin-resistant strain generated in vitro also harbored an rpoB gene missense mutation that was not present in the parent isolate. All mutations detected (in codons 513, 526, and 531) have previously been described in rifampin-resistant M. tuberculosis isolates. Rifampin MICs determined by E-test were <1 mg/liter for all rifampin-susceptible isolates and >256 mg/liter for all rifampin-resistant ones. In addition, four of the five rifampin-resistant isolates were also resistant to rifabutin. We have thus shown a strong association between rpoB gene missense mutations and rifampin resistance in M. kansasii. Although our results are derived from a small number of isolates and confirmation with larger numbers would be useful, they strongly suggest that mutations within rpoB form the molecular basis of rifampin resistance in this species.     

The rpoB gene of Mycobacterium tuberculosis.

A portion of the Mycobacterium tuberculosis gene encoding the beta subunit of RNA polymerase (rpoB) was amplified by PCR using degenerate oligonucleotides and used as a hybridization probe to isolate plasmid clones carrying the entire rpoB gene of M. tuberculosis H37Rv, a virulent, rifampin-susceptible strain. Sequence analysis of a 5,084-bp SacI genomic DNA fragment revealed a 3,534-bp open reading frame encoding an 1,178-amino-acid protein with 57% identity with the Escherichia coli beta subunit. This SacI fragment also carried a portion of the rpoC gene located 43 bp downstream from the 3' end of the rpoB open reading frame; this organization is similar to that of the rpoBC operon of E. coli. The M. tuberculosis rpoB gene was cloned into the shuttle plasmid pMV261 and electroporated into the LR223 strain of Mycobacterium smegmatis, which is highly resistant to rifampin (MIC > 200 micrograms/ml). The resulting transformants were relatively rifampin susceptible (MIC = 50 micrograms/ml). Using PCR mutagenesis techniques, we introduced a specific rpoB point mutation (associated with clinical strains of rifampin-resistant M. tuberculosis) into the cloned M. tuberculosis rpoB gene and expressed this altered gene in the LR222 strain of M. smegmatis, which is susceptible to rifampin (MIC = 25 micrograms/ml). The resulting transformants were rifampin resistant (MIC = 200 micrograms/ml). The mutagenesis and expression strategy of the cloned M. tuberculosis rpoB gene that we have employed in this study will allow us to determine the rpoB mutations that are responsible for rifampin resistance in M. tuberculosis.     

Characterization of rpoB mutations in rifampin-resistant Mycobacterium tuberculosis isolates from the Middle East

The nature and frequency of mutations in the rpoB gene of rifampin-resistant clinical Mycobacterium tuberculosis isolates vary considerably according to geographical locations. There is no information on the prevalence of specific mutations in clinical M. tuberculosis strains isolated from patients in Middle-Eastern countries. In this study, 13 rifampin-resistant and 6 susceptible clinical M. tuberculosis isolates were tested for identification and characterization of mutations in the rpoB gene by INNO-LiPA Rif. TB kit and DNA sequencing of the PCR amplified target DNA. The kit identified all six susceptible strains as rifampin-sensitive and the DNA sequence of the amplified rpoB gene in the target region matched perfectly with the wild-type sequence. The kit identified 12 resistant isolates as rifampin-resistant with specific detection of mutations in 8 isolates while one of the rifampin-resistant strain was identified as rifampin-susceptible. DNA sequencing confirmed these results and, in addition, led to the specific detection of mutations in 4 rifampin-resistant isolates in which specific base changes within the target region could not be determined by the INNO-LiPA Rif. TB kit. The majority (8 of 13) of resistant isolates involved base changes at codon 531 of the rpoB gene. Mutations at codon position 531 within the rpoB gene have also been reported in majority of rifampin-resistant strains from Greece and St. Petersburg, Russia but not from other geographical locations.     

耐利福平结核分枝杆菌rpoB基因序列研究

目的 研究杭州地区结核分枝杆菌（Mycobacterium tuberculosis）对利福平（RFP）的耐受与rpoB基因突变的关系。方法 随机挑选了90例结核杆菌感染的病例。选择了利福平作为主要的药物进行药敏实验，PCR扩增39株耐RFP结核分支杆菌的rpoB基因片段（580bp）；测定扩增片段的序列。并与美国国立生物信息中心（www．ncbi．nlm．nih．gov／nucleotide）检索获得结核杆菌野生株（利福平敏感株）序列（登陆号：AJ749948）作对比分析。结果 结果显示PCR结核测序方法得到了39例结核杆菌耐药株。51例敏感株，与药敏实验的方法检测的结果完全一致。测定的11株临床分离的耐药株中，526位或531位有突变，其中526位有突变的有7株，占耐药测定株63．6%，531位突变的有4株。占耐药测定株36．4％。未见两位点同时突变。检测的11株敏感株，未见526位或531位有突变。结论 杭州地区结核分支杆菌耐利福平的发生与rpoB基因的526位或531位突变密切相关，与国外的报告基本相似。但526位突变占耐药测定株高达63．6％。如此高比例目前国内外未见相似报道。PCR扩增和产物测序将是临床检测结核分支杆菌耐利福平和耐多药的一种迅速、准确的方法。     

Detection of rifampin-resistant Mycobacterium tuberculosis strains by using a specialized oligonucleotide microarray

DNA microarray represents one of the major advances in diagnostic sequencing of polymerase chain reaction (PCR) products. Until now, arrays have been relatively expensive, complex to perform, and difficult to interpret, limiting their wide application in the clinical laboratory. A moderate-density oligonucleotide microarray that can rapidly identify Mycobacterium tuberculosis rifampin-resistant strains was developed. The method is based on the detection of point mutations and other rearrangements in the rpoB gene region determining rifampin resistance. Rifampin resistance was determined by hybridizing fluorescently labeled, amplified genetic material generated from bacterial colonies to the array. Fifty-three rifampin-resistant M. tuberculosis and 15 rifampin-susceptible M. tuberculosis were tested and results were concordant with those based on culture drug susceptibility testing and sequencing. Rifampin-resistant clinical isolates were detected in as little as 1.5 hours after PCR amplification with visual results. It is demonstrated that oligonucleotide microarray is an efficient, specialized technique to implement and can be used as a rapid method for detecting rifampin resistance to complement standard culture-based method.     

Molecular basis of rifampin resistance in Mycobacterium leprae.

Rifampin is currently the most potent drug used in leprosy control programs. We show that the rifampin resistance which emerged in nine patients with lepromatous leprosy, who had received rifampin monotherapy, stemmed from mutations in the rpoB gene, which encodes the beta subunit of RNA polymerase of Mycobacterium leprae. In eight cases missense mutations were found to affect a serine residue, Ser-425, while in the remaining mutant a small insertion was found close to this site. These findings will be of use for the development of a rapid screening procedure, involving the polymerase chain reaction, for monitoring the emergence of rifampin-resistant M. leprae strains.     

结核分枝杆菌利福平耐药基因的检测

以药物敏感试验为标准，应用聚合酶链反应－单链构象多态性分析方法对６８例利福平耐药菌株和２０例利福平敏感菌株进行测定，结果８８例结核分枝杆菌均扩增出目标ＤＮＡ条带，１０例非结核分枝杆菌和８例非分枝杆菌未出现目标ＤＮＡ条带，所用引物扩增ｒｐｏＢ基因２１５ｂｐ片段为结核分枝杆菌复合群异性的。     

A rifampin-hypersensitive mutant reveals differences between strains of Mycobacterium smegmatis and presence of a novel transposon, IS1623

Rifampin is a front-line antibiotic for the treatment of tuberculosis. Infections caused by rifampin- and multidrug-resistant Mycobacterium tuberculosis strains are difficult to treat and contribute to a poor clinical outcome. Rifampin resistance most often results from mutations in rpoB. However, some drug-resistant strains have rpoB alleles that encode the phenotype for susceptibility. Similarly, non-M. tuberculosis mycobacteria exhibit higher levels of baseline resistance to rifampin, despite the presence of rpoB alleles that encode the phenotype for susceptibility. To identify other genes involved in rifampin resistance, we generated a library of Mycobacterium smegmatis mc(2)155 transposon insertion mutants. Upon screening this library, we identified one mutant that was hypersensitive to rifampin. The transposon insertion was localized to the arr gene, which encodes rifampin ADP ribosyltransferase, an enzyme able to inactivate rifampin. Sequence analysis revealed differences in the arr alleles of M. smegmatis strain mc(2)155 and previously described strain DSM 43756. The arr region of strain mc(2)155 contains a second, partial copy of the arr gene plus a novel insertion sequence, IS1623.     

Molecular Analysis of Codon 548 in the rpoB Gene Involved in Mycobacterium tuberculosis Resistance to Rifampin

Most Mycobacterium tuberculosis rifampin-resistant strains have been associated with mutations in an 81-bp rifampin resistance-determining region (RRDR) in the gene rpoB. However, if this region alone were targeted, rifampin-resistant strains with mutations outside the RRDR would not be detected. In this study, among 51 rifampin-resistant clinical isolates analyzed by sequencing 1,681-bp-long DNA fragments containing the RRDR, 47 isolates contained mutations within the RRDR, three isolates contained mutations both within and outside the RRDR, and only one isolate had a single missense mutation (Arg548His) located outside the RRDR. A drug susceptibility test of recombinant Mycobacterium smegmatis and M. tuberculosis isolates carrying mutated rpoB (Arg548His) showed an increased MIC for rifampin compared to that of the control strains. Modeling of the Arg548His mutant RpoB-DNA complex revealed that the His548 side chain formed a more stable hydrogen bond structure than did Arg548, reducing the flexibility of the rifampin-resistant cluster II region of RpoB, suggesting that the RpoB Arg548His mutant does not effectively interact with rifampin and results in bacterial resistance to the drug. This is the first report on the relationship between the mutation in codon 548 of RpoB and rifampin resistance in tuberculosis. The novel mutational profile of the rpoB gene described here will contribute to the comprehensive understanding of rifampin resistance patterns and to the development of a useful tool for simple and rapid drug susceptibility tests.     

Pyrosequencing-based approach for rapid detection of rifampin-resistant Mycobacterium tuberculosis

Rifampin resistance in Mycobacterium tuberculosis could be determined within 2 h by using pyrosequencing-based approach. Pyrosequencing results of rifampin-resistant (n = 21) and rifampin-susceptible (n = 20) M. tuberculosis isolates were concordant with those based on drug susceptibility testing and conventional DNA sequencing. Results showed pyrosequencing-based approach is a rapid, sensitive, and efficient detection method of rifampin-resistant M. tuberculosis.     

DNA芯片快速检测耐利福平结核分枝杆菌rpoB基因突变

目的 开发快速检测耐利福平结核分枝杆菌(结核菌)rpoB基因突变的DNA芯片。方法 根据结核菌rpoB基因序列设计探针并制作基因芯片，从临床样品中分离出结核菌的基因组DNA，PCR扩增含有rpoB基因突变位点的特异DNA片段，荧光标记后与芯片上含有的检测特异突变位点的寡核苷酸探针进行杂交，同时与DNA直接测序法测定序列比较。结果 35株耐利福平结核菌中有91．4％(32／35)用直接测序法检测出存在rpoB基因突变，DNA芯片的检测效率为71．4％(25／35)。结论 用DNA芯片检测结核菌对利福平的耐药性具有较高的特异性和敏感性，可用于临床结核菌耐药性检测。     

Comparative antimycobacterial activities of rifampin, rifapentine, and KRM-1648 against a collection of rifampin-resistant Mycobacterium tuberculosis isolates with known rpoB mutations.

A collection of 24 rifampin-resistant clinical isolates of Mycobacterium tuberculosis with characterized RNA polymerase beta-subunit (rpoB) gene mutations was tested against the antimycobacterial agents rifampin, rifapentine, and KRM-1648 to correlate levels of resistance with specific rpoB genotypes. The results indicate that KRM-1648 is more active in vitro than rifampin and rifapentine, and its ability to overcome rifampin resistance in strains with four different genetic alterations may prove to be useful in understanding structure-function relationships.     

Characterization of rpoB mutations in rifampin-resistant clinical Mycobacterium tuberculosis isolates from Kuwait and Dubai

Mutations conferring resistance to rifampin in rifampin-resistant clinical Mycobacterium tuberculosis isolates occur mostly in the 81 bp rifampin-resistance-determining region (RRDR) of the rpoB gene. In this study, 29 rifampin-resistant and 12 -susceptible clinical M. tuberculosis isolates were tested for characterization of mutations in the rpoB gene by line probe (INNO-LiPA Rif. TB) assay and the results were confirmed and extended by DNA sequencing of the PCR amplified target DNA. The line probe assay identified all 12 susceptible strains as rifampin-sensitive and the DNA sequence of RRDR in the amplified rpoB gene from two isolates matched perfectly with the wild-type sequence. The line probe assay identified 28 resistant isolates as rifampin-resistant with specific detection of mutation in 22 isolates including one isolate that exhibited hetro-resistance containing both the wild-type pattern as well as a specific mutation within RRDR while one of the rifampin-resistant strain was identified as rifampin-susceptible. DNA sequencing confirmed these results and, in addition, led to the specific detection of mutations in 5 rifampin-resistant isolates in which specific base changes within RRDR could not be determined by the line probe assay. These analyses identified 8 different mutations within RRDR of the rpoB gene including one novel mutation (S522W) that has not been reported so far. The genotyping performed on the isolates carrying similar mutations showed that majority of these isolates were unique as they exhibited varying DNA banding patterns. Correlating the ethnic origin of the infected TB patients with the occurrence of specific mutations at three main codon positions (516, 526 and 531) in the rpoB gene showed that most patients (11 of 15) from South Asian region contained mutations at codon 526 while majority of isolates from patients (6 of 11) of Middle Eastern origin contained mutations at codon 531.     

Molecular basis of rifampin and isoniazid resistance in Mycobacterium bovis strains isolated in Sardinia, Italy

Fourteen of 22 (68%) Mycobacterium bovis strains isolated from cattle in Sardinia were found to be resistant to rifampin and isoniazid. Analysis of the rpoB and the katG, oxyR-ahpC, and inhA gene regions of these strains was performed in order to investigate the molecular basis of rifampin and isoniazid resistance, respectively. The most frequent mutation, encountered in 6 of 10 strains (60%), was in the rpoB gene; it occurred, at codon position 521 and resulted in leucine changed to proline. This suggests that codon 521 may be important for the development of rifampin resistance in M. bovis. Resistance to isoniazid is associated in Mycobacterium tuberculosis with a variety of mutations affecting one or more genes. Our results confirm the difficulty of interpreting the sequence variations observed in clinical strains of M. bovis. M. bovis strains isolated from the same geographic area showed similar mutations within the genes responsible for rifampin and isoniazid resistance. Our results represent the first study to elucidate the molecular genetic basis of drug resistance in M. bovis isolated from cattle.     

Sequencing of the rpoB gene in Legionella pneumophila and characterization of mutations associated with rifampin resistance in the Legionellaceae

Rifampin in combination with erythromycin is a recommended treatment for severe cases of legionellosis. Mutations in the rpoB gene are known to cause rifampin resistance in Escherichia coli and Mycobacterium tuberculosis, and the purpose of the present study was to investigate a possible similar resistance mechanism within the members of the family Legionellaceae. Since the RNA polymerase genes of this genus have never been characterized, the DNA sequence of the Legionella pneumophila rpoB gene was determined by the Vectorette technique for genome walking. A 4,647-bp DNA sequence that contained the open reading frame (ORF) of the rpoB gene (4,104 bp) and an ORF of 384 bp representing part of the rpoC gene was obtained. A 316-bp DNA fragment in the center of the L. pneumophila rpoB gene, corresponding to a previously described site for mutations leading to rifampin resistance in M. tuberculosis, was sequenced from 18 rifampin-resistant Legionella isolates representing four species (L. bozemanii, L. longbeachae, L. micdadei, and L. pneumophila), and the sequences were compared to the sequences of the fragments from the parent (rifampin-sensitive) strains. Six single-base mutations which led to amino acid substitutions at five different positions were identified. A single strain did not contain any mutations in the 316-bp fragment. This study represents the characterization of a hitherto undescribed resistance mechanism within the family Legionellaceae.     

耐利福平结核分枝杆菌 rpoA、rpoB、rpoC和rpoZ突变的研究

目的：了解结核分枝杆菌rpoA、rpoB、rpoC和rpoZ突变特征及其与利福平耐药的关系。方法对140株临床分离结核分枝杆菌进行利福平敏感性试验,并对耐利福平株分别进行rpoB耐药决定区及rpoA、rpoB、rpoC及rpoZ全基因测序。结果140株结核分枝杆菌中57株对利福平耐药。57株耐利福平结核分枝杆菌中,52株（91.2%）存在突变,其中50株为rpoB基因突变,2株为rpoC突变。在rpoB 765、1001、1156位及rpoC 51位发现新的突变位点。结论结核分枝杆菌对利福平耐药主要与rpoB和rpoC基因突变有关。     

银染单链构象多态性技术检测结核杆菌rpoB基因突变

目的探讨分子生物学方法在临床标本结核分枝杆菌利福平（ＲＦＰ）耐药性评估中的应用价值。方法设计针对ｒｐｏＢ基因１８３ｂｐ扩增引物,运用聚合酶链反应单链构象多态性分析（ＰＣＲＳＳＣＰ）银染色方法,检测了４５株结核杆菌临床分离株,并对其中部分菌株进一步做了ＤＮＡ序列分析。结果以药敏试验结果为对照,有１６株ＲＦＰ敏感株及２６株ＲＦＰ耐药株经ＳＣＰ方法得到检测,阳性占９３．３％,特异性１００％。对部分菌株１８３ｂｐ片断测序结果显示,ＲＦＰ敏感株无ｒｐｏＢ基因突变,耐药株均发生碱基突变,分别导致编码５３１及５２６位点的氨基酸改变。结论银染ＰＣＲＳＣＰ方法具有简便,快速,准确的特点,提高敏感性,可以对临床标本结核杆菌利福平耐药突变进行鉴定。序列分析证明结核分枝杆菌利福平耐药菌株有ｒｐｏＢ基因突变。     

PCR—SSCP快速检测结核分枝杆菌耐利福平rpoB基因的研究

目的探讨PCR—SSCP技术检测结核分枝杆菌耐利福平rpoB基因作为新的分子药敏试验方法的价值。方法应用PCR—SSCP技术检测结核分枝杆菌耐利福平rpoB基因核心区的突变，同时对片段长度为215bp的PCR扩增产物进行测序分析。受试菌为23株利福平敏感结核分枝杆菌以72．35株利福平抗性结核分枝杆菌。结果23株利福平敏感结核分枝杆菌分别用PCR—SSCP和PCR扩增片段测序均没有检测到巾0B碱基突变。而在35株利福平抗性菌株中，PCR—SSCP检测到31株与H37Rv标准株不同的带谱，PCR—SSCP检测基因突变的敏感度和特异度分别为88．6％（31／35）和100％（23／23）。对35株利福平抗性菌株PCR扩增产物进行测序分析，在其中32株中检出了基因突变。测序分析检测基因突变的敏感度和特异度分别为91．4％（32／35）和100％（23／23）。卡方检验，PCR—SSCP和PCR扩增片段测序两种方法的敏感度之间没有显著性差异（P〉0．05）。若以DNA测序为标准，则PCR—SSCP检测基因突变的准确度、敏感度和特异度分别为93．1％（54／58），96．9％（31／32）和100％（23／23）。结论PCR—SSCP检测结核分枝杆菌耐利福平rpoB基因突变可用于利福平药物敏感度的快速测定。