DE19955352A1 - Detecting antimicrobial substances, comprises using Streptococcus proteins - Google Patents

Abstract

The use of the gene products FibA and/or FibB of the genes fibA and/or fibB from Streptococcus pneumoniae or its mutants for detecting antimicrobial substances, is new, where the interaction of the gene product with the potential antimicrobial can be carried out in vivo or in vitro. Independent claims are also included for the following: (1) Streptococcus with mutations in their penicillin-binding proteins caused by mutated gene fibA and/or fibB, which makes the bacterium resistant to penicillin; (2) a nucleotide sequence of gene fibA* (225 nucleotide sequence given in the specification); and (3) a nucleotide sequence for gen fibB* (245 nucleotide sequence given in the specification).

Description

The present invention relates to nucleic acids and proteins from Streptococcus and their use for finding antimi krobiell effective substances.

The bacterium Streptococcus pneumoniae belongs to the grampo sititive bacteria. These have a complex layer Murein cell wall, where the individual layers of murein connected to each other. The connection is via Inter peptide chains containing the tetrapeptide side chains in the murein linking muraminic acids together. At Staphy lococcus aureus, another Gram-positive bacterium, be the interpepid chain is pentaglycine. In Streptococcus pneumoniae, on the other hand, consists of the interpeptide bridge of the di peptides L-alanine-L-alanine or L-alanine-L-leucine. At the Mecha The mechanisms for forming the murein cell wall are different Antibiotics such as β-lactam and glycopeptide antibiotics. The Inhibition of cell wall synthesis by these substances leads to the rule for the induction of autolytic enzymes and thus to egg rapid cell lysis.

For example, penicillin binds to target proteins that are soge called penicillin binding proteins (PBP) and inhibits the se. The PBPs are the enzymes involved in the extension the sugar chains of murein (in transglycosylation reaction and also on the cross-linking of murein (in Transpep tidierungsreaktionen) are involved. Two in Staphylococcus aureus-found proteins, FemA and FemB, are for example on the biosynthesis of the penta-glycine inter peptide bridge of Mu involved in the bacterial cell wall.

Resistance to the mentioned antibiotics can on the one hand caused by the formation of beta-lactamases, which Peni  cillin and similar (with a beta-lactam ring) structured Can split antibiotics; on the other hand, the PBPs can do that mutate that an antibiotic no longer attach to them can.

Streptococci come as a causative agent of pneumonia, Sinusi tis, otitis media, meningitis, scarlet fever, etc. a large clinical significance. Because penicillin-resistant and mul tiple antibiotic-resistant strains of Streptococcus pneumoniae is increasingly occurring worldwide Finding new antimicrobial agents against this organ a great need.

To test the suitability of new substances as antibiotics, elaborate experiments with bacterial cultures are necessary where at the possibly lower sensitivity to one in principle suitable substance, but also a very low Concentration of the available substance, the up makes it even more difficult or even impossible.

It would therefore be desirable if finding new antimi krobiell acting substances would be easier possible. The before underlying invention is therefore the object of systems to provide new antibiotics quickly and easily to be able to find.

This problem is solved by the use of the gene product FibA or / and FibB according to the independent claim 1, the Streptococcus strain according to the independent patent claim 6, its use according to the independent patent claim 12, the nucleotide sequences according to the independent Pa tentansprüchen 13 and 16, and the amino acid sequence according to the independent claim 19. Further advantageous Aus Forms, aspects and details of the invention will become apparent From the dependent claims, the description and the attached drawing.  

It was surprisingly found that two in Strepto coccus pneumoniae occurring, to FemA and FemB and others too protein proteins homologous to the same protein family ne, called FibA and FibB, as model systems for detection new, antimicrobially active substances in various Way most suitable. The sequences of the two in the Genes used have been determined and accessible at "The Institute for Genomic Research" at the URL http://www.tigr.org.

The invention can be divided into two subregions become. For one, the proteins FibA and FibB can be direct used to interact with a potential prove antimicrobial substance. This interaction can be followed intracellularly or extracellularly. On the other hand can be a mutated fibA * or fibB * gene in bacterial cells be constructed by replacing the wild-type gene where it hypersensitivity to beta-lactam antibiotics ver can mediate.

With regard to the first aspect, the invention is therefore first directed to the use of the gene product FibA or / and FibB of the genes fibA or / and fibB from Streptococcus pneumoniae or mutants thereof for finding antimicrobial Substances, wherein an interaction of the gene product with a potentially antimicrobial substance in vivo or in is determined in vitro.

An application in vivo, ie in bacterial cells, is thereby based on the evidence of the interaction of FibA or / and FibB with a substance intracellular or extracellular; and preferential with FibA or / and FibB present in the bacterial cells has been synthesized. When used in vivo will preferably worked with purified proteins.

Expression systems with which the proteins in sufficient Amount can be produced, the expert are equally be  knows how suitable cleaning methods. This can be at for example, the cDNA of the genes on an expression vector lie, which is introduced into suitable cells. It is possible, the proteins, for example by insertion geeigne ter DNA sequences to produce as sekertierte proteins, so that they are released into the medium and without cell disruption can be represented.

A person skilled in the art has various methods of observation of interactions available.

For example, it is preferred that the interaction be one Attachment of the gene product to the potentially antimicrobial acting substance is. The interaction can also be in one there by successful modification of FibA or / and FibB best hen.

Embodiments of the present invention are particularly preferred Invention in which the gene product from a nucleotide sequence in SEQ. ID. 1 for fibA or fibB, in SEQ No. 2 for fibA * or in SEQ No. 3 for fibB *.

For example, an interaction in vitro can be achieved by mixing of the gene product FibA or / and FibB with a potentially anti microbially acting substance are brought about. Especially at In vitro studies, d. H. in a well defined environment such as a reaction vessel or on a suitable chip Surface, can use an interaction of the invention gene products are particularly easy to measure.

The inventors of the present invention have mutants of Gene fibA or fibB, for example, those shown in SEQ. 2 and 3 indicated mutants fibA * and fibB *, which were to be shortened Gene products into penicillin-resistant strains of Strep tococcus pneumoniae introduced which altered peniccil possess lin-binding proteins. The mutations on fibA and fibB are identified by deletions, insertions, inversions,  or frame-shift mutations or preferably insertion duplicons achieves premature termination of the tra nslation and shortened gene products. Unerwarte It was found that it was produced in such a way Bacteria were no longer resistant to penicillin, but on the contrary an increased sensitivity to penicillin exhibited. Thus a system is available with which over the observation of growth inhibition even at low Kon concentrations on a substance to be tested its potential can be determined as antimicrobially active substance.

The invention is therefore also directed to a Strepto coccus with a mutation in a penicillin-binding pro which mediates penicillin resistance, which is is characterized by a gene fibA and / or gene fibB, which ever because mutated to the wild type.

The mutation may be a truncation of the gene used, in which the gene is shortened as such. The mutation can but also a mutation that leads to a shortened Polypeptide performs by adding point mutation premature stop codons are introduced.

Other types of mutations leading to the desired Ef cause hypersensitivity are of the invention included, such. B. Mutations in the genes caiH / CiaR in Kom similar to mutations in penicillin target genes as in the case of the fib derivatives described above. Generally is assume that mutations in penicillin target genes (PBP), which contribute to penicillin resistance, to a whole Range of other gene products are dependent on possible Defects caused by such altered PBP compensate. Such gene products provide z. FibA, FibB, CiaR and CiaH

Preferably, the mutated fibA gene corresponds to its Se sequence of SEQ ID NO: 2 or deviates from it in one  Number of nucleotides, the number being at least 1 nu and at most as many nucleotides that the Fun tion of the translation-resultant polypeptide the polypeptide resulting from the SEQ No. 2 not relevant changed. Will use a mutated fibB as gene det, it preferably corresponds in its sequence to the Sequence of SEQ No. 3 or deviates from it in a number of Nucleotides, the number being at least 1 nucleotide and at most as many nucleotides that the function of the Translation resulting polypetide compared to that from the SEQ ID 3 resulting polypeptide not significantly changed are. Relevant for the suitability of an inventive Streptococcus strain is characterized by that in at least one of Both genes fibA and / or fibB introduced mutation (s) Hypersensitivity to penicillin can be achieved to achieve a suitable test system. Deviations from the ange given sequences are quite possible, provided the egg conditionality remains fulfilled. Properties in this For example, the charge conditions of the gene product or its three-dimensional structure and possibly cross be networking. It is therefore not only possible to other Mu tions of fibA or fibB, but also homolo Genes from other bacterial species, if they are for prove the purpose of the invention to be suitable.

The strain of Streptococcus used can be ver different Streptococcus species are obtained. The Bestim tion of the sequences of the two genes fibA and fibB has revealed that this is a great homology to other, related Protei NEN and therefore are suitable as a model system. This on the one hand predestined her for it, also in other Streptococ cus species as the parent strain, integrated into the genome too On the other hand, the invention can also be successful with the very similar genes of other species the. Preferably, however, is a Streptococcus pneumoniae be used because of this the greatest clinical significance Has.  

The introduced genetic substance, for example Muta tions of fibA or fibB containing sequence, can be on one extrachromosomal pieces of DNA such as a plasmid can lie but also integrated into the bacterial chromosome.

The invention is also directed to the use of Streptococcus according to the invention for finding antimicrobial acting substances, wherein after adding a potentially anti biotic substance inhibits growth of the bacterium is determined.

While in studies of interactions directly on the protein both a wild type gene (fibA or fibB) and mutants (eg fibA * or fibB *) are suitable for use for the production of Streptococcus mutations genes necessary.

The invention is therefore also directed to a nucleotide sequence of the gene fibA * or fibB * according to SEQ ID NO: 2 or SEQ No. 3 or thereof in one or more nucleotides accordingly.

The deviation may also or in addition to an extension or shortening of the expressible nucleotide sequence. In this case, an insertion or deletion mutation can be the length of the gene as such extend. It can, however, also through removing or inserting stop codons of the chain termination be moved in both directions.

Finally, the invention is also directed to an amino acid sequence resulting from translation of the reading frame SEQ ID NO: 2 or SEQ ID NO: 3 or one of them in a number Nucleotides differing sequence, where the number to is at least 1 nucleotide and at most as many nucleotides, that properties of the polypeptide resulting from translation tids over that resulting from SEQ ID NO: 2 or SEQ ID NO: 3 renden polypeptide are not significantly changed. To the Ab  Estimation of the properties is referred to the above and content.

At the DSMZ (German Collection of Microorganisms and Cell Cultures), Mascheroder Weg 1b, Braunschweig, the mutant strains were deposited on October 28, 1999, according to the Budapest Treaty:
Streptococcus pneumoniae R6 _TB6- CCCB-fibA DSM 13125
Streptococcus pneumoniae R6 _TB6- CCCB-fibB DSM 13126

The invention will be further described with reference to the figures ben.

FIG. 1: Overview of the genomic region in which the two genes fibA and fibB used for the invention are located. Both wildtype forms have a reading frame length of about 1200 nucleotides. The nucleotide sequences of the two wild-type genes are shown in SEQ No. 1. By mutation, the two exemplary mutants fibA * and fibB * were obtained, which show a shortening of the reading frame. In fibA, an insertion duplication leads to a termination of the FibA protein after the amino acid Lys205.

FIG. 2A: DNA sequence and deduced peptide sequence of fibA / fibB [SEQ No. 1]

FIG. 2B, mutant derivatives of fiba (fiba *). [SEQ No. 2] and Fibb (Fibb *) [SEQ # 3.]

The invention will be further described by way of example.

example

Various β-lactam antibiotic resistant strains of Streptococcus were treated as a comparison with the antibiotic Oxa cillin. These strains are described in Hakenbeck et al., J. Bacteriol. 180, pp. 1831-1840 (1998). Furthermore, Streptococcus strains into which a mutated fibA * or fibB * gene had been introduced were used as inventive examples. In each case it was determined from which concentrations of oxacillin growth inhibition occurs (minimum inhibitory concentration, MIC). The results of this experiment are shown in Table 1:

tribe MIC (micrograms / milliliter of oxacillin) R6 0,125 R6 / FIBA * 0.09 R6-TCPP 8th R6-TCPP / FIBA * 0.38 to 0.5 R6-TCCB 32-48 R6-TCCB / Fibb * 0.5-0.75

It turns out that the invention changed Streptococ cus strains are significantly more sensitive to have the antibiotic used.

For comparison, resistant strains were used as a comparison used, since the difference of the MIC, and thus the Emp sensitivity with which strain responds to an antibiotic, is much clearer than would be with the sensitive strain compared, and thus detecting potential anti biotika is much easier.

The present invention provides various approaches to Ver as with the help of fibA and fibB or mutants of these Genes, new antimicrobial substances can be found can. This will open new avenues for antibiotic development opened.

Claims (17)

1. Use of the gene product FibA or / and FibB of the genes fibA or / and fibB from Streptococcus pneumoniae or Mu tantentates thereof for finding antimicrobial acting Substances, wherein an interaction of the gene product with a potentially antimicrobial substance in vivo or in vitro. 2. Use according to claim 1, characterized in that the interaction an attachment of the gene product to the is potentially antimicrobial substance. 3. Use according to claim 1 or 2, characterized net, that the interaction is a modification of FibA or / and FibB causes. 4. Use according to one of claims 1 to 3, characterized ge indicates that the gene product consists of a nucleotide SEQ ID NO. 1 for FibA or FibB, SEQ ID NO: 2 for mutated FibA (FibA *) or SEQ No. 3 for mutated FibB (FibB *), or from a nucleotide sequence derived from one of these Se differs in one or more nucleotides. 5. Use according to one of claims 1 to 4, characterized ge indicates that the interaction in vitro by mixing of the gene product FibA or / and FibB with a potential antimicrobial substance is brought about. 6. Streptococcus with a mutation in a penicillin binding protein that verifies penicillin resistance means characterized by at least one gene fibA and / or Gen fibB, which in each case opposite the wild type mu animals are.   7. Streptococcus according to claim 6, characterized that the mutation is a truncation of the gene. 8. Streptococcus according to claim 6, characterized that the mutation is a mutation that leads to a shortening th polypeptide leads. 9. Streptococcus according to any one of claims 6 to 9, characterized characterized in that the mutated fibA gene is the sequence of the SEQ ID. 2 or in number of nucleons tiden, wherein the number is at least 1 nucleotide and at most as many nucleotides that property against the polypetide resulting from translation above that from SEQ. 2 resulting polypeptide are not significantly changed. 10. Streptococcus according to any one of claims 6 to 10, characterized characterized in that the mutated fibB gene is the sequence of the SEQ ID NO: 3 or in a number of nucleotides which number is at least 1 nucleotide and höc at least as many nucleotides that properties of the upon translation, the resulting polypetide over the SEQ ID NO. 3 resulting polypeptide not measured are changed. 11. Streptococcus according to any one of claims 6 to 11, characterized characterized in that it is a Streptococcus pneumoniae. 12. Use of the streptococcus according to one of claims 6 to 11 for finding antimicrobial substances, wherein after adding a potentially antibiotic acting Substance a growth inhibition of bacteria is provided. 13. nucleotide sequence of the gene fibA * according to SEQ No. 2 or thereof deviating in one or more nucleotides.   14. Nucleotide sequence according to claim 13, characterized records that the deviation is in an extension or Shortening of the expressible nucleotide sequence is. 15. Nucleotide sequence of the gene fibB * according to SEQ No. 3 or thereof deviating in one or more nucleotides. 16. Nucleotide sequence according to claim 15, characterized records that the deviation is in an extension or Shortening of the expressible nucleotide sequence is. 17. Amino acid sequence, which is expressed by translation of Le serasters of SEQ ID NO: 2 or SEQ ID NO: 3 or one of them in a number of nucleotides different sequence where the number is at least 1 nucleotide and max at least as many nucleotides that properties of the upon translation, the resulting polypetide over the Polypep resulting from SEQ ID NO: 2 or SEQ ID NO: 3 are not significantly changed.