ABSTRACT Streptococcus pneumoniae is the most common cause of community-acquired pneumonia and is responsible for multiple other infectious diseases, such as meningitis and otitis media, in children. Resistance to penicillins, macrolides, and fluoroquinolones is increasing and, since the introduction of pneumococcal conjugate vaccines (PCVs), vaccine serotypes have been replaced by non-vaccine serotypes. Antisense peptide nucleic acids (PNAs) have been shown to reduce the growth of several pathogenic bacteria in various infection models. PNAs are frequently coupled to cell-penetrating peptides (CPPs) to improve spontaneous cellular PNA uptake. In this study, different CPPs were investigated for their capability to support translocation of antisense PNAs into S. pneumoniae . HIV-1 TAT- and (RXR) 4 XB-coupled antisense PNAs efficiently reduced the viability of S. pneumoniae strains TIGR4 and D39 in vitro . Two essential genes, gyrA and rpoB , were used as targets for antisense PNAs. Overall, the antimicrobial activity of anti- gyrA PNAs was higher than that of anti- rpoB PNAs. Target gene transcription levels in S. pneumoniae were reduced following antisense PNA treatment. The effect of HIV-1 TAT- and (RXR) 4 XB-anti- gyrA PNAs on pneumococcal survival was also studied in vivo using an insect infection model. Treatment increased the survival of infected Galleria mellonella larvae. Our results represent a proof of principle and may provide a basis for the development of efficient antisense molecules for treatment of S. pneumoniae infections. IMPORTANCE Streptococcus pneumoniae is the most common cause of community-acquired pneumonia and is responsible for the deaths of up to 2 million children each year. Antibiotic resistance and strain replacement by non-vaccine serotypes are growing problems. For this reason, S. pneumoniae has been added to the WHO “global priority list” of antibiotic-resistant bacteria for which novel antimicrobials are most urgently needed. In this study, we investigated whether CPP-coupled antisense PNAs show antibacterial activity in S. pneumoniae . We demonstrated that HIV-1 TAT- and (RXR)4XB-coupled antisense PNAs were able to kill S. pneumoniae in vitro . The specificity of the antimicrobial effect was verified by reduced target gene transcription levels in S. pneumoniae . Moreover, CPP-antisense PNA treatment increased the survival rate of infected Galleria mellonella larvae in vivo . Based on these results, we believe that efficient antisense PNAs can be developed for the treatment of S. pneumoniae infections.
Antimicrobial Activity of Peptide-Coupled Antisense Peptide Nucleic Acids in Streptococcus pneumoniae
스트렙토코쿠스 뉴모니아에 있는 펩타이드 결합 항센스 펩타이드 핵산의 항미생물 활성
[Category] 폐렴구균 감염증,
[Source] pmc
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