In vitro synergy testing of prodigiosin in combination with inhibitors of cell wall synthesis against Mycobacterium smegmatis

The cell wall is not a target of currently used therapeutics as Mycobacterium are considered naturally resistant to most β-lactam antibiotics. Therefore, combinations of conventional antibiotics with antibiotic activity-enhancing compounds offer a productive treatment strategy and address the widespread emergence of antibiotic-resistant strains. The first area of research was the study of a comparative analysis of disk diffusion testing and the broth dilution method for evaluating the susceptibility of M. smegmatis to antimicrobial agents. A comparative analysis of the susceptibility to antimicrobial agents alone showed that M. smegmatis was the most susceptible to ceftriaxone and kanamycin, and moderately sensitive to vancomycin and prodigiosin. Compared to the susceptibility of the antibacterial combinations, the isolate was not susceptible to antibacterial combinations with prodigiosin in disk diffusion testing. The second area of research was the study of the synergic activity of prodigiosin of S. marcescens and inhibitors of cell wall synthesis manifested by their simultaneous effect on M. smegmatis. The greatest increase in the sensitivity of test-culture of mycobacteria occurred with ampicillin, benzylpenicillin, cephazolin and ceftriaxone in combination with prodigiosin of S. marcescens. The presented combination of antibiotics and prodigiosin reduce the required concentration of the antibiotic and by amplifying the effect of compounds inhibiting cell wall synthesis, thereby giving lower FICI values. These data indicate the possibility of using prodigiosin as a promising candidate for the development of "accompaniment-preparations" for antibiotics for the additional therapy of infectious diseases caused by Mycobacterium spp. and can suspend the likelihood of developing resistance to antibiotics. The cell wall is not a target of currently used therapeutics as Mycobacterium are considered naturally resistant to most β-lactam antibiotics. Therefore, combinations of conventional antibiotics with antibiotic activity-enhancing compounds offer a productive treatment strategy and address the widespread emergence of antibiotic-resistant strains. The first area of research was the study of a comparative analysis of disk diffusion testing and the broth dilution method for evaluating the susceptibility of M. smegmatis to antimicrobial agents. A comparative analysis of the susceptibility to antimicrobial agents alone showed that M. smegmatis was the most susceptible to ceftriaxone and kanamycin, and moderately sensitive to vancomycin and prodigiosin. Compared to the susceptibility of the antibacterial combinations, the isolate was not susceptible to antibacterial combinations with prodigiosin in disk diffusion testing. The second area of research was the study of the synergic activity of prodigiosin of S. marcescens and inhibitors of cell wall synthesis manifested by their simultaneous effect on M. smegmatis. The greatest increase in the sensitivity of test-culture of mycobacteria occurred with ampicillin, benzylpenicillin, cephazolin and ceftriaxone in combination with prodigiosin of S. marcescens. The presented combination of antibiotics and prodigiosin reduce the required concentration of the antibiotic and by amplifying the effect of compounds inhibiting cell wall synthesis, thereby giving lower FICI values. These data indicate the possibility of using prodigiosin as a promising candidate for the development of "accompaniment-preparations" for antibiotics for the additional therapy of infectious diseases caused by Mycobacterium spp. and can suspend the likelihood of developing resistance to antibiotics.