Skin colonization with antibiotic-resistant propionibacteria is much more common now than a decade ago. Resistant propionibacteria are widely distributed on acne-prone skin and in the nares. This suggests that they will be very difficult to eradicate using existing therapeutic regimens, especially from the nasal reservoir.
The genetic basis of erythromycin resistance in cutaneous propionibacteria was determined by comparing the nucleotide sequences of the peptidyl transferase region in the 23S rRNAs from 9 susceptible and 26 resistant clinical isolates as well as 4 laboratory-selected erythromycin-resistant mutants of a susceptible strain. In 13 isolates and the 4 laboratory mutants, cross-resistance to macrolides, lincosamides, and B-type streptogramins was associated with an A-->G transition at a position cognate with Escherichia coli 23S rRNA base 2058. These strains were resistant to > or = 512 microg of erythromycin per ml. Two other mutations were identified, an A-->G transition at base 2059 in seven strains, associated with high-level resistance to all macrolides, and a G-->A transition at base 2057 in six strains, associated with low-level resistance to erythromycin. These mutations correspond to three of four phenotypic classes previously identified by using MIC determinations.
Oral isotretinoin effectively reduced skin and nasal colonization by antibiotic-resistant propionibacteria. However, viable populations of resistant isolates persisted post-treatment at multiple sites. Novel methods are required to eradicate antibiotic-resistant propionibacteria completely, especially from the nasal reservoir.
Oral and topical antibiotics play a major role in acne therapy. Physicians base treatment choices on personal perceptions of efficacy, cost-effectiveness or risk-benefit ratios and rarely take bacterial resistance into account. Propionibacterium acnes isolates resistant to one or more anti-acne antibiotics have been reported in Europe, the USA, Japan and New Zealand. Therapeutic failure on some but not all antibiotic regimens is an increasing management problem. In Leeds, UK, resistant strains are found in 60% of acne patients and 50% of close contacts. Recommendations for the use of antibiotics in acne therapy to help prevent the emergence of resistance in P. acnes include the implementation of antibiotic usage policies and the encouragement of improved prescribing habits. Strategies to reduce the resistant P. acnes population are necessary. This paper reports preliminary data demonstrating that oral isotretinoin (Roaccutane®/Accutane®) significantly reduces total numbers of resistant P. acnes on the skin of all patients.
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