Propionibacterium acnes

Propionibacterium acnes
Scientific classification
Kingdom:	Bacteria
Phylum:	Actinobacteria
Order:	Actinomycetales
Family:	Propionibacteriaceae
Genus:	Propionibacterium
Species:	P. acnes
Binomial name
Propionibacterium acnes (Gilchrist 1900) Douglas & Gunter 1946

Propionibacterium acnes is a relatively slow growing, typically aerotolerant anaerobic gram positive bacterium (rod) that is linked to the skin condition acne; it can also cause chronic blepharitis and endophthalmitis, the latter particularly following intraocular surgery. The genome of the bacterium has been sequenced and a study has shown several genes that can generate enzymes for degrading skin and proteins that may be immunogenic (activating the immune system).

This bacterium is largely commensal and part of the skin flora present on most healthy adult human skin. It is usually just barely detectable on the skin of healthy pre-adolescents. It lives primarily on, among other things, fatty acids in sebum secreted by sebaceous glands in the follicles. It may also be found throughout the gastrointestinal tract in humans and many other animals. It is named after its ability to generate propionic acid.

Role in disease

When a pore is blocked, this anaerobic bacterium overgrows and secretes chemicals that break down the wall of the pore and forming an acne lesion (folliculitis), possibly spilling bacteria such as Staphylococcus aureus into the broken skin. Preliminary research shows healthy pores are only colonized by P. acnes while unhealthy ones universally include the non-pore-resident Staphylococcus epidermidis, amongst other bacterial contaminants. Whether this is a root causality, just opportunistic & a side-effect, or a more complex pathological duality between P. acnes and this particular Staph is not known.^[1] P. acnes has also been found in corneal ulcers and is a common cause of chronic endophthalmitis following cataract surgery. Rarely, it infects heart valves leading to endocarditis, and infections of joints (septic arthritis) have been reported. Furthermore, Propionibacterium have been found in ventriculostomy insertion sites, and areas subcutaneous to suture sites in patients that have undergone craniotomy. It is a common contaminant in blood and CSF cultures. Propionibacterium acnes can be found in bronchoalveolar lavage of approximately 70% patients with sarcoidosis and is associated with disease activity, however it can be also found in 23% of controls.^[2][3] The sub-species of P. acnes that cause these infections of otherwise sterile tissues (prior to medical procedures), however, are the same sub-species that are found on the skin of individuals that do not have acne-prone skin and thus are likely local contaminants. Moderate to severe Acne vulgaris appears to be more often associated with virulent sub-strains.^[4]

Antibiotic sensitivity

P. acnes can be killed by benzoyl peroxide, tetracycline group and other antibiotics, and many antibacterial preparations, including clove oil,^[5] PCMX, and chlorhexidine gluconate. Tetracycline-resistant P. acnes is now quite common. Clindamycin is also frequently used. New facts show that P. acnes is sensitive to some macrolides such as azithromycin, which has a wide spectrum of action. It is normally prescribed 500 mg by mouth, three times weekly for 4 to 6 weeks, but may have post-antibiotic effects by remaining concentrated in lung tissue for approximately 5 days after treatment stops. Fluoroquinolones may also be effective against P. acnes such as nadifloxacin, ciprofloxacin, ofloxacin and levofloxacin.^{[citation needed]} They are active against P. acnes and some other microorganisms that are also part of the poly-infection.^{[citation needed]}

Phage sensitivity

P. acnes has known phages that can attack it, and these can be used to type it. Proposals exist to employ lytic phages for therapeutic purposes for acne vulgaris.

Photosensitivity

P. acnes glows orange when exposed to Wood's light^[6]— believed to be due to the presence of endogenous porphyrins. The bacterium is killed by ultraviolet light. P. acnes is also especially sensitive to light in the 405–420 nm (near the ultraviolet) range due to an endogenic porphyrin–coporphyrin III. A total irradiance of 320 J/cm² is found to inactivate this bacteria in vitro.^[7] This fact is used in phototherapy. Its photosensitivity can be enhanced by pretreatment with aminolevulinic acid which boosts production of this chemical, although this causes significant side-effects in humans, and in practice was not significantly better than the light treatment alone.

References

• New Scientist news
• Propionibacterium (Kenyon College)

Footnotes

External links

• Propionibacterium acnes
• MeSH Propionibacterium+acnes