Abstract
AbstractThe work describes a novel morphological form found in 5 species ofMollicutes:Mycoplasma hominis, M. fermentans, M. gallisepticum, M. pneumoniae, Acholeplasma laidlawii. The form, which is referred to as microcolonies (MCs) in contrast to typical colonies (TCs), was characterized by tiny propeller-shaped colonies formed by rod-like cells tightly packed in parallel rows. MCs were observed within routinely cultivated type strain cultures of the listed species, and rod-like cells could be seen ewith SEM within TCs of the “fried-egg” type. Pure MC cultures were obtained by treatment of Mycoplasma cultures with hyperimmune serum, antibiotics or argon non-thermal plasma. Appearance of MCs was observed 7-12 days post plating while TCs appeared 24-48 h post plating. MCs derived from theM. hoministype strain H-34 were characterized in details. MCs did not differ from the parental culture in the MLST, direct fluorescent and epifluorescent tests and Western-blotting with a monospecific camel-derived nanoantibody aMh-FcG2a. Meanwhile, MCs derived from this strain and other listed species were resistant to at least 9 antibiotics and did not hydrolyze arginine and/or glucose in standard bacteriological tests. MC cultures that belonged toM. hominis(n=70),M. pneumoniae(n=2),M. fermentans(n=2),Mycoplasmaspp (n=5) were isolated from clinical samples of serum, synovial liquid and urina of patients with inflammatory urogenital tract diseases, asthma, arthritis. The reported MCs might be similar to “small colony variants” (SCVs) described in other bacterial species. However, in contrast to SCVs, MCs have never reverted to TCs. Multiple consecutive re-plating steps (for up to 3 years) were not sufficient to provide appearance of TCs within a pure MC culture. An unknown role of MCs in infection pathology along with their prominent antibiotic resistance makes them a challenge for the future studies ofMollicutes.Author summaryHere we demonstrated that Mycoplasma species form small size colonies (referred to as minicolonies, MCs). MC size is ten times less than the size of typical Mycoplasma colonies (TCs). MCs are very slow growing: it was required 9-10 days for MCs to form in contrast to 24-72 h required for TCs to form. The presents a system of evidences that MCs are formed by the same species as TCs, which they have been obtained from. Pure culture of MCs might be obtained from TC cultures by treatment with the hyperimmune serum, antibiotic and non-thermal gas plasma. MCs of all species were resistant to antibiotics effective against TCs. MCs did not hydrolyze arginine and glucose in standard bacteriological tests. MCs of different Mycoplasma species were isolated from clinical samples of sera, urea and synovial fluids from patients with urolithiasis, rheumatoid arthritis and asthma. MCs never have reverted to TCs even after three years passing. A role of MCs in infectious pathology has not been established yet. Nevertheless, ability to persist in the human body and extreme antibiotic resistance make MCs to be a challenge for the future research.
Publisher
Cold Spring Harbor Laboratory