Retention of Acholeplasma laidlawii by Sterile Filtration Membranes: Effect of Cultivation Medium and Filtration Temperature.

This experimental study compares cell size, zeta potential, and the ability to penetrate tailor-made size exclusion membrane filters of mycoplasma Acholeplasma laidlawii cultivated in five different cultivation media. The influence of relevant filtration process parameters, in particular transmembrane pressure and filtration temperature, on their respective retention was tested. The impact of the filtration temperature was further evaluated for the Gram-negative bacteria species Brevundimonas diminuta, the Gram-positive bacteria species Staphylococcus epidermidis, the Pseudomonas phage PP7, and the mycoplasma species Mycoplasma orale The findings were correlated to the different mechanical properties of the particles, especially also with respect to the different bacterial cell envelopes found in those species. This study suggests that mycoplasma, surrounded by a flexible lipid bilayer, are significantly susceptible to changes in temperature, altering the stiffness of the cell envelope. Mycoplasma retention could thus be increased significantly by a decreased filtration temperature. In contrast, Gram-negative and Gram-positive bacteria species, with a cell wall containing a cross-linked peptidoglycan layer, as well as bacteriophages PP7 exhibiting a rigid protein capsid, did not show a temperature-dependent retention within the applied filtration temperatures between 2 and 35 °C. The trends of the retention of A. laidlawii with increasing temperature and transmembrane pressure were independent of cultivation media. Data obtained with mycoplasma M. orale suggest that the trend of mycoplasma retention at different filtration temperatures is also independent of the membrane pore size and thus retention level.LAY ABSTRACT: Media in biopharmaceutical processes are sterile-filtered to prevent them from bacterial contamination. Mycoplasma represent a relevant class of bacteria. In this publication it is shown that mycoplasma cell size depends on the media they are cultivated in. Membranes used for sterile filtration retain bacteria predominantly by size exclusion. Thus, an altered cell size can result in different retention values. Another characteristic of mycoplasma is the flexible lipid bilayer and the absence of a rigid cell wall. The lipid bilayer can undergo a phase transition from a gel to a liquid-crystal phase at a certain temperature, which makes it stiffer at lower temperatures. A higher stiffness can result in higher retention values during filtration, as the deformability of the mycoplasma cell is lower and the cell does not squeeze through the membrane pores. ABBREVIATIONS: ALCM: A. laidlawii culture medium; ASTM: American Society for Testing and Materials; ATCC: American Type Culture Collection; CFU/mL: colony-forming units per milliliter; DLS: Dynamic light scattering; LRV: Log reduction value; PES: Polyethersulfone; PFU/mL: Plaque-forming units per milliliter; PSD: Particle size distribution; PVP: Polyvinylpyrrolidone; SDS: Sodium dodecyl sulfate; SEM: Scanning electron microscopy; SLB: Saline lactose broth; TMP: Transmembrane pressure; TSB: Tryptic soy broth.

Mycoplasma Clearance and Risk Analysis in a Model Bioprocess.

Mycoplasmas are a type of bacteria that lack cell walls and are occasional cell culture contaminants. In a biotechnology setting, because they can pass through 0.2 µm filters, mycoplasmas could pose a potential patient safety hazard if undetected contaminants from the production culture were not completely removed by downstream biotechnology manufacturing. In this study we investigated the ability of typical commercial monoclonal antibody purification operations to clear and kill mycoplasmas, using Acholeplasma laidlawii as a model organism. Our spike/removal studies have shown that protein A column chromatography clears about 4-5 log10 Column regeneration effectively prevents A. laidlawii column carryover between chromatography runs. Moreover, low-pH hold steps, typically implemented after protein A purification, effectively kill A. laidlawii using either pH 3.8 glycine or acetate solutions (LRV ≥5.30 and ≥4.57, respectively). Solvent/detergent treatment, used in some processes instead of low-pH hold, also completely kills highly concentrated A. laidlawii (LRV ≥5.95).LAY ABSTRACT: Biotechnology medicines need to be free from contaminating microorganisms such as mycoplasmas, a type of bacteria that can cause disease in humans (e.g., walking pneumonia). Here we show that some monoclonal antibody manufacturing steps can effectively clear and/or kill Acholeplasma laidlawii, a model mycoplasma species used in our study. This provides an additional level of safety assurance of biotechnology medicines for patients.

The Development of a Microbial Challenge Test with Acholeplasma laidlawii To Rate Mycoplasma-Retentive Filters by Filter Manufacturers.

Mycoplasma are bacteria that can penetrate 0.2 and 0.22 µm rated sterilizing-grade filters and even some 0.1 µm rated filters. Primary applications for mycoplasma filtration include large scale mammalian and bacterial cell culture media and serum filtration. The Parenteral Drug Association recognized the absence of standard industry test parameters for testing and classifying 0.1 µm rated filters for mycoplasma clearance and formed a task force to formulate consensus test parameters. The task force established some test parameters by common agreement, based upon general industry practices, without the need for additional testing. However, the culture medium and incubation conditions, for generating test mycoplasma cells, varied from filter company to filter company and was recognized as a serious gap by the task force. Standardization of the culture medium and incubation conditions required collaborative testing in both commercial filter company laboratories and in an Independent laboratory (Table I). The use of consensus test parameters will facilitate the ultimate cross-industry goal of standardization of 0.1 µm filter claims for mycoplasma clearance. However, it is still important to recognize filter performance will depend on the actual conditions of use. Therefore end users should consider, using a risk-based approach, whether process-specific evaluation of filter performance may be warranted for their application. LAY ABSTRACT: Mycoplasma are small bacteria that have the ability to penetrate sterilizing-grade filters. Filtration of large-scale mammalian and bacterial cell culture media is an example of an industry process where effective filtration of mycoplasma is required. The Parenteral Drug Association recognized the absence of industry standard test parameters for evaluating mycoplasma clearance filters by filter manufacturers and formed a task force to formulate such a consensus among manufacturers. The use of standardized test parameters by filter manufacturers, including the preparation of the culture broth, will facilitate the end user's evaluation of the mycoplasma clearance claims provided by filter vendors. However, it is still important to recognize filter performance will depend on the actual conditions of use; therefore end users should consider, using a risk-based approach, whether process-specific evaluation of filter performance may be warranted for their application.

[Effect of low temperature plasma on various mycoplasma species].

AIM: Study the influence of low temperature (cold) electrolyte plasma (CEP) on survivability of some mycoplasma strains growing in agar as well as mycoplasma that most frequently contaminate transplantable human cell lines of normal and malignant origin with the aim of decontamination. MATERIALS AND METHODS: Mycoplasma hominis, Mycoplasma arginini and Aholeplasma laidlawii grown in agar and mycoplasma that contaminated transplantable human cell lines of normal (MT4) and malignant (HeLa) origin. Plasma source--Plasmatom device that generates CEP at normal atmosphere pressure and environment temperature. Exposure to plasma was carried out with adherence to the same modes for all the variants of biological substrate. The duration of exposure was selected randomly from 15 to 300 seconds. RESULTS: A pronounced bactericidal effect of high doses of CEP on all the tested mycoplasma variants exposed immediately after seeding into agar was shown. However after a passage a residual number of survived colonies was registered. Passage of colonies exposed in grown state even to high doses of CEP also showed survival of a residual number of bacteria in all the tested mycoplasma species. Exposure of M. hominis immediately after seeding to low doses of CEP resulted in formation of unusual mini-colonies identical to those isolated from humans infected by the same mycoplasma. During microbiological seeding into agar of cultural fluid from 2 spontaneously contaminated strains of transplantable human cells and exposed to CEP growth ofmycoplasma was not detected. CONCLUSION: CEP has pronounced bactericidal properties on various mycoplasma strains growing in both agar and contaminating eukaryotic cells. However even at high doses of exposure to CEP an insignificant part of bacterial cells growing in agar still survives. This may indicate a high degree of heterogeneity and adaptation of mycoplasma subjected to even such hard exposure as cold plasma with plasma-chemical mechanism of destruction of biological substrate.

Phenolic constituents, antioxidant and preliminary antimycoplasmic activities of leaf skin and flowers of Aloe vera (L.) Burm. f. (syn. A. barbadensis Mill.) from the Canary Islands (Spain).

The methanol extracts of leaf skins and flowers of Aloe vera from the Canary Islands were analyzed for their phenolic profiles and screened for their antioxidant and antimycoplasmic activities. The use of reversed phase high performance liquid chromatography (RP-HPLC) allowed the identification of 18 phenolic constituents. Leaf skin extracts were characterized by the abundance of catechin, sinapic acid and quercitrin. Gentisic acid, epicatechin and quercitrin were the most prominent phenolic compounds of the flowers. The in vitro antioxidant activities determined by using the 1,1-diphenyl-2-picrylhydrazyl (DPPH) and ferric antioxidant reducing power (FRAP) assays revealed that both extracts exhibited antioxidant activity, being the leaf skin extract the most active fraction. The leaf skin extract was also found to be active against the microbial strains tested. Therefore, A. vera extracts from leaf skin and flowers can be considered as good natural antioxidant sources.

[Activity of phenylalanine-ammonia-lyase in callus cultures of sugar beat infected by Acholeplasma].

The effect of Acholeplasma laidlawii var. granulum 118 on activity of phenylalanine-ammonia-lyase (PAL) in callus cultures of sugar beat was researched. The optimal conditions of enzyme reaction were: using the L-phenilalanine as a substrate, pH 8.4-8.8, the temperature optimum 38-40 degrees C. It was established that at the infecting of sugar beat callus culture by phytopathogenic mollicute the PAL activity was temporarily increased and reached its maximum after 2 h of infecting. Then it gradually decreased and in 24 h reached its initial level. An increase of PAL activity of plant is considered as protective reaction in response to the action of pathogen.

[Activity of oxidative enzymes in plant cells under conditions of experimental mycoplasmosis].

Changes in activity of oxidative enzymes was shown when infecting the callus culture of sugar beet cells by phytopathogenic mollicute Acholeplasma laidlawii var granulum 118. Maximum indices of the enzyme activity were fixed 3 hours after infecting with regard to control: it was 49% for peroxidase, 38% for catalase and 45% for polyfenoloxidase. The decrease of enzymatic activity to 22%, 12% and 19%, respectively, was registered 5 hours after infecting, and after that all these indices became stabilized. Changes in the activity of components of antioxidative protection were probably connected with induction of plants' protective mechanisms in response to penetration of pathogenic mollicutes.

[Effect of Acholeplasma laidlawii var. granulum on lectin activity of sugar beet calluses].

The dynamics of lectin activity of sugar beet calluses infected by mollicute Acholeplasma laidlawii var granulum str. 118 was studied. Activity of acid-soluble lectins of sugar beet cell cultures increased 4.5 times during some first hours after infecting by acholeplasma. At early stages of infecting by mollicute qualitative changes were also revealed in the protein spectra of acid-soluble lectins of sugar beet calluses.

The growth and long term survival of Acholeplasma laidlawii in media products used in biopharmaceutical manufacturing.

Acholeplasma laidlawii is a potential contaminant of bovine serum and has also been found as a contaminant in serum free cell culture media products. Anecdotal evidence of A. laidlawii contamination of tryptone soya broth circulated for a number of years before it was acknowledged that the organism could contaminate microbiological broth powders. The occasional occurrence of A. laidlawii in broth powders and possibly in powdered components of cell culture media as part of the normal bioburden poses a serious threat to routine pharmaceutical and biopharmaceutical operations where filtration is the sterilisation method of choice. Absence of visual evidence of contamination cannot be relied upon as there is variation with both organism strain and media product in the ability to produce turbidity. Strains of A. laidlawii which have been isolated from broth powders are not significantly different in temperature or media preferences from other strains. A. laidlawii is capable of growing to high titre at refrigeration and ambient temperatures in unsupplemented bacteriological sterility media or serum free cell culture media and can survive for prolonged periods in these products.

Nutritional effects of culture media on mycoplasma cell size and removal by filtration.

Careful media filtration prior to use is an important part of a mycoplasma contamination prevention program. This study was conducted to increase our knowledge of factors that influence efficient filtration of mycoplasma. The cell size of Acholeplasma laidlawii was measured after culture in various nutritional conditions using scanning electron microscopy. The maximum cell size changed, but the minimum cell size remained virtually unchanged and all tested nutritional conditions resulted in a population of cells smaller than 0.2 microm. Culture in Tryptic Soy Broth (TSB) resulted in an apparent increase in the percentage of very small cells which was not reflected in increased penetration of non-retentive 0.2 microm rated filters. A. laidlawii cultured in selected media formulations was used to challenge 0.2 microm rated filters using mycoplasma broth base as the carrier fluid. We used 0.2 microm rated filters as an analytical tool because A. laidlawii is known to penetrate 0.2 microm filters and the degrees of penetration can be compared. Culture of A. laidlawii in TSB resulted in cells that did not penetrate 0.2 microm rated filters to the same degree as cells cultured in other media such as mycoplasma broth or in TSB supplemented with 10% horse serum.

[Effect of wheat germ agglutinin on acholeplasma--the pathogen of phytomycoplasmosis].

Introduction of wheat germ agglutinin (WGA) to cultural medium of pale green dwarf agent of wheat Acholeplasma laidlawii var. granulum str. 118 gives rise to pleiotropic responses of acholeplasma: activation of growth process, an increase of common protein in comparison with control, a decrease of hemagglutinating activity which results in a decrease of the adhesion properties of pathogen.

[Elaboration of the in vitro model system to study the interaction of phytopathogenic mollicutes with plant cells].

The model system based on the sugar beet calluses infected by mycoplasms (mollicutes) was elaborated, and changes in the callus cells morphology under the effect of these microorganisms were also studied. The calluses of sugar beet 3K51 cultivated on the Gamborg medium were infected by phytopathogenic mollicute Acholaplasma laidlawii var. granulum str.118. Under the effect of mollicute infection one could observe changes in the cell morphology of sugar beet calluses: the plant cells were transformed from round to lengthened, the intensity of polyploids forming was increased, their grouping and their total destruction were observed. Data of electron microscopy confirm the presence of the mollicute in the sugar beet calluses: acholeplasma cells were localized between and within undifferentiated plant cells.

Development of serum-free media for the cultivation and recovery of Acholeplasma laidlawii used for challenge testing sterilizing-grade filters in biopharmaceutical applications.

A serum-free cultivation broth and recovery agar for use in 0.1 micron-rated filter characterization and validation studies for biopharmaceutical applications were developed using Acholeplasma laidlawii as the test microorganism. Selection criteria were (A) a single-stage, serum-free broth medium to support high-titer cell growth and yield a cellular morphology suitable for bacterial challenge testing within 24 h and (B) a serum-free agar growth medium that can recover cells using conventional enumeration techniques. Different formulation components at various concentrations were screened for their effects on growth, cell size, and recovery on membrane filters. An optimized broth, Glucose Hydrolysate Broth, containing glucose, polypeptone, bovine serum albumin, 2-Amino-2-(hydroxymethyl)-1,3-propanediol (Tris base), oleic acid, and palmitic acid produced small 370 X 406 nanometer monodisperse cells at titers in excess of 1 x 10(9) colony-forming units per milliliter (cfu mL(-1)) within 20-24 h of incubation. Glucose Mycoplasma Agar, containing glucose, mycoplasma broth base, bovine serum albumin, Tris base, oleic acid, and palmitic acid, produced colonies approximately 1 mm in size and facilitated recovery on 0.2-microm polyvinylidene fluoride membrane filters. A comparison of recovery of A. laidlawii on Glucose Mycoplasma Agar pour-plate versus membrane filters resulted in an 89 +/- 4% recovery. Linearity across the target recovery range was 0.9992 (r2). Presence/absence tests of filtrate from each 0.2-microm assay membrane resulted in absence of growth as compared to controls, thus demonstrating the suitability of using 0.2-microm membrane filters for recovery of A. laidlawii.

Interactions of the Australian tree frog antimicrobial peptides aurein 1.2, citropin 1.1 and maculatin 1.1 with lipid model membranes: differential scanning calorimetric and Fourier transform infrared spectroscopic studies.

The interactions of the antimicrobial peptides aurein 1.2, citropin 1.1 and maculatin 1.1 with dimyristoylphosphatidylcholine (DMPC), dimyristoylphosphatidylglycerol (DMPG) and dimyristoylphosphatidylethanolamine (DMPE) were studied by differential scanning calorimetry (DSC) and Fourier-transform infrared (FTIR) spectroscopy. The effects of these peptides on the thermotropic phase behavior of DMPC and DMPG are qualitatively similar and manifested by the suppression of the pretransition, and by peptide concentration-dependent decreases in the temperature, cooperativity and enthalpy of the gel/liquid-crystalline phase transition. However, at all peptide concentrations, anionic DMPG bilayers are more strongly perturbed than zwitterionic DMPC bilayers, consistent with membrane surface charge being an important aspect of the interactions of these peptides with phospholipids. However, at all peptide concentrations, the perturbation of the thermotropic phase behavior of zwitterionic DMPE bilayers is weak and discernable only when samples are exposed to high temperatures. FTIR spectroscopy indicates that these peptides are unstructured in aqueous solution and that they fold into alpha-helices when incorporated into lipid membranes. All three peptides undergo rapid and extensive H-D exchange when incorporated into D(2)O-hydrated phospholipid bilayers, suggesting that they are located in solvent-accessible environments, most probably in the polar/apolar interfacial regions of phospholipid bilayers. The perturbation of model lipid membranes by these peptides decreases in magnitude in the order maculatin 1.1>aurein 1.2>citropin 1.1, whereas the capacity to inhibit Acholeplasma laidlawii B growth decreases in the order maculatin 1.1>aurein 1.2 congruent with citropin 1.1. The higher efficacy of maculatin 1.1 in disrupting model and biological membranes can be rationalized by its larger size and higher net charge. However, despite its smaller size and lower net charge, aurein 1.2 is more disruptive of model lipid membranes than citropin 1.1 and exhibits comparable antimicrobial activity, probably because aurein 1.2 has a higher propensity for partitioning into phospholipid membranes.

Acholeplasma laidlawii PG8 culture adapted to unfavorable growth conditions shows an expressed phytopathogenicity.

Mycoplasmas are the smallest, self-replicating, prokaryotic organisms with avid biochemical potential and spreading in higher eukaryotes in nature. In this study, Acholeplasma laidlawii PG8 cells were cultivated on a deficient medium for 480 days resulting in a mycoplasma culture that was adapted in vitro to unfavorable growth conditions. Cells that survive this condition had decreased sizes (about 0.2 microm) and increased phytopathogenicity. This resulted in more frequent appearance of various morphological alterations when plants of vinca (Vinca minor L.) were infected by adapted mycoplasma cells. The increasing pathogenicity was accompanied by changes in genome expression in these adapted cells. Further studies are needed to explore the exact mechanisms that permit adaptation to unfavorable growth conditions and changes in phytopathogenic potential.

[Adaptive reactions of mycoplasmas in vitro: "viable but unculturable forms" and nanocells of Acholeplasma laidlawii].

The adaptation of Acholeplasma laidlawii to conditions unfavorable for growth has been found to be accompanied by cell transformation into special morphological structures known as ultramicroforms (nanocells). The ratio of the cells of the two morphological types in the population depended on the growth conditions. Nanocells retained viability for a long time under conditions unfavorable for growth and showed resistance to stressors. Reduction in the cell size occurred due to unequal division, which involved the loss of cytoplasmic material. A. laidlawii ultramicroforms (nanocells) were able to restore proliferative activity and to revert to their initial vegetative form; they measured less than 0.2 microm and are the smallest cells known at present. Nanocells formed in vitro under exposure to abiogenic stressors may correspond to the A. laidlawii minibodies observed in infected plants upon exposure to biogenic stressors. The transformation of A. laidlawii cells into ultramicroforms was accompanied by condensation of the nucleoid, a change in the polypeptide spectrum, and a change in the availability of rRNA operons for in vitro amplification. All these changes are indicative of reorganization of the genetic and metabolic systems of mycoplasmas.