Elimination of mycoplasmas from cell cultures utilizing hyperimmune sera

Eighteen cell lines contaminated with various mycoplasmas have been treated with hyperimmune sera and mycoplasmas have been eradicated from all. After treatment the cell lines have been observed for a least one year and they are still free from mycoplasma contamination as ascertained by four independent mycoplasma detection assays. The hyperimmune sera used were of high titer, type-specific and growth-inhibiting. These sera were produced by immunization of rabbits with purified membranes from Mycoplasma orale, M. arginini, M. hominis, M. fermentans, M. hyorhinis and Acholeplasma laidlawii. In addition to elimination of mycoplasmas from cell cultures we have successfully used these sera for detection and typing of mycoplasma contamination in cell cultures.     

Metal-induced extracellular protein excretion in Arthrobacter aurescens

Abstract Mycoplasma contamination of cell cultures is a menace to diagnostic and research procedures. Rapid and reliable detection methods are, therefore, sorely needed. After comparing 16S rRNA sequences from those mycoplasmas that contaminate cell cultures, three different oligonucleotide probes were constructed. Two of these probes were designed to be group-specific and one to be species-specific. The three oligonucleotide probes were designed to cover all mycoplasmas commonly isolated from cell cultures. Contaminated cell lines could easily be detected by a direct filter hybridization assay in which the probes were incubated jointly. The assay proved to be rapid and sensitive with the possibility to perform and evaluate the mycoplasma testing within one working day.     

一种快速判定细胞培养中支原体污染的方法——瓜氨酸测定法

目的：开发一种简便、快速、能及时发现细胞培养中支原体污染的方法。方法：用HPLC检测细胞培养中瓜氨酸是否存在及其量的大小。结果：当细胞培养被支原体污染时,培养基中精氨酸量明显下降,同时有瓜氨酸出现;当支原体被消除后,瓜氨酸即消失。结论：在细胞培养中瓜氨酸的出现与支原体污染的关系是特异的,用HPLC在2h内即可检出,表明该方法可靠、简便、快速,可作为细胞培养过程中支原体污染的常规监测手段。     

Detection of mycoplasma contaminations in cell cultures by PCR analysis

Mycoplasma contamination is still one of the main problems in using cell cultures in biological and medical research and in the production of bioactive substances, because mycoplasma can alter nearly all parameters and products of the cell. They can persist undetected in the culture if no special detection methods are applied. In recent years, the PCR technology has become a commonly used method to analyze genomic DNA and the expression of genes, with both high specificity and sensitivity. This technique can be effectively employed for the detection and even the identification of mycoplasma contaminations in cell cultures applying primers complementary to the 16S rDNA region. Although this technique, once established, is characterized by simplicity and speed, PCR is still a complex process and its sensitivity and specificity can be influenced by a number of different parameters, e.g. inhibiting compounds originating from the preparation process of the DNA, RNA or cDNA, contamination of the solutions with PCR products, and the selection of a primer pair which does not cover all the mycoplasma species occurring in cell cultures. Thus, adequate controls have to be included to obtain reliable results. The present review examines the use of different primers of the 16S rDNA region including their specificity, the sensitivity applying various DNA or RNA preparation procedures, and the methods to detect finally the amplicons. In conclusion, basic nucleic acid preparation and PCR product detection methods offer a simple, fast and reliable technique for the examination of mycoplasma contaminations in cell cultures, provided that the indispensable control assays are implemented.     

Sensitivity of biochemical test in comparison with other methods for the detection of mycoplasma contamination in human and animal cell lines stored in the National Cell Bank of Iran

Mycoplasma contamination in cell culture is considered as serious problem in the manufacturing of biological products. Our goal in this research is to find the best standard and rapid method with high sensitivity, specificity, accuracy and predictive values of positive and negative results for detection of mycoplasma contamination in cell cultures of the National Cell Bank of Iran. In this study, 40 cell lines suspected to mycoplasma contamination were evaluated by three different methods: microbial culture, enzymatic mycoalert^® and molecular. Enzymatic evaluation was performed using the mycoalert^® kit while in the molecular technique, a universal primer pair was designed based on the common and fixed 16SrRNA ribosomal sequences used. Mycoplasma contaminations in cell cultures with molecular, enzymatic and microbial culture methods were determined as 57.5, 52.5 and 40 %, respectively. These results confirmed the higher rate of sensitivity, specificity and accuracy for the molecular method in comparison with enzymatic and microbial methods. Polymerase chain reaction (PCR) assay based on fixed and common sequences in the 16SrRNA, is a useful valuable and reliable technique with high sensitivity, specificity and accuracy for detection of mycoplasma contamination in cell cultures and other biological products. The enzymatic mycoalert^® method can be considered as a substitution for conventional microbial culture and DNA staining fluorochrome methods due to its higher sensitivity, specificity and speed of detection (<20 min).     

Real-time PCR assay is superior to other methods for the detection of mycoplasma contamination in the cell lines of the National Cell Bank of Iran

Mycoplasmas are the most important contaminants of cell cultures throughout the world. They are considered as a major problem in biological studies and biopharmaceutical economic issues. In this study, our aim was to find the best standard technique as a rapid method with high sensitivity, specificity and accuracy for the detection of mycoplasma contamination in the cell lines of the National Cell Bank of Iran. Thirty cell lines suspected to mycoplasma contamination were evaluated by five different techniques including microbial culture, indirect DNA DAPI staining, enzymatic mycoalert^® assay, conventional PCR and real-time PCR. Five mycoplasma-contaminated cell lines were assigned as positive controls and five mycoplasma-free cell lines as negative controls. The enzymatic method was performed using the mycoalert^® mycoplasma detection kit. Real-time PCR technique was conducted by PromoKine diagnostic kits. In the conventional PCR method, mycoplasma genus-specific primers were designed to analyze the sequences based on a fixed and common region on 16S ribosomal RNA with PCR product size of 425 bp. Mycoplasma contamination was observed in 60, 56.66, 53.33, 46.66 and 33.33 % of 30 different cell cultures by real-time PCR, PCR, enzymatic mycoalert^®, indirect DNA DAPI staining and microbial culture methods, respectively. The analysis of the results of the different methods showed that the real-time PCR assay was superior the other methods with the sensitivity, specificity, accuracy, predictive value of positive and negative results of 100 %. These values were 94.44, 100, 96.77, 100 and 92.85 % for the conventional PCR method, respectively. Therefore, this study showed that real-time PCR and PCR assays based on the common sequences in the 16S ribosomal RNA are reliable methods with high sensitivity, specificity and accuracy for detection of mycoplasma contamination in cell cultures and other biological products.     

Detection and control of occult mycoplasma contamination in human tumor cell lines

Summary Mycoplasma contamination of established cell lines is a well-known but often poorly controlled artefactual problem in immunological studies of human tumor cell lines. We have evaluated four methods for detecting mycoplasmas in cell lines, namely direct culture, DNA staining, uridine phosphorylase assay, and a fourth technique based on our finding that the supernatant medium of mycoplasma-infected cell cultures inhibits thymidine uptake of mitogen-stimulated peripheral blood lymphocytes. In our hands the simplest, most reliable, and least expensive means of monitoring cell cultures for mycoplasma proved to be DNA staining. The uridine phosphorylase assay was unsuitable for use with melanoma cell lines, as six of eight lines that were negative with the other three techniques were positive with this assay.Of 14 contaminated cell lines injected to nude mice, eitht produced tumors, five of which were shown to be mycoplasma-free after one to five passages, confirming the usefulness of this approach for salvaging contaminated cell lines.     

Detection and identification of Mycoplasma infections by DNA hybridization

Infection of cell cultures by mycoplasmas can be detected by hybridization of the DNA of suspected cell cultures with recombinant plasmids containing fragments of the mycoplasma DNA. The test is very sensitive and allows detection of as little as 1 ng of mycoplasmal DNA, roughly equivalent to the DNA amount of 10(6) mycoplasmas. This approach turns out to be effective for detection and identification of mycoplasmas in clinical material, plant and insect tissues. A set of DNA probes for detection of mycoplasmas infecting cell cultures by dot hybridization has been constructed. This set consists of specific DNA probes and universal DNA probe. Recombinant plasmids, pAl32, pMa13, pMh9, containing specific DNA fragments of Acholeplasma-laidlawii, Mycoplasma arginini, Mycoplasma hominis (the prevalent mycoplasma contaminants of home cell cultures) are species-specific DNA probes. Recombinant plasmid pMg16 containing rRNA genes of Mycoplasma gallisepticum is the universal DNA probe for detection of any mycoplasma (or any prokaryote) contaminations. These two classes of DNA probes may be considered as complementing each other. These 32P labeled probes do not hybridize with eukaryotic DNA. The set of DNA probes allows not only to detect infection of cell cultures by mycoplasmas but also to identify the species of mycoplasmas and to evaluate the multiplicity of mycoplasma infection.     

An autoradiographic screening test for mycoplasmal contamination of mammalian cell cultures

Summary Autoradiographic detection of incorporation of tritiated thymidine into the cytoplasm of cultured mammalian cells has been evaluated as a test of contamination of the cultures by cell-associated microorganisms, which usually are mycoplasmas. Criteria which indicate the presence of cell-associated mycoplasmas have been established, and the reliability of the standardized autoradiographic method has been assessed by testing the same cultures by two colony formation methods of mycoplasmal detection. The autoradiographic method demonstrated cell-associated microorganisms in all cultures from which characteristic colonies were grown on mycoplasma agar. The autoradiographic method did not produce false positive results, and the outcome of this test was evident in 3 days as opposed to 7 to 14 days by agar culture methods. Some applications of the autoradiographic method are shown, and it is suggested that this method be employed for routine surveillance for mycoplasmal contamination in laboratories where facilities for frequent agar culture tests are not easily available. This research was supported by U.S. Public Health Service Grants CA 12351-02 and CA 12334-01 from the National Cancer Institute.     

In situ detection of mycoplasma contamination in cell cultures by fluorescent Hoechst 33258 stain

A simple, fast, and easily reproducible routine laboratory technique for detecting mycoplasma contamination in cell cultures is reported. Cells grown on a coverslip are fixed directly with Carnoy's, air-dried, stained with DNA-specific fluorescent Hoechst 33258, and examined microscopically. All cultures that were infected with mycoplasmas had readily discernible, small, morphologically uniform, bright fluorescent bodies in the extranuclear and intercellular space in contrast to the non-contaminated control cultures in which the extra-nuclear background appeared uniformly dark. To probe the degree of sensitivity to detect mycoplasmas, control cultures were infected with aliquots from serially diluted cells or media collected from Mycoplasma hyorhinus infected cultures. The lowest infection rate (0.40% by sampling 1 000 cells in average per culture 4–24 h after infection) scored presently, however, can easily be lowered by increasing sample size since a cell infected with even one mycoplasma can be discerned. These mycoplasmas resisted centrifugation at 2 500 rpm for 30 min and easily filtered through 0.22 μm pore-size filter membrane. Amazingly infection rate of 0.63% scored from 24 h post-infection incubation attained 100% contamination with several hundreds of mycoplasmas per host cell within 120 h.     

Detection of mycoplasma contamination in cell cultures by a mycoplasma group-specific PCR.

The suitability of a 16S rRNA-based mycoplasma group-specific PCR for the detection of mycoplasma contamination in cell cultures was investigated. A total of 104 cell cultures were tested by using microbiological culture, DNA fluorochrome staining, DNA-rRNA hybridization, and PCR techniques. A comparison of the results obtained with these techniques revealed agreement for 95 cell cultures. Discrepant results, which were interpreted as false negative or false positive on the basis of a comparison with the results obtained with other methods, were observed with nine cell cultures. The microbiological culture technique produced false-negative results for four cell cultures. The hybridization technique produced false-negative results for two cell cultures, and for one of these cell cultures the DNA staining technique also produced a false-negative result. The PCR may have produced false-positive results for one cell culture. Ambiguous results were obtained with the remaining two cell cultures. Furthermore, the presence of contaminating bacteria interfered with the interpretation of the DNA staining results for 16 cell cultures. For the same reason the hybridization signals of nine cell cultures could not be interpreted. Our results demonstrate the drawbacks of each of the detection methods and the suitability of the PCR for the detection of mycoplasmas in cell cultures.     

Semi-automated relative quantification of cell culture contamination with mycoplasma by Photoshop-based image analysis on immunofluorescence preparations

Mycoplasma contamination in cell culture is a serious setback for the cell-culturist. The experiments undertaken using contaminated cell cultures are known to yield unreliable or false results due to various morphological, biochemical and genetic effects. Earlier surveys revealed incidences of mycoplasma contamination in cell cultures to range from 15 to 80%. Out of a vast array of methods for detecting mycoplasma in cell culture, the cytological methods directly demonstrate the contaminating organism present in association with the cultured cells. In this investigation, we report the adoption of a cytological immunofluorescence assay (IFA), in an attempt to obtain a semi-automated relative quantification of contamination by employing the user-friendly Photoshop-based image analysis. The study performed on 77 cell cultures randomly collected from various laboratories revealed mycoplasma contamination in 18 cell cultures simultaneously by IFA and Hoechst DNA fluorochrome staining methods. It was observed that the Photoshop-based image analysis on IFA stained slides was very valuable as a sensitive tool in providing quantitative assessment on the extent of contamination both per se and in comparison to cellularity of cell cultures. The technique could be useful in estimating the efficacy of anti-mycoplasma agents during decontaminating measures.     

Development of a PCR method for mycoplasma testing of Chinese hamster ovary cell cultures used in the manufacture of recombinant therapeutic proteins

Chinese hamster ovary (CHO) cell cultures used to produce biopharmaceuticals are tested for mycoplasma contamination as part of the ensurance of a safe and pure product. The current U.S. Food and Drug Administration (FDA) regulatory guideline recommends using two procedures: broth/agar cultures and DNA staining of indicator cell cultures. Although these culture methods are relatively sensitive to most species, theoretically capable of detecting as few as 1-10 cfu/ml of most species, the overall procedure is lengthy (28 d), costly and less sensitive to noncultivable species. The detection of mycoplasma using the polymerase chain reaction (PCR) method has been considered an alternative method because it is relatively fast (1-2 d), inexpensive, and independent of culture conditions, however, limitations in sensitivity (limit of detection >/=1000 cfu/ml) and the risk of false positive and false negative results have prevented PCR from replacing the traditional culture methods in the industrial setting. In this report, we describe a new PCR assay for mycoplasma detection that appears to resolve these issues while being sufficiently simple and inexpensive for routine use. This assay applies readily available techniques in DNA extraction together with a modified single-step PCR using a previously characterized primer pair that is homologous to a broad spectrum of mycoplasma species known to infect mammalian cell cultures. Analysis is made easy by the detection of only a single amplification product within a narrow size range, 438-470 bp. A high sensitivity and specificity for mycoplasma detection in CHO cell production cultures is made possible through the combination of three key techniques: 8-methoxypsoralen and UV light treatment to decontaminate PCR reagents of DNA; hot-start Taq DNA polymerase to reduce nonspecific priming events; and touchdown- (TD-) PCR to increase sensitivity while also reducing nonspecific priming events. In extracts of mycoplasma DNA, the limit of detection for eight different mycoplasma species is 10 genomic copies. In CHO cell production cultures containing gentamicin, the limit of detection for a model organism, gentamicin-resistant M. hyorhinis, is 1 cfu/ml. The sensitivity and specificity of this PCR assay for mycoplasma detection in CHO cell production cultures appear similar to the currently used culture methods and thus should be considered as an alternative method by the biopharmaceutical industry.     

Treatment of mycoplasma contamination in a large panel of cell cultures

Summary Mycoplasmal contamination remains a significant impediment to the culture of eukaryotic cells. For certain cultures, attempts to eliminate the infection are feasible alternatives to the normally recommended disposal of the contaminated culture. Here, three antibiotic regimens for mycoplasmal decontamination were compared in a large panel of naturally infected cultures: a 1-wk treatment with the fluoroquinolone mycoplasma removal agent (MRA), a 2-wk treatment with the fluoroquinolone ciprofloxacin, and three rounds of a sequential 1-wk treatment with BM-Cyclin containing tiamulin and minocyclin. These antibiotic treatments had a high efficiency of permanent cure: MRA 69%, ciprofloxacin 75%, BM-Cyclin 87%. Resistance to mycoplasma eradication was observed in some cell cultures: BM-Cyclin 0%, MRA 20%, ciprofloxacin 20%. Nearly all resistant contaminants that could be identified belonged to the speciesMycoplasma arginini andM. orale. Detrimental effects of the antibiotics were seen in the form of culture death caused by cytotoxicity (in 5 to 13% of the cultures). Alterations of the cellular phenotypic features or selective clonal outgrowth might represent further untoward side effects of exposure to these antibiotics. Overall, antibiotic decontamination of mycoplasmas is an efficient, inexpensive, reliable, and simple method: 150/200 (75%) chronically and heavily contaminated cultures were cured and 50/200 (25%) cultures could not be cleansed and were either lost or remained infected. It is concluded that eukaryotic cell cultures containing mycoplasmas are amenable to antibiotic treatment and that a cure rate of three-quarters is a reasonable expectation.     

The scope of mycoplasma contamination within the biopharmaceutical industry

Mycoplasma is well recognized as one of the most prevalent and serious microbial contaminants encountered within the manufacturing of biopharmaceuticals from the research phase to clinical development and production. The potential for mycoplasma contamination within cell culture systems was first identified by Robinson et al. in 1956 [1]. Presently, contamination rates in established cell cultures have been reported between 15 and 35% with considerably higher occurrence cited in certain selected populations [2]. In the last few years, there has been an expansion of diagnostic approaches for mycoplasma detection with the development and validation of rapid microbiological methods. The objective of this study was to determine current levels of mycoplasma infection of cell cultures, cell substrates and biologicals within a client based population. Retrospective comparison of 40,000 sample results was done to determine total contaminations rates amongst four (4) individual analytical assays. The establishment of reference data, such as existing contamination rates, becomes important in the critical appraisal of rapid microbiological methods for the detection of mycoplasma.     

细胞培养过程中支原体污染的检测和去除研究

细胞培养过程中的支原体污染相当普遍。如何快速、简便地检测支原体,并且采取有效措施去除支原体一直是细胞培养中急待解决的难题。本文就近年来有关支原体检测及去除方面的工作加以综述。     

Note from the Biological Stain Commission: Certification of Wright Stain Solution

DNA fluorochrome staining with Hoechst 33258 bisbenzimide is commonly used for detection of mycoplasma contamination in cell cultures. Photobleaching of Hoechst 33258 is pronounced under the conditions of intense illumination, high magnification and resolution required for detection of mycoplasmas. To reduce photobleaching we investigated the effects of some antioxidant molecules, p-phenylenediamine (PPD), n-propyl gallate (NPG) and 1,4-diazabicyclo(2,2,2)octane (DABCO), which are known to reduce the fading rate of fluorescein. Mycoplasma-contaminated cell monolayers were stained with Hoechst 33258 and mounted in glycerol containing different amounts of antioxidant additives. The cells were examined in an epifluorescence microscope, and the emitted light intensity was recorded. Results showed that PPD and, to a lower degree, NPG, retarded the photobleaching of Hoechst 33258-stained cells, whereas DABCO was not effective. However, fluorescence half-life was increased about three-fold by NPG and almost 20-fold by PPD. The rate of fluorescence fading of Hoechst 33258 can therefore be retarded by PPD, with obvious advantages for reading and photographic recording of results.     

Detection of mycoplasma contamination in tissue cultures by fluorescence microscopy

Summary The in situ staining method of Chen (1977) for the detection of mycoplasma contaminants in tissue cultures was tested in cultures of human skin fibroblasts after controlled contamination with Mycoplasma arginini. It is concluded that this method is reliable only at infection rates of 100% or higher, i.e., at one mycoplasma or more per tissue-culture cell.     

The Effects of Mycoplasma Contamination upon the Ability to Form Bioengineered 3D Kidney Cysts

Mycoplasma contamination of cell cultures is a pervasive, often undiagnosed and ignored problem in many laboratories that can result in reduced cell proliferation and changes in gene expression. Unless contamination is specifically suspected, it is often undetected in two dimensional (2D) cultures and the resulting effects of mycoplasma contamination are rarely appreciated and can lead to incorrect conclusions. Three dimensional (3D) tissue cultures are increasingly utilized to explore tissue development and phenotype. However, 3D cultures are more complex than 2D cell cultures and require a more controlled cellular environment in order to generate structures necessary to mimic in vivo responses and are often maintained for longer time periods. Changes to the microenvironment are assumed to have a more extreme effect upon the success of 3D tissue cultures than 2D cell cultures, but the effects of mycoplasma have not been studied. To test this hypothesis, we grew 2D cell cultures and 3D tissues from pig kidney epithelial cells (LLC-PK1) that were contaminated with mycoplasma and the same stock of cells after mycoplasma removal. We did not observe an effect of mycoplasma contamination on proliferation in 2D monolayer cell culture. However, cyst formation in 3D tissues was altered, with effects upon the number, size and structure of cysts formed. These data serve to reinforce the necessity of testing cell stocks for mycoplasma contamination.     

Hoechst 33258 Staining for Detecting Mycoplasma Contamination in Cell Cultures: a Method for Reducing Fluorescence Photobleaching

DNA fluorochrome staining with Hoechst 33258 bisbenzimide is commonly used for detection of mycoplasma contamination in cell cultures. Photobleaching of Hoechst 33258 is pronounced under the conditions of intense illumination, high magnification and resolution required for detection of mycoplasmas. To reduce photobleaching we investigated the effects of some antioxidant molecules, p-phenylenediamine (PPD), n-propyl gallate (NPG) and 1,4-diazabicyclo(2,2,2)octane (DABCO), which are known to reduce the fading rate of fluorescein. Mycoplasma-contaminated cell monolayers were stained with Hoechst 33258 and mounted in glycerol containing different amounts of antioxidant additives. The cells were examined in an epifluorescence microscope, and the emitted light intensity was recorded. Results showed that PPD and, to a lower degree, NPG, retarded the photobleaching of Hoechst 33258-stained cells, whereas DABCO was not effective. However, fluorescence half-life was increased about three-fold by NPG and almost 20-fold by PPD. The rate of fluorescence fading of Hoechst 33258 can therefore be retarded by PPD, with obvious advantages for reading and photographic recording of results.