Genetic Disorders and the Fetus. Группа авторов

Genetic Disorders and the Fetus - Группа авторов


Скачать книгу
represents a complex mixture of growth‐promoting substances, considerable effort has been directed toward formulating serum‐free media in mammalian cell culture.648 Human AFC culture has benefited greatly from the success of these efforts.649, 650 Fetal bovine serum or Chang‐type medium, which includes serum, requires proper storage and handling to preserve its effectiveness. Freeze–thaw cycles and exposure to light are particular problems.651

      Defined growth factor supplements

      The commercial versions of the growth factor‐supplemented media are based on the formulation provided by Chang et al.652, 653 The classic “Chang medium” included transferrin, selenium, insulin, tri‐iodothyronine, glucagon, fibroblast growth factor, hydrocortisone, testosterone, estradiol, and progesterone. These factors are added to a 1 : 1 mixture of Dulbecco's modified Eagles' medium (DMEM) and Ham's F12 medium, plus sodium bicarbonate, and small amounts of HEPES buffer and antibiotics. Chang et al. pointed out that their preferred basic medium mixture can be replaced by a number of other formulae (e.g. Ham's F10 or F12, Coon's modified Ham's F12, McCoy's 5A, RPMI 1640, DMEM, minimal essential medium and TC 199) without detriment. Chang and AmnioMAX media that differ in their buffering systems are available for use in closed or open cell culture systems. As with other aspects of the cell culture art and science, local preferences vary with respect to choice of specialized media, fetal or newborn bovine serum, and whether to mix these media with less costly media.609, 633, 634, 653, 654

      It is assumed that the various peptides, hormones, and trace elements act synergistically on the recruitment of cells into the cycle and keep them from reverting to the G0 stage after completed division. A greater number of cells within a colony will therefore stay in the proliferative pool. The cycle time of individual cells, with the possible exception of the duration of the G1 phase, is not likely to change. Unless Claussen's micropipette method655 is used, a culture period of 5–7 days will thus remain the minimum time requirement for prenatal cytogenetic diagnosis employing AFC cultures. In our laboratory, we experimented with 12‐hour Colcemid exposure and very early harvests. We obtained a small number of metaphase cells after 3 and even 2 days in cell culture but the number of metaphases was insufficient for a complete analysis.

      A drawback noted by some users of Chang and AmnioMAX media – other than the expense – is their limited shelf‐life. Lyophilized or other, more stable media supplements are offered by some manufacturers (e.g. Condimed, UltroSer) but cloning efficiency testing so far has failed to identify a commercial product that consistently yields higher cloning efficiencies than fresh lots of Chang media.604 Use of Chang‐type media may augment the incidence of chromosome breakage and chromosomal mosaicism in AFC cultures but rarely to the extent that the cytogenetic interpretation is compromised.656659 This may in part result from the fact that Chang media can facilitate the growth of E‐type colonies and these colonies yield higher rates of random chromosome changes.588, 611 However, the advantages gained by the reduction of turnaround time and the substantial decrease of culture failures using Chang‐type media appear to outweigh the potential drawbacks of increased chromosomal breakage and pseudomosaicism.

      Culture failure

      Syringe toxicity and delayed transportation

      One serious hazard is transmittal of AF in toxic syringes or tubes.666, 667 AF samples should not be transported in syringes; rather, the fluid should always be promptly transferred and transported in conical centrifuge tubes with plastic caps, spinal tap tubes or similar specimen transport containers. Rubber‐capped tubes and stoppered syringes should not be used as storage or transport containers for AF. Problems reported in the United States prompted one manufacturer to recommend minimizing both the time of AF in the syringe and contact with the stopper attached to the plunger rod.

      Although it is advisable to deliver AF samples to the laboratory without delay, in our experience with AF specimens transported by courier and various delivery services, cell viability is maintained for at least 5 days, assuming the sample is not exposed to extreme temperatures. There is one report of successful cell cultures after unfortunate delays of more than 2 weeks.668

      Microbial contamination

      Microbial contamination is a rare cause of culture failure in experienced laboratories and is largely preventable. As noted earlier, AF itself has bacteriocidal properties. If overwhelming microbial contamination is apparent within 24 hours after setup, it is probably due to improper handling of the specimen between amniocentesis and delivery to the laboratory (e.g. leakage from loose screw caps or poorly packaged syringes).

      Approximately 10–20 percent of all samples are cell rich and their turbidity should not be a source of anxiety with regard to possible contamination. This also holds for brownish fluids containing cellular debris and granules in addition to erythrocytes. Seguin and Palmer669 measured cell growth from clear, cloudy (cell‐rich), bloody, and dark brown fluids. They showed that cloudy fluids yield better growth than clear ones. They confirmed earlier observations670 that very bloody fluids adversely affect the cloning efficiency. If bacterial or yeast contamination arises during the course of cell culture, it is by no means hopeless to attempt to salvage such cultures. Penicillin‐, streptomycin‐, or fungicide‐supplemented media are used to feed cultures daily after initial frequent washings. Increased chromosomal breakage rates and elevated rates of pseudomosaicism may be observed in such salvaged cultures but if the metaphase cells are analyzable, this rarely interferes with interpretation of the results.

      Mycoplasma

      Mycoplasma is not a significant problem in AFC culture, due mainly to better quality control by the serum manufacturers but also to the awareness of cell culturists that AFC cultures should not share incubator space with established cell lines. A shared water bath used for heating media and trypsin can be a source of mycoplasma contamination because permanent cell lines, frequently shipped from laboratory to laboratory, remain the prevailing source of mycoplasma contamination. As additional protection, many laboratories heat‐inactivate their sera before use. Commercial test kits are available for the detection of mycoplasma infections in cell cultures.671

      Plastic ware and media storage


Скачать книгу