Explant culture of rat esophagus in a chemically defined medium

Summary Esophagus from adult male CDF rats was cultured for a period of 28 d in CMRL-1066 medium supplemented with pyruvic acid, HEPES buffer, β-retinyl acetate, and antibiotics. Morphological, radioautographic, and biochemical studies indicated that the survival of the tissue in serum-free medium was equivalent to that in medium containing 5% heat-inactivated fetal bovine serum. There was a relatively constant uptake of [³H]thymidine into DNA and [³H]leucine into protein of the esophageal explants during the incubation. Only the basal cells of the epithelium incorporated [³H]thymidine into their nuclei. The normal morphology of the tissue was preserved when the explants were maintained at both 37 and 30° C, and in either 50 or 20% O₂. Ninety-five percent O₂ was highly toxic to the cells of the explants. This culture system should be suitable for a variety of investigations in esophageal cell differentiation and carcinogenesis.     

Calf articular cartilage in organ culture in a chemically defined medium

In Vitro Cellular &; Developmental Biology - Plant - Articular cartilage from 6-month-old calves was maintained in organ culture in Eagle's minimum essential medium at different oxygen...     

Primary culture of adrenal medullary chromaffin cells in a chemically defined medium

Primary cultures of bovine adrenal medullary chromaffin cells have been maintained in the absence of serum for up to 3 weeks. Chromaffin cell catecholamine and protein contents were maintained, after an initial loss at the time of plating, as were the functional properties of the cells, including nicotine-evoked, calcium-dependent catecholamine secretion. Important factors in the maintenance of chromaffin cells included the cell plating density, frequency of medium replacement, and extent of medium replacement, suggesting ‘conditioning’ of the culture medium. Initially, serum was used for the first 48 h of culture, but pretreatment of the tissue culture plates with fibronectin allows complete elimination of serum from the plating medium. The establishment of serum-free culture conditions for chromaffin cells should facilitate the study of their cell biology and biochemistry.     

Growth of neural cell cultures in a chemically defined,serum-free culture medium

The composition of a serum-free, completely chemically defined culture medium which supports active growth of dissociated neural-cells in culture is described. This serum-free medium can also be used to grow many types of human cell lines without modification. It is the first report which describes the development of a wholly chemically defined, synthetic culture medium for growth of neural cells.     

Isolation and pure culture of a freshwater magnetic spirillum in chemically defined medium.

A bipolarly flagellated magnetotactic spirillum containing intracellular chains of single domain-sized magnetite crystals was isolated by applying a magnetic field to sediments from a freshwater swamp. The organism was cultured in a chemically defined medium containing ferric quinate and succinate as sources of iron and carbon, respectively. Nonmagnetic variants of this isolate were maintained in chemically defined medium lacking ferric quinate. In contrast to magnetic cells, these had less iron and lacked measurable magnetic remanence and the intracytoplasmic crystals. In other respects, including moles percent guanine plus cytosine content, growth characteristics, nutrition, and physiology, the two types were similar. The isolate reduced nitrate without accumulating nitrite and produced ammonia during growth. Nitrate or ammonium ions served as a nitrogen source. The organism was microaerophilic and did not grow anaerobically with nitrate in the medium. In chemically defined medium, cells synthesized magnetite only if the initial O2 concentration in the atmosphere of sealed cultures was 6% (vol/vol) or less.     

In vitro development of theDrosophila chorion in a chemically defined organ culture medium

Summary TheDrosophila chorion is produced normally in isolated follicles in Robb's chemically defined culture medium. The complex architecture of the shell developed in vitro from follicles as young as early stage 10 is completely normal morphologically. In addition, the time required for in vitro development closely approximates that observed for in vivo development. Comparisons of insect culture media developed by Robb, Grace, Schneider, and Echalier show large variations in their ability to supportDrosophila chorion development.     

Lovastatin biosynthesis by Aspergillus terreus in a chemically defined medium

Lovastatin is a secondary metabolite produced by Aspergillus terreus. A chemically defined medium was developed in order to investigate the influence of carbon and nitrogen sources on lovastatin biosynthesis. Among several organic and inorganic defined nitrogen sources metabolized by A. terreus, glutamate and histidine gave the highest lovastatin biosynthesis level. For cultures on glucose and glutamate, lovastatin synthesis initiated when glucose consumption levelled off. When A. terreus was grown on lactose, lovastatin production initiated in the presence of residual lactose. Experimental results showed that carbon source starvation is required in addition to relief of glucose repression, while glutamate did not repress biosynthesis. A threefold-higher specific productivity was found with the defined medium on glucose and glutamate, compared to growth on complex medium with glucose, peptonized milk, and yeast extract.     

Induction of the acrosome reaction in ejaculated goat spermatozoa by preincubation in chemically defined medium

The aim of the present study was to examine the effects of the elimination of energy substrate from the medium and the effects of the preincubation vessel, temperature, and time on the induction of the acrosome reaction in ejaculated goat spermatozoa in chemically defined medium. Washed spermatozoa were resuspended in Brackett-Oliphant (BO) medium or substrate-free BO medium to give a high concentration and preincubated in open test tubes or sealed glass tubes at 37.0 or 39.5 degrees C for 1, 2, or 3 h. Sperm acrosome reaction was evaluated using a simplified triple-stain technique and a hamster test. It was found that the goat sperm acrosome reaction occurred more readily in the sealed glass tubes than in open test tubes, in substrate-free BO medium than in BO medium, and at 39.5 than at 37.0 degrees C. During preincubation with substrate-free BO medium in sealed glass tubes at 39.5 degrees C, the optimum time necessary to induce the acrosome reaction in goat spermatozoa was 2-3 h.     

A novel chemically defined serum- and feeder-free medium for undifferentiated growth of porcine pluripotent stem cells

Development and improvement of in vitro culture system supporting self-renewal and unlimited proliferation of porcine pluripotent stem cells (pPSCs) is an indispensable process for the naïve pPSCs establishment. In this study, we modified the previous culture system and attempted to develop a novel chemically defined medium (KOFL) for the establishment of pPSCs. It has been cultured >45 passages with flat colony morphology and normal karyotypes in in vitro environment. These cells exhibited alkaline phosphatase activity and expressed pluripotency markers such as OCT4, SOX2, and NANOG, and also possessed differentiation abilities both in vitro and in vivo, proving by the formation of embryonic bodies and teratomas into three germ layers. Then the cells transfected with a green fluorescent protein (GFP) and the GFP positive cells contribute to the porcine preimplantation embryo development. In addition, these cells maintained long duration under feeder-free condition. In conclusion, our results demonstrated that the pPSCs could be derived from preimplantation porcine embryos in serum-free medium and cultured under the feeder-free condition, providing an effective reference for further optimization of the pPSCs culture system.     

Babesia bovis: culture of laboratory-adapted parasite lines and clinical isolates in a chemically defined medium

Babesiosis caused by Babesia spp. is a disease of both veterinary and human importance. Here, we describe a method to continuously culture laboratory lines and field isolates of Babesia bovis in vitro in a chemically defined medium using (ALBU)MAX II as an alternative to bovine serum. Further, we have successfully cultured parasite isolates directly from cattle that failed to grow in traditional serum-containing medium. Variation of atmospheric gas composition and culture volumes to determine optimal growth conditions revealed that a 600-microl culture in an atmosphere comprising 5% O(2), 5% CO(2), and 90% N(2) achieved a significantly higher percentage of parasitized red blood cells than any other combination tested. The process could be scaled up to reliably produce large volumes of parasites. Supplementation of the culture medium with hypoxanthine further improved parasite growth. B. bovis cultured in this way could be the basis of an alternative, safer vaccine and a reliable source of parasites and exoantigens for parasitological research.     

Cultivation of Pasteurella haemolytica in a chemically defined medium

A chemically defined medium was developed for the aerobic cultivation of Pasteurella haemolytica. Studies on the growth of strain H44L were conducted in a medium consisting of 15 amino acids, inorganic salts, citrate, nicotinamide, pantothenate, thiamine or thiamine monophosphate, and carbon sources. The amino acids were provided as l isomers, because racemic mixtures of some amino acids inhibited growth. The carbon source consisted of a mixture of 1.0% d-galactose and 0.1% d-glucose. Culture populations of strain H44L reached 2 x 10(10) cells per milliliter after 16 hr of incubation at 37.5 C. Other strains of P. haemolytica, from a wide variety of sources, were tested for growth in the medium, and 23 of 24 strains grew well. Five strains of P. haemolytica var. ureae failed to grow in the medium.     

Developmental competence of porcine oocytes selected by brilliant cresyl blue and matured individually in a chemically defined culture medium

The objective of this study was to investigate the effects of oocyte selection using brilliant cresyl blue (BCB) and culture density during individual in vitro maturation (IVM) on porcine oocyte maturity and subsequent embryo development using a chemically defined medium. Cumulus-oocyte complexes (COCs) were classified as BCB-positive or BCB-negative after exposure to a BCB solution for 90 min. The classified COCs were matured in a group (15 COCs per 100-μL droplet) or individually (1 COC per 1-, 2.5-, 5-, or 10-μL droplet). Meiotic competence, intraoocyte glutathione concentration, and developmental competence after intracytoplasmic sperm injection were monitored. The BCB selected oocytes competent for nuclear and cytoplasmic maturation. Furthermore, meiotic competence for oocytes matured individually in a 5-μL droplet was superior (P < 0.05) to that of oocytes matured in a 1-μL droplet. Also, the culture density in a 5-μL droplet during IVM resulted in a higher (P < 0.05) rate of cleaved embryos than that in a 1-μL droplet and produced a similar rate of blastocysts compared with that of a group culture system. Conversely, BCB selection did not improve cleavage and blastocyst formation. In conclusion, it was possible to predict porcine oocytes competent for maturation using oocyte selection with BCB. Moreover, a 5-μL droplet during the individual IVM culture was most suitable for oocyte maturation and subsequent embryo development, although every culture density used in this study supported development up to the blastocyst stage.     

Embryonic stem cell development in a chemically defined medium

Vertebrate germ layer development is an intricately interwoven process with the organism operating as an integrated whole. To examine these processes we have used embryonic stem (ES) cell in vitro differentiation in a serum-free, chemically defined medium (CDM). In CDM, ES cells differentiate as embryoid bodies to neuroectoderm with upregulation of pax-6, without commensurate expression of Brachyury. In the presence of Activin A, pax-6 and Brachyury mRNAs are readily detectable, suggestive of both neuroectoderm and mesoderm formation, while in the presence of BMP-4 a process resembling primitive streak formation at the molecular level occurs. Neuroectoderm development in CDM alone is consistent with the view that this process can occur by default, as reported in Xenopus, due to the absence or sequestration of mesoderm-inducing factors. Additionally, these data show that BMP-4 alone is capable of instigating a process resembling primitive streak formation in ES cells and possibly in vivo.     

Growth and hemolysin production by Haemophilus pleuropneumoniae cultivated in a chemically defined medium

A chemically defined medium (CDM) has been developed which supports both growth and hemolysin production by Haemophilus pleuropneumoniae. Although the growth rate in stationary cultures was substantially slower in CDM than in trypticase soy broth plus 0.6% yeast extract (TSBYE) and slightly slower than in heart infusion broth (HIB), extracellular hemolysin activity in CDM was slightly higher than in HIB and 16-fold greater than in TSBYE. Maximum hemolytic activity was produced in CDM in early to mid log phase of growth. Hemolytic activity in sterile, cell-free culture supernatant fluids persisted for over 10 days at 4 degrees C and 3-5 days at 37 degrees C, but was completely destroyed at 56 degrees C after 30 min. Total hemolysin inactivation was also achieved in the presence of trypsin or pronase (10 units/mL), but no decrease in hemolytic activity was noted in the presence of DNase or RNase. Iron had little effect on the hemolytic activity in the early stages of growth. However, in the later stages of growth, iron had a pronounced effect with hemolytic activity decreasing as the iron concentration increased from 1 to 500 microM. None of these iron concentrations had any effect on the hemolytic activity when added directly to prepared cell-free culture supernatant fluids. The extracellular hemolysin produced by H. pleuropneumoniae in CDM appears to be a heat-labile protein the activity of which is influenced by iron at certain phases of growth.     

Factors affecting aflatoxin production by Aspergillus parasiticus in a chemically defined medium

The optimum levels of sucrose, (NH4)2SO4, MgSO4, KH2PO4 and ZnSO4 for aflatoxin production in a chemically defined medium have been established. The last two were found to be essential for fungal growth and aflatoxin production. The effect of various carbon sources on aflatoxin production was tested using the defined medium. Asparagine was found to be essential for aflatoxin production. Very little aflatoxin was produced in the absence of asparagine with any of the other inorganic nitrogen sources tested. Supplementation with yeast extract, Casamino acids, Casitone and peptone increased the aflatoxin yield, but omission of asparagine led to decreased aflatoxin yields even when complex nitrogen sources were present. Asparagine could be replaced by aspartic acid or alanine.     

Leakage and delivery of liposome-encapsulated methotrexate-gamma-aspartate in a chemically defined medium

A chemically defined medium was developed to study liposome-mediated delivery of methotrexate-gamma-aspartate to cells under conditions where dilute suspensions of negatively charged liposomes to not leak extensively. The defined medium induced 14% leakage of methotrexate-gamma-aspartate from egg phosphatidylglycerol/cholesterol (67:33) liposomes diluted to 53 nM lipid. In contrast, commercially available serum replacements induced up to 91% leakage from the same liposomes. The growth inhibitory properties of non-loaded phosphatidylglycerol liposomes were greater in the chemically defined medium that they were in medium supplemented with 10% serum. Egg phosphatidylglycerol, dioleoylphosphatidylglycerol and dilaurylphosphatidylglycerol liposomes inhibited cell growth more than dimyristoylphosphatidylglycerol and dipalmitoylphosphatidylglycerol liposomes. In 10% serum, phosphatidylglycerol liposomes with widely varying phase-transition temperatures were nearly equally effective to deliver drug to CV1-P and L929 cells, despite great differences in liposome stability. Liposome encapsulated methotrexate-gamma-aspartate was more potent when the cells were grown in the defined medium, and the increase in drug delivery was observed from phosphatidylglycerol liposomes of different phase-transition temperatures. The minimum fraction of negatively charged phospholipid required for optimal liposome-mediated drug delivery varied between cell types and among growth media. The growth inhibitory effects of liposome-encapsulated methotrexate-gamma-aspartate was also determined under conditions where the cells were exposed to drug for periods shorter than the entire growth assay. Reduction of the exposure time decreased the potency of both encapsulated and free drug in medium containing 10% serum, and decreased the potency of free drug in the defined medium. However, the potency of encapsulated drug in the defined medium was similar for all exposure lengths between 1 and 48 hours.     

Synthesis of sterigmatocystin on a chemically defined medium by species ofAspergillus andChaetomium

Sterigmatocystin (ST) is a secondary metabolite and a principal mycotoxin known to be produced by over 30 species of filamentous fungi. It is also one of the late intermediates in aflatoxin biosynthesis. We have tested the ability of 7 species ofAspergillus, including 4 strains ofA. versicolor, one species ofBipolaris, and two species ofChaetomium, to produce ST on a sucrose-salts-phenylalanine defined medium as well as on three complex substrates. Highest ST production in our survey was by a strain ofA. versicolor grown on wheat, whereas, the highest ST production on defined medium was byC. cellulolyticum. To our knowledge, this is the first report of ST production byC. cellulolyticum on any substrate. In precursor feeding studies, resting cultures of wild typeA. nidulans andA. versicolor were unable to biotransform O-methylsterigmatocystin (OMST), the last known intermediate in aflatoxin biosynthesis. These results suggest that ST is the end product of polyketide metabolism in the strains tested.