Clonal growth of chinese hamster cell lines in protein-free media

A protein-free synthetic medium, MCDB 301, has been developed for clonal growth of Chinese hamster ovary cell lines. Medium F12 was developed originally for that purpose, but later failed to support good growth without small amounts of serum protein. Growth was restored by the addition of nonphysiological amounts of commercially prepared thyroxine or smaller amounts of the trace element selenium. The thyroxine preparation was shown to contain sufficient selenium to account for all of its growth-promoting activity. MCDB 301 contains increased concentrations of calcium chloride and glutamine, and a smaller amount of cysteine than medium F12. It also has been supplemented with 19 inorganic ions, in addition to selenium and those in medium F12, in order to insure against possible future deficiencies as chemicals are purified further. A Chinese hamster lung line which will not grow in MCDB 301 alone will grow when the medium is supplemented either with methylcellulose or with insulin. The growth-promoting activity is thought to be an impurity shared in common by both substances. The probable "essential" role of impurities in cellular growth in most synthetic media and the problems involved in attempting to develop a truly "defined" medium are discussed.     

Long-term multiplication of the Chinese hamster ovary (CHO) cell line in a serum-free medium

Summary A new synthetic medium (referred to as GC₃) that supports the growth of the Chinese hamster ovary cell line has been developed. It is composed of a 1∶1 mixture of Ham's F12 and modified Eagle's minimum essential (MEM.S) mediums supplemented with transferrin (10 μg/ml), insulin (80 mU/ml), and selenium (1×10⁻⁷ M). Other more simple supplementations of our basal medium MEM.S/F12 (transferrin+insulin, transferrin+selenium, ferrous iron+selenium) also give good cell growth responses. Fibronectin or serum pretreatment is not needed for cellular attachment and spreading. Our culture system is characterized by a continuous serum-free cultivation (more than 200 doublings), a clonal growth, a high density proliferation, and a rapid growth rate near that of cells in serum-supplemented medium.     

The effects of external potassium and magnesium concentrations on the magnesium and potassium inflow rates and growth of micropropagated cherry rootstocks, “F.12/1” (Prunus avium L.) and “Colt” (Prunus avium L.) × Prunus pseudocerasus L.)

The effects (and interaction) of two solution concentrations of Mg (50, 500, μM) and two of K (250, 4250 μM) on the growth of micropropagated plants of “F. 12/1” and “Colt” were investigated using a flowing solution culture system. Magnesium inflow and growth of “Colt” and “F. 12/1” were inhibited to a similar extent by an increased concentration of K in the nutrient solution. However, the consequences of this inhibition were different. Reduced inflow of Mg in “F. 12/1” caused Mg deficiency symptoms at high and low concentrations of K, whereas this only occurred with a combination of high K concentration and low Mg concentration in “Colt”. The distribution of dry matter within the plant was significant in determining susceptibility to Mg deficiency. Since “F. 12/1” has a smaller root:shoot ratio than Colt it is unable to sustain the same concentration of Mg in leaves as “Colt” irrespective of external K concentration. The molar ratio of K:Mg in soil solutions should remain <8.5:1 in order to ensure maximum growth of “F. 12/1” and “Colt”. This revised version was published online in June 2006 with corrections to the Cover Date.     

Clonal growth of human keratinocytes with small amounts of dialyzed serum

Summary A survey of commercially availabla media revealed that medium F-12 was superior to medium 199 for clonal growth of human epidermal keratinocytes (HK) when supplemented with 10 μg/ml hydrocortisone (HC) plus dialyzed fetal bovine serum protein (FBSP), rather than the whole serum used in previous studies. Qualitative and quantitative adjustment of the medium composition for optimal clonal growth with minimal amounts of FBSP generated a new medium, MCDB 151, which supports clonal growth of HK with 10 μg/ml HC and as little as 1 mg/ml FBSP (equivalent in protein concentration to 2.0% whole serum). MCDB 151 differs significantly from MCDB 105, previously developed in this laboratory for normal human fibroblasts, and each medium selectively favors growth of its own type of cell in primary cultures of disaggregated human neonatal foreskin cells. Differences in the amounts of calcium and adenine in the two media appear to be among the most influential factors mediating the selective growth. Optimal growth of HK occurs at a very low level of Ca²⁺ that causes the colonies to remain as monolayers rather than stratifying as they do in the presence of higher levels of calcium. However, keratin synthesis, which was examined through use of highly specific fluorescent antibodies, is not affected by the Ca²⁺ concentration. Agents that increase intracellular cyclic AMP levels appear to have no effect on HK growth in MCDB 151 with 10 μg/ml HC and 1.0 mg/ml FBSP. This paper contains material from a thesis submitted to the Graduate School of the University of Colorado, Boulder, by Donna M. Peehl in partial fulfillment of the requirements for the Ph.D. degree. This work was supported by Grant CA 15305 from the National Cancer Institute and Grant AG 00310 from the National Institute on Aging.     

Ectopic production in serum-free media of the common alpha subunit of the glycoprotein hormones

Summary The HeLa-S₃ cell strain grown in Ham's F12 medium supplemented with insulin, transferrin, cortisol, epidermal growth factor, fibroblast growth factor, and trace elements, but containing no serum, continued to produce the common α-subunit of the glycoprotein hormones for the 10 d study. The amounts of α-subunit secreted into the medium during the first 4 d were indistinguishable from those in F12 medium supplemented with 10% fetal bovine serum. During the remainder of the experiment the amounts of α-subunit reached 50 to 80% those in the serum-supplemented medium.     

Optimized medium for clonal growth of human microvascular endothelial cells with minimal serum

Summary An optimized basal nutrient medium, MCBD 131, has been developed that supports clonal growth of human microvascular endothelial cells (HMVEC) with as little as 0.7% dialyzed fetal bovine serum (dFBS) when also supplemented with 10 ng/ml epidermal growth factor (EGF) and 1 μg/ml hydrocortisone. An extensive initial survey of available media showed that MCDB 402, a medium optimized for low-serum growth of Swiss 3T3 cells, supported the best clonal growth of HMVEC with 10% dFBS. Quantitative adjustment of the composition of MCDB 402 for improved clonal growth of HMVEC with reduced amounts of dFBS resulted in development of MCDB 131. Although many different adjustments contributed to the optimal properties of MCDB 131 for growth of HMVEC, the most unusual feature of this medium is its high magnesium concentration. A major benefit was achieved by increasing Mg²⁺ from 0.8 mM in MCDB 402 to 10.0 mM in MCDB 131. In the absence of defined supplements, MCDB 131 supports good clonal growth of HMVEC with 2% dFBS. This can be reduced to 0.7% by adding EGF and hydrocortisone, which act synergistically to improve growth with low levels of dFBS. This research was supported by grant CA 15305 from the National Cancer Institute, Bethesda, MD.     

Clonal growth of primary cultures of human hyaline chondrocytes in a defined medium

Rapid clonal growth of primary cultures of human costal chondrocytes in a defined medium has been achieved. The basal nutrient medium used for such growth is MCDB 104. It is prepared without linoleic acid and supplemented with 1 microgram/ml insulin, 100 ng/ml fibroblast growth factor, 1.0 x 10(-7) M dexamethasone, and 5 micrograms/ml mixed lipids, presented to the cells in the form of liposomes. The lipid supplement contains soybean lecithin, cholesterol, sphingomyelin, vitamin E, and vitamin E acetate. No expression of cartilage-like differentiation occurs in the defined medium. However, colonies grown for several days in the defined medium and then grown for an additional period of time in medium F12 supplemented with fetal bovine serum and chicken embryo extract synthesize large amounts of refractile matrix that is stained intensely by acidified alcian green, thus demonstrating that the cells growing in the defined medium are capable of expressing cartilage matrix in a permissive environment. Good clonal growth and expression of differentiation can also be obtained by inoculating primary cultures of human chondrocytes directly into the F12-serum-embryo extract medium.     

Clonal growth of normal human uroepithelial cells

Summary We report the development of culture conditions which routinely support clonal growth of normal human uroepithelial cells (HUC). Secondary cultures seeded at clonal densities and grown under conditions described herein have a colony-forming efficiency (CFE) and colony size that will be useful for in vitro experiments. Primary cultures were dispersed to single cells and seeded in a supplemented Ham's F12 medium containing 1% fetal bovine serum together with 3×10⁵ lethally irradiated Swiss 3T3 feeder cells on plastic substrates preequilibrated with F12 medium containing 5 or 10% serum. Using these conditions, the average CFE was 16.1±2.5%. A cloning efficiency of 4.9±1.5% was obtained under the same conditions in serum-free F12+ when supplemented with a mixture of trace elements or 0.1 mM ethanolamine. The epithelial nature of the cloned cells was confirmed by morphology and by positive immunofluorescent staining for human epithelial keratin proteins. To make this system useful for mutagenesis experiments, a clone of Swiss 3T3 feeder cells resistant to 5 μg/ml 6-thioguanine (6TG) was derived from the parental cell line. This 6-TG-resistant Swiss 3T3 clone supports HUC clonal growth with a CFE of 17.9±2.0% CFE. We also report clonal growth of HUC without feeder cells using supplemented MCDB 170 medium containing 70 μg/ml bovine pituitary extract. The average cloning efficiency using these conditions was 5.7±1.7%. This work was supported by NIH grant 29525 to C. A. R. L. J. L. is a recipient of National Science Foundation predoctoral fellowship.     

High-frequency adventitious shoots regeneration from leaf of non-heading Chinese cabbage (<Emphasis Type="Italic">Brassica campestris</Emphasis> ssp. <Emphasis Type="Italic">chinensis</Emphasis>) cultured in vitro

The objective of the present work was selection of cultivar and suitable medium for regenerating shoots from leaf segments of non-heading Chinese cabbage. We evaluated six types of supplemented media with 2.0, 5.0 and 10.0 mg l⁻¹ 6-BA; 1.0 and 2.0 mg l⁻¹ TDZ; 0.1, 0.3, 0.5, 0.8 and 1.0 mg l⁻¹NAA; 3.0, 5.0 and 7.5 mg l⁻¹AgNO₃; 0.01 mg l⁻¹ 2–4, D and 4.0 mg l⁻¹ KT for shoot regeneration and six cultivars “Sanchidaye”, “Liuchuandasuomian”, “Qingyou 4”, “Liangbaiye”, “AiKang 5” and “Hanxiao F3”, furthermore for root formation three types of supplemented media with 0.2, 0.3, 0.5 mg l⁻¹ NAA, and for survival rate two types of base media: turf + vermiculite + manure (1:2:0.2) and soil + vermiculite (1:2). Culturing leaf segments on MS medium supplemented with 2 mg l⁻¹ TDZ; 0.5 mg l⁻¹ NAA and 7.5 mg l⁻¹ AgNO₃ gave the highest number of shoots per leaf segment (66) while roots were best formed on the medium supplemented with 0.2 mg l⁻¹ NAA. Survival rate was highest (61.6%) in the turf: vermiculite: manure (1:2:0.2) medium. The highest percentage of responding leaf segments, number of shoots per leaf segment, rooting percentage and survival rate were observed in “Liuchuandasuomian”. The plantlets were transferred to the soil and grown into mature plants in pots. These results could be used for preliminary selections of cultivars to transfer disease resistance (Bt) gene through agrobacterium in non-heading Chinese cabbage.     

A defined medium for and the effect of insulin on the growth,amino acid transport,and morphology of chinese hamster ovary cells,CHO-K1 (CCL 61) and the isolation of insulin “independent” mutants

Summary Insulin, FeSO₄, or transferrin are major requirements together with HEPES buffer and selenium for the growth of CHO-K1 (CCL 61) in a modified F12 medium (M-F12). Insulin stimulates growth at 1 ng/ml to 10 μg/ml. In the defined medium minus insulin, CHO-K1 grows slowly as elongated, elliptical cells in parallel arrays typical of normal diploid fibroblasts in contrast to round-to-cuboid cells in loosely overlapping arrays in the presence of serum or insulin. During prolonged incubation in the absence of insulin the cells gather up into a large spherical cluster of viable cells. Insulin “independent” mutants have been isolated whose growth rate during exponential phase in the absence of insulin (48 h to 84 or 96 hrs) is 2.7 to 3.6 times that of the parental culture. Insulin stimulates the growth of these variants only during the first 48 h and is inhibitory at 50 to 500 ng/ml during the exponential phase. Insulin induction of the A system of amino acid transport occurs in about 8 h and requires both protein and RNA synthesis. This work was supported in part by National Science Foundation Grant PCM 7903242 and by the University of California.     

Laminin provides a better substrate than fibronectin for attachment,growth, and differentiation of 1003 embryonal carcinoma cells

Summary Culture of cells in hormonally defined media has allowed (a) the demonstration of physiological responses from cells usually unable to express them in vitro and (b) the study of the effects on growth and differentiation of diffusible factors and attachment factors. The embryonal carcinoma line 1003 forms multidifferentiated tumors in vivo but is unable to differentiate in vitro when grown in serum-containing medium. In a defined medium containing insulin, transferrin, selenium, and fibronectin as attachment factors, 1003 cells grow for several generations and differentiate into neurons and embryonic mesenchyme (Darmon et al., 1981, Dev. Biol. 85: 463–473). In the present work the effects of fibronectin and laminin were compared. In the presence of laminin the cells attached and spread better, grew faster, and could be plated at lower densities. Neurite extension was also better under these conditions and most importantly, it was found that laminin induced an important formation of muscular tissue when the cells had been seeded at low densities. Multinucleated myotubes could be stained with antibodies directed against embryonic muscular myosin. Coating the dishes with polylysine or adding FGF or serum-spreading factor to the medium allowed growth of low-density cultures with fibronectin instead of laminin but muscular differentiation was not detected under these conditions. Addition of fibronectin to laminin-containing medium did not inhibit muscular differentiation. Presented in the symposium on Plant and Animal Physiology in Vitro at the 33rd Annual Meeting of the Tissue Culture Association, San Diego, California, June 6–10, 1982. This research was supported in part by grants from the “Centre National de la Recherche Scientifique” (LA 269), the “Délégation Générale à la Recherche Scientifique et Technique,” the Fondation pour la Recherche Médicale Fran?aise,” the “Institut National de la Santé et de la Recherche Medicale,” the “Ligue Nationale Fran?aise centre le Cancer,” and the “Fondation André Meyer.” This symposium was supported in part by the following organizations: Bellco Glass, Inc., California Branch of the Tissue Culture Association, Collaborative Research, Hana Media, Hybridtech, K C Biological, Inc., and Millipore Corporation.     

Growth of preadipocyte cell lines and cell strains from rodents in serum-free hormone-supplemented medium

Summary Ob17 is a clonal cell line isolated from the epididymal fat pad of C57 BL/6J ob/ob mouse that differentiates into adiposelike cells in serum-supplemented medium. In serum-free medium, this cell line shows increased growth under the addition of insulin, transferrin, fibroblast growth factor (FGF), and a factor present in extract of rat submaxillary gland (SMGE). This medium is referred to as 4F. Epidermal growth factor or nerve growth factor cannot replace SMGE, whereas partially purified platelet extract can substitute for FGF but only partially for SMGE. 4F Medium is able to support the proliferation of cells from other established preadipocyte clonal lines, HGFu and 3T3-F442A, and also of preadipocyte cells isolated from the stromal-vascular fraction of rat and mouse adipose tissues. In each case 4F medium is insufficient to support the differentiation of these cells into adipocytes. Ob17 cells grown and maintained in serum-free hormone-supplemented medium retain the ability to convert to adiposelike cells after serum addition. This serum requirement for differentiation cannot be substituted by the addition of growth hormone or of other putative adipogenic factors, or both. The results are discussed with respect to the requirements for growth and differentiation of the 3T3-L1 and 1246 preadipocyte cell lines previously described. This work was supported by the “Centre National de la Recherche Scientifique” (Grant 1208-Biochimie du Développement and Grant 4162-Endocrinologie), by the “Ministère de la Recherce et de la Technologie” (Grant 81-L-1322), by the “Fondation pour la Recherche Médicale,” by NATO (Grant 1704), and by the “Institut National de la Santé et de la Recherche Médicale” (Grant 827006).     

Development of a serum-free medium for dihydrofolate reductase-deficient chinese hamster ovary cells (DG44) using a statistical design: Beneficial effect of weaning of cells

Summary To develop serum-free (SF) medium for dihydrofolate reductase-deficient Chinese hamster ovary cells (DG44), a statistical optimization approach based on a Plackett-Burman design was adopted. DG44 cells which were normally maintained in 10% serum medium were gradually weaned to 0.5% serum medium to increase the probability of successful growth in SF medium. A basal medium was prepared by supplementing Dulbecco’s modified Eagle’s medium and Ham’s nutrient mixture F12 with hypoxanthine (10 mg/l) and thymidine (10 mg/l). Twenty-eight different supplements were selected as variables on the basis of their growth-promoting abilities. From statistical analysis, leucine, tryptophan, lysine, proline, histidine, hydrocortisone, ethanolamine, and phosphatidylcholine were identified as important components showing positive effects on cell growth. A new SF medium (SF-DG44) was formulated by supplementing the basal medium with these components. When the weaned cells were inoculated at 1.0 × 10⁵ cells/ml, a maximum viable cell concentration of 6.4×10⁵ cells/ml was achieved in SF-DG44 medium. In contrast, when the unweaned cells were used, a concentration of only 4.1×10⁵ cells/ml was reached under the same culture conditions, indicating that weaning of cells improves cell growth in SF medium. In summary, we found that development of a novel SF medium for DG44 cells was facilitated using a Plackett-Burman design technique and weaning of cells.     

The Effect of Various Forms of Selenium Supplied to Pregnant Goats on the Levels of Selenium in the Body of Their Kids at the Time of Weaning

The aim of this trial was to compare the effect of long-term supplementation of goats with different forms of selenium on body reserves of selenium in their kids at the time of weaning. Thirty-three pregnant goats were divided into five groups. Group C was control while the other four groups were supplemented with selenium (Se) for 6 weeks before parturition (0.3 mg/goat/day) and after parturition (0.9 mg/goat/day). Group “Se-I” received sodium selenite and three other groups received organic forms: “Se-L,” lactate–protein complex; “Se-P,” Se-proteinate; and “Se-Y,” Se-yeast. The kids were weaned at 3 months of age and samples of tissues (liver, pancreas, myocardium, lungs, kidneys, spleen, thigh, tongue, and diaphragm) were taken after slaughtering. The long-term supplementation of goats with Se influenced Se concentration in all examined tissues of kids. Significant differences (p ≤ 0.01) were found between the control and all experimental groups, except for the renal cortex and pancreas (Se-I). The average increase of Se concentration in overall examined tissues in comparison with the control (100%) was as follows: Se-Y, 192%; Se-P, 167%; Se-L, 161%; Se-I, 144%. The highest efficiency was found in the group supplemented with Se-yeast with a high content of selenomethionine, also the other two organic forms of Se were more efficient than the inorganic form.     

Characterization of yeastolate fractions that promote insect cell growth and recombinant protein production

Yeastolate is effective in promoting growth of insect cell and enhancing production of recombinant protein, thus it is a key component in formulating serum-free medium for insect cell culture. However, yeastolate is a complex mixture and identification of the constituents responsible for cell growth promotion has not yet been achieved. This study used sequential ethanol precipitation to fractionate yeastolate ultrafiltrate (YUF) into six fractions (F1–F6). Fractions were characterized and evaluated for their growth promoting activities. Fraction F1 was obtained by 65% ethanol precipitation. When supplemented to IPL-41 medium at a concentration of 1 g L⁻¹, fraction F1 showed 71% Sf-9 cell growth improvement and 22% β-galactosidase production enhancement over YUF (at 1 g L⁻¹ in IPL-41 medium). However, the superiority of F1 over YUF on promoting cell growth gradually diminished as its concentration in IPL-41 medium increased. At 4 g L⁻¹, the relative activity of F1 was 93% whereas YUF was 100% at the same concentration. At 1 g L⁻¹, four other fractions (F2–F5) precipitated with higher ethanol concentrations and F6, the final supernatant, showed growth promoting activities ranging from 32 to 80% as compared to YUF (100%). Interestingly, a synergistic effect on promoting cell growth was observed when F6 was supplemented in IPL-41 medium in presence of high concentrations of F1 (>3 g L⁻¹). The results suggest that ethanol precipitation was a practical method to fractionate growth-promoting components from YUF, but more than one components contributed to the optimum growth of Sf-9 cells. Further fractionation, isolation and identification of individual active components would be needed to better understand the role of these components on the cell metabolism.     

Ectopic production in serum-free media of the common alpha subunit of the glycoprotein hormones

The HeLa-S3 cell strain grown in Ham's F12 medium supplemented with insulin, transferrin, cortisol, epidermal growth factor, fibroblast growth factor, and trace elements, but containing no serum, continued to produce the common alpha-subunit of the glycoprotein hormones for the 10 d study. The amounts of alpha-subunit secreted into the medium during the first 4 d were indistinguishable from those in F12 medium supplemented with 10% fetal bovine serum. During the remainder of the experiment the amounts of alpha-subunit reached 50 to 80% those in the serum-supplemented medium.     

Growth modulation of human tumor cells by a growth-inhibiting activity derived from tumorigenic V79 chinese hamster cells

Summary A growth-inhibiting activity was identified in supernatants of the neoplastic V79 Chinese hamster cell line based on its ability to inhibit the proliferation of the same cell line. The partially purified activity, provisionally termed “growth inhibiting factor” (GIF) activity, inhibited the growth of a wide variety of human tumor cells, but not various normal human fibroblasts. This species-nonspecific activity was reversible, saturable, and highly potent in tumorigenic cell lines, and was noted in both monolayer culture and in soft agar. The inhibitory activity CIF was also exhibited in a chemically defined serum-free medium supplemented with insulin and transferrin. GIF activity was stable to acid, heat, trypsin, and dithiothreitol but sensitive to alpha-chymotrypsin. The pattern of growth modulation by GIF on V79 cells was apparently different from those exhibited by bifunctional peptides such as transforming growth factor-beta, tumor necrosis factor-alpha, and interleukin-1-alpha. In addition, GIF activity cannot be ascribed to these cytokines based on the physicochemical and immunologic properties. Although GIF has yet to be purified to homogeneity, these data suggest that GIF might be a novel growth regulator which has a critical role in regulating growth of V79 cells. The growth modulation of tumor cells by this tumor-derived growth inhibiting activity suggested the presence of an autocrine growth regulatory mechanism even in tumor cells.     

Improved medium for clonal growth of human diploid fibroblasts at low concentrations of serum protein

Summary A new medium (MCDB 104) has been developed which will support clonal growth of WI-38 cells at concentrations of serum protein as low as 25 μg per ml (equivalent to 0.05% serum). The principal factors responsible for reduction of the protein requirement are: (a) adjustment of all nutrient concentrations in medium F12 to experimentally determined optimum values for WI-38 cells; (b) supplementation with trace elements; (c) replacement of hypoxanthine and folic acid with adenine and folinic acid; and (d) coating of the culture surface with polylysine. Individually, many of these modifications exert only a small effect on cellular growth at reduced protein concentrations, but collectively their effect has been very substantial. Other strains of fibroblast-like human diploid cells from amniotic fluid, fetal lung and newborn foreskin also will grow at reduced concentrations of serum protein in the new medium. This work was supported by Grant No. AG00310 from the National Institute on Aging, and by Contract No. 223-74-1156 from the Bureau of Biologics, U.S. Food and Drug Administration.     

Responses of mobile epifauna to small-scale seagrass patchiness: is fragmentation important?

Habitat fragmentation is a process involving splitting of continuous habitats into smaller, and more isolated habitat patches. To assess the effects of small-scale habitat patchiness and isolation without the confounding effect of habitat loss on benthic macrofauna, two field experiments were conducted in the Archipelago Sea, SW Finland. Using artificial seagrass units (ASUs) we contrasted continuous patches (“C”) with fragmented patches (“F”) of the same combined area as the continuous patches. The fragmentation treatment involved two isolation distances (0.5 and 3.0 m) between the ASUs (“F 0.5”) and (“F 3.0”). This design was repeated in two consecutive experiments where the patch area was 0.25 and 0.0625 m², respectively. Mobile epifauna were allowed to colonize patches for 12 days in both experiments. In both experiments, the total epifaunal density was significantly higher in the “F 0.5” treatment than in the “C” treatment, and the three dominant taxa showed positive or neutral responses to the habitat configuration. No fragmentation effect on the number of species was detected in either of the experiments, but fragmentation had a negative effect on the epifaunal diversity (Shannon’s H′) in the experiment with the largest patch area. Epifaunal diversity was significantly lower in “F 3.0” treatment than in “C” or “F 0.5” treatments in the first experiment, indicating stronger effect of isolation instead of fragmentation per se. Edge effects were indirectly tested by comparing epifaunal densities with patch edge:area ratios. The results suggest that edge effects may have a more important role than patch size for the total densities of epifaunal taxa, and that small, isolated patches have equal or higher habitat value compared to larger fragments.     

Improved medium for clonal growth of human diploid fibroblasts at low concentrations of serum protein.

A new medium (MCDB 104) has been developed which will support clonal growth of WI-38 cells at concentrations of serum protein as low as 25 micrograms per ml (equivalent to 0.05% serum). The principal factors responsible for reduction of the protein requirement are: (a) adjustment of all nutrient concentrations in medium F12 to experimentally determined optimum values for WI-38 cells; (b) supplementation with trace elements; (c) replacement of hypoxanthine and folic acid with adenine and folinic acid; and (d) coating of the culture surface with polylysine. Individually, many of these modifications exert only a small effect on cellular growth at reduced protein concentrations, but collectively their effect has been very substantial. Other strains of fibroblast-like human diploid cells from amniotic fluid, fetal lung and newborn foreskin also will grow at reduced concentrations of serum protein in the new medium.