New Culture Medium for Maintenance of Tsetse Tissues and Growth of Trypanosomatids*

SYNOPSIS. A new culture medium (SM), based on the amino-acid composition of tsetse hemolymph and containing fetal bovine serum, was designed for the maintenance of tsetse organs and the cultivation of various trypanosomatids. For optimum growth 20% (v/v) serum was required. The medium supported prolonged peristalsis of the alimentary tract and salivary glands of pre-emerged Glossina morsitans morsitans. In established cultures, derived from bloodstream forms of pleomorphic Trypanosoma brucei brucei and Trypanosoma brucei rhodesiense strains, inocula of ～ 10⁶ procyclics/ml yielded 4–5 × 10⁷ organisms/ml after 4 or 5 days of incubation at 28 C. Bloodstream forms of a cloned monomorphic T. b. brucei strain were also able to transform into procyclics, which, however, multiplied at a lower rate, with maximum yields of ～ 2 × 10⁷ after 5 days. Cultures of Trypanosoma congolense and of a nearly monomorphic Trypanosoma brucei gambiense strains could be established in SM medium only in the presence of tsetse alimentary tract. The procyclic trypomastigotes of these species, adapted to SM medium and able to grow in it without Glossina organs, gave maximum populations of ～ 4.5 × 10⁷ cells/ml. Promastigotes of Leishmania donovani, cultivated routinely in a diphasic Table's medium, multiplied actively upon being transferred into SM medium, producing yields of ～ 4 × 10⁷ cells/ml.     

An improved heat-stable glutamine-free chemically defined medium for growth of mammalian cells

A heat-stable chemically defined medium, free of glutamine, is described for the growth of mammalian cells in suspension culture. The presence of L-alanine in the defined medium permitted the omission of glutamine. A 22-fold increase in the population of a substrain of mouse L cells was obtained (3.4 × 10⁶ cells/ml) in six days with no medium replenishment during incubation. Maximum yields (27 × 10⁶ cells/ml) were obtained by daily medium replacement and venting of cultures. Growth was also improved in a line of cat kidney cells and HeLa cells, and in another substrain of L cells.     

Culture of Isolated Single Cells from <Emphasis Type="Italic">Taxus</Emphasis> Suspensions for the Propagation of Superior Cell Populations

Single cells isolated from aggregated Taxus cuspidata cultures via enzymatic digestion were grown in suspension culture. High seeding density (4×10⁵ cells/ml) and the addition of cell-free conditioned medium were essential for growth. Doubling the concentration of the nutrients [ascorbic acid (150 g/l), glutamine (6.25 mm), and citric acid (150 g/l)] had no effect on single cell growth or viability. A specific growth rate of 0.11 days⁻¹ was achieved, which is similar to the observed growth rate of aggregated Taxus suspensions. The biocide, Plant Preservative Mixture, added at 0.2% (v/v) to all single cell cultures to prevent microbial contamination, had no significant effect on growth or viability. Following cell sorting, single cell cultures can be used to establish new cell lines for biotechnology applications or provide cells for further study.     

Effect of CO2 on uninfected Sf‐9 cell growth and metabolism

A problem in the mass production of recombinant proteins and biopesticides using insect cell culture is CO₂ accumulation. This research investigated the effect of elevated CO₂ concentration on insect cell growth and metabolism. Spodoptera frugiperda Sf‐9 insect cells were grown at 20% air saturation, 27^°C, and a pH of 6.2. The cells were exposed to a constant CO₂ concentration by purging the medium with CO₂ and the headspace with air. The population doubling time (PDT) of Sf‐9 cells increased with increasing CO₂ concentration. Specifically, the PDT for 0‐37, 73, 147, 183, and 220 mm Hg CO₂ concentrations were 23.2 ± 6.7, 32.4 ± 7.2, 38.1 ± 13.3, 42.9 ± 5.4, and 69.3 ± 35.9 h (n = 3 or 4, 95% confidence level), respectively. The viability of cells in all experiments was above 90%, i.e., while increased CO₂ concentrations inhibited cell growth, it did not affect cell viability. The osmolality for all bioreactor experiments was observed to be 300–360 mOsm/kg, a range that is known to have a negligible effect on insect cell culture. Elevated CO₂ concentration did not significantly alter the cell specific glucose consumption rate (2.5–3.2 × 10^?17 mol/cell s), but slightly increased the specific lactate production rate from ?3.0 × 10^?19 to 10.2 × 10^?19 mol/cell s. Oxidative stress did not contribute to CO₂ inhibition in uninfected Sf‐9 cells as no significant increase in the levels of lipid hydroperoxide and protein carbonyl concentrations was discovered at elevated CO₂ concentration. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:465–469, 2016     

The serum growth and survival requirements of SV40-transformed 3T3 cells

Summary Simian virus 40-transformed 3T3 cells are dependent on serum for survival and growth. This growth activity can be separated on a pH 2 Sephadex G100 column into two fractions: a high molecular weight activity and a low molecular weight substance that has recently been characterized as containing as its major agent, biotin. To replace the remainder of the serum requirement, hormones and other growth factors were tested. Both insulin at high, nonphysiological concentrations (200 to 500 ng/ml) and transferrin (5×10⁻⁸ M) stimulate the growth rate in low serum medium (0.3% v/v bovine calf serum DME) individually and, when added together, are nearly as growth enhancing as 10% serum. The need for the residual serum in this medium can be eliminated by the use of crystalline trypsin during trypsinization. Under these serum-free conditions, biotin and transferrin supplementation provide for moderately good growth (20 to 30 hr population doubling time, 1×10⁶ cells/3.2-cm dish final cell density). Insulin addition further stimulates the growth rate (16 to 20 hr) and the final density (1.5×10⁶ cells). Although the protein growth factors, EGF (0.5 to 1.0 ng/ml) and FGF (4 to 10 ng/ml), also appear to enhance growth individually and additively, their effects are slight and very variable. Nevertheless, the complete serum-free medium (DME supplemented with biotin, transferrin, insulin, EGF and FGF) yields growth comparable but still inferior to 10% serum supplementation (14-versus 12-hr population doubling time, 1 to 2×10⁶ versus 2 to 3×10⁶ cells final cell density). This work was supported by NIH Grant CA 20040.     

Cell metabolism and medium perfusion in VERO cell cultures on microcarriers in a bioreactor

Parameters of VERO cell growth and metabolism were studied in cultures performed on microcarriers (MCs) using a bioreactor with a working capacity of 3.7?l. Kinetic studies of VERO cell growth in batch, semi-batch and perfusion cultures using concentrations of 2 and 10?mg/ml of MCs showed that a high concentration of MCs (10?mg/ml) and the use of medium perfusion allowed the attainment of higher final yields of VERO cells (6?×?10⁶ cells/ml after 10 days of culture). Perfusion also allowed better use of MCs as indicated by the observation of about 100% of MCs totally covered by cells and the appearance of multilayered cells on 64% of MCs after 13 days of VERO cell culture with 2?mg/ml of MCs. Concerning the concentration of nutrients in the cultures, the medium perfusion was able to sustain suitable levels of galactose and glutamine, which quickly decreased after 4 days in batch cultures. The air inlet in the batch cultures was capable of eliminating the NH₄ ⁺ which accumulated in the medium culture. Lactate accumulated during the first days of culture but then was utilized by the cells and decreased along the culture time. The optimization of VERO cell cultures on microcarriers as indicated by the concentration of MCs, medium perfusion and air inlet is discussed.     

Growth and Immunologic Studies on the Culture Forms of Trypanosoma lewisi*

SYNOPSIS. Culture forms of Trypanosoma lewisi grown at 27 C in a diphasic blood agar medium resemble in structure the stage found in the invertebrate host. Cultures inoculated with approximately 1 × 10⁶ trypanosomes/ml attain maximum populations of 2–7 × 10⁷ organisms/ml after 5–6 days of incubation. The stationary phase persists 6–15 days. The decline of the population is of relatively long duration with approximately 1 × 10⁶ viable organisms/ml present after 90 days. Variations in growth were attributed to the preparation of defibrinated heated rabbit blood incorporated into the culture medium. With inocula of 3.0 × 10⁵ trypanosomes/ml there was a lag in growth not observed with larger inocula. Trypanosomes incubated at elevated temperatures had altered growth curves compared to organisms at 27 C. Agitation of cultures did not affect the growth or stationary phases, but hastened the population decline. Heated and unheated 5% (v/v) normal rat serum incorporated in the liquid phase of the medium altered the growth of the organisms. Heated serum caused a decrease in the population and an extended lag phase. The effects on growth were more marked with unheated serum suggesting that both heat-stable and labile components affect growth. Antisera from rats injected with live culture forms included in the liquid phase inhibited, while antisera from rats 24 days after infection with the blood stream forms had no effect on the growth of the culture forms. Antisera from rabbits immunized with sonicates of culture forms also altered the growth of the organisms in culture. Rabbit antisera prepared by immunization with sonicates of dividing and non-dividing blood stream forms had no effect on the in vitro growth. Antisera from animals immunized with rat blood and culture medium were also without effect. The immunologic implications of the data are considered and discussed.     

Growth, metabolism and baculovirus production in suspension cultures of an Anticarsia gemmatalis cell line

The UFL-AG-286 cell line, established from embryonic tissue of the lepidopteran insect Anticarsia gemmatalis, has been identified as a good candidate to be used as a cellular substrate in the development of a process for in vitro production of the Anticarsia gemmatalis multicapsid nucleopolyhedrovirus, a baculovirus widely used as bioinsecticide. In order to characterize the technological properties of this cell line and evaluate its feasibility to use it for the large-scale production of Anticarsia gemmatalis multicapsid nucleopolyhedrovirus, UFL-AG-286 cells were adapted to grow as agitated suspension cultures in spinner-flasks. Batch suspension cultures of adapted cells in serum-supplemented TC-100 medium grew with a doubling time of about 29 h and reached a maximum cell density higher than 3.5 × 10⁶ viable cells ml⁻¹. At the end of the growth period glucose was completely depleted from the culture medium, but l-lactate was not produced. Amino acids, with the exception of glutamine, were only negligibly consumed or produced. In contrast to other insect cell lines, UFL-AG-286 cells appeared to be unable to synthesize alanine as a metabolic way to dispose the by-product ammonia. The synchronous infection of suspension cultures with Anticarsia gemmatalis multicapsid nucleopolyhedrovirus in the early to medium exponential growth phase yielded high amounts of both viral progenies per cell and reduced the specific demands of UFL-AG-286 cells for the main nutrients.     

Pyruvate-Induced changes in hepatoma cell morphology and macromolecular synthesis

Cells maintained in basal growth medium with 0.2–1.0% serum often require citric acid cycle intermediates for optimal viability. We have found that pyruvate added to minimal growth medium causes cellular flattening and formation of external processes accompanied by increaded DNA synthesis in cultured hepatoma cells (HTC cells). Cells were cultured in plalstic T-flasks (0.5, 1.0, or 2.0 × 10⁶ cells/flask) containing 5 ml medium (90% Eagle's Basal Medium (BME) and 10% Swim's S-77) with various concentrations of fetal calf serum (0.2,0.25, 0.5, 1.0, 2.0, 10%) and either pyruvate (50, 100, 250,500, 1,000μg/ml), or one of: dibutyryl cAMP (DBcAMP) or dibutyryl cGMP (DBcGMP) at 10^?3, 10^?4, or 10^?5 M. At 44–48 hr cultures were pulsed with tritiated thymidine, uridine, or lecucine. Cells became attached to the plastic surface within 24hr. Cells in medium with 0.25 to 2.0% serum had a rounded appearance. With added pyruvate, cellular flattening, process formation, and an increased adherence to the substratum was absorbed. By 48 hr, culture without pyruvate grew in rounded clusters; with pyruvate, cells formed extensive interconnecting processes that appeared loosely attached to the monolayer surface. At the cell densities tested, process formation was maximal with 250 to 500 μg/ml pyruvate. Cytochalasin B blocked flattening and process formation; EDTA (1 mg/ml) caused retraction of processes within 3 min, and a slow dissolution of these structures within cells was observed. DBcAMP or DBcGMP did not induce process formation. Flattening and process foormation in pyruvate-enriched cultures were accompanied by marked stimulation of DNA synthesis and smaller increases in RNA and protein synthesis. Cell number was not affected. These pyruvate-induced changes suggest that alterations in energy metabolism, or precursors that enhance viability and macromolecular synthesis in mammalian cell cultures, may exert marked effects on cellular morphology without corresponding changes in growth of neoplastic liver cells.     

TubeSpin bioreactor 50 for the high-density cultivation of Sf-9 insect cells in suspension

Here we present the TubeSpin bioreactor 50 (TubeSpins) as a simple and disposable culture system for Sf-9 insect cells in suspension. Sf-9 cells had substantially better growth in TubeSpins than in spinner flasks. After inoculation with 10⁶ cells/ml, maximal cell densities of 16 × 10⁶ and 6 × 10⁶ cells/ml were reached in TubeSpins and spinner flasks, respectively. In addition the cell viability in these batch cultures remained above 90% for 10 days in TubeSpins but only for 4 days in spinner flasks. Inoculation at even higher cell densities reduced the duration of the lag phase. After inoculation at 2.5 × 10⁶ cells/ml, the culture reached the maximum cell density within 3 days instead of 7 days as observed for inoculation with 10⁶ cells/ml. Infection of Sf-9 cells in TubeSpins or spinner flasks with a recombinant baculovirus coding for green fluorescent protein (GFP) resulted in similar GFP-specific fluorescence levels. TubeSpins are thus an attractive option for the small-scale cultivation of Sf-9 cells in suspension and for baculovirus-mediated recombinant protein production.     

Elimination of the yeastCandida parapsilosis from lymphoid cells and monolayer cells in culture

Summary In our laboratory, airborne yeast contaminants of cell cultures have consistently been of the genusCandida (speciesCandida parapsilosis), which are difficult to control with fungicidal agents. To salvage cell lines that show the presence of this fungus, two effective methods may be employed. In early stages of infection, the addition of activated mouse peritoneal macrophages (5×10⁵ cells/ml) to the culture medium containing 5 μg Fungizone/ml eliminates all spores by phagocytosis. More heavily contaminated cultures can be depleted of fungi by density centrifugation on a layer of 38% Percoll. Remaining single spores, often not detectable by light microscopy, can be removed by the addition of macrophages (2×10⁵/ml) and Fungizone (5 μg/ml) to the culture medium. Contaminated monolayer cells can be freed of blastospores by several washes with balanced salt solution and subsequent culturing for 4 d in medium containing 10 μg Fungizone/ml without any toxic effects to the cells. These procedures can rescue valuable cell lines and hybridomas that would otherwise be lost. This work was supported by Veterans Administration Research Funds.     

Growth characterizations of a human monocytic leukemia cell line in a serum-free medium

A clone, AH-01S, derived from a human monocytic leukemia cell line, THP-1, grew rapidly in a serum-free medium containing insulin, transferrin, ethanolamine, and sodium selenite. In batch culture using the serum-free medium, the AH-01S cells proliferated at a specific growth rate (μ) of 0.30 to 0.50 (1/day) from a cell concentration of 1 × 10⁴ cells/ml to 1.6 × 10⁶ cells/ml, an increase of 160 times. A higher cell concentration of 0.45 × 10⁷ cells/ml (cell volume ratio was 0.5%) was obtained in spinner flask culture using the serum-free medium. A mean specific growth rate 0.50 (1/day) was also observed in a culture in a fully instrumented cell culture fermentor. However, μ decreased drastically after the cell concentration reached 1.5 × 10⁶ cells/ml. Analyses of medium composition during cultivation revealed that under lower cell concentration, l-glutamine was the main carbon source while glucose was converted to lactate almost stoichiometrically, and that the production of lactate from glucose decreased at higher cell concentrations. To obtain cultures of 1 × 10⁹ cells, 1,200 to 1,300 mg of a carbon source (glucose) and 400 to 500 of amino acids were consumed during high cell concentration cultivation of the AH-01S cells in the serum-free medium.     

Density dependent regulation of growth in suspension cultures of L-929 cells

Suspension cultures of L-929 fibroblasts grown to densities of 6 to 10 × 10⁶ cells/ml through daily centrifugation and resuspension in fresh media, have been maintained for periods up to five months without change in viability or cell size. DNA synthesis and mitosis in these cultures is limited to 5% of the cells per day, a fraction very nearly equal to the fraction of cells rendered nonviable, most likely during the manipulations associated with medium renewal. The kinetics of the flow of cells into the S and M periods following (a) renewal of the medium and (b) dilution of the high density cultures, suggest that the large majority of the cells are in a G₀ or early G₁ phase, resuming growth readily in response to decreased cell density. This is further indicated by the sequence of the marked shifts occurring in the cell volume distribution spectrum of the high density cultures after dilution. Long term, steady state regulation of growth with retention of intact viability was thus demonstrated in the case of a long established aneuploid cell line. The fact that this occurs in suspension but not in attached cultures, supports the concept that impairment of growth control in such cells affects predominantly regulatory mechanisms located at the cell surface rather than those concerned with intracellular synthesis and metabolism.     

Ricerche Sulla Cultura Sommersa di Cellule Singole di Piante Superiori

Abstract

Research on submerged culture of single cells of higher plants. — The author describes a method which allows to obtain submerged cultures of single cells of Phaseolus vulgaris and Nicotiana tabacum. The medium composition in macroelements in the culture on agar appears to effect to a great extent the ability of tissues to dissociate into single cells in the subsequent liquid culture. In this respect Heller's solution results to be more suitable than Gautheret's and Hildebrandt and Ri-ker's.

Cells are grown at 24 [ddot]C in 300 ml flasks containing 60 ml of broth on a rotary shaker at 220 rpm.

To prevent contaminations some antibacterial agents were added to cultures of Phaseolus vulgaris. Among these Penicillin and Neomycin were not tossic at 20 and 5 ppm concentrations respectively.

The presence of septa, which are observed also in largely vacuolate cells, seems to confirm the ability of single cells to divide.

The optimum 2,4-D concentration for growth decreases from 6 × 10^-8 to 6 × 10^-8 during successive liquid cultures, each of them being inoculated with on amount of the previous one. This fact, showing the adaptation of liquid cultures to decreasing concentrations of the growth hormone, is in agreement with previous observations in solid cultures by several authors.     

An improved chemically defined culture medium for strain L mouse cells based on growth responses to graded levels of nutrients including iron and zinc ions

Nutritional factors were evaluated for effects on growth of mouse fibroblast cells in suspension in a chemically defined medium. Quantitative requirements for each of the essential amino acids, choline, inorganic phosphate, iron, and zinc were established. An improved chemically defined medium was formulated on the basis of the findings yielding populations of L cells in excess of 5 × 10⁶ per ml without nutrient replenishment. When spent medium was replaced periodically, yields approaching 30 × 10⁶ cells per ml were attained. The efficiency of utilization of most amino acids in the new medium appears to be 2- to 3-fold better than results reported by others.     

Production ofbeauveria bassiana [Deuteromycotina. Hyphomycetes] sympoduloconidia in submerged culture

Submerged conidiation of the entomogenous HyphomyceteBeauveria bassiana is reported. Conidiogenous cells produce sympoduloconidia on conidiogenous cells in liquid shaker culture; hyphal bodies and mycelium fragments are also produced. The morphology of these fungal structures is discussed and illustrated. Several simple liquid media are tested for the production of conidia and hyphal bodies. Maximum yields of conidia (170×10⁶ conidia/ml) are produced in a medium consisting of sucrose (2%) — yeast extract (0.5%) and basal salts, and maximum yields of hyphal bodies (740×10⁶ hyphal bodies/ml) in a sucrose (2.5%) — yeast extract (2.5%) medium.      

Enhanced Production of Human Recombinant Proteins from CHO cells Grown to High Densities in Macroporous Microcarriers

Macroporous microcarriers entrap cells in a mesh network allowing growth to high densities and protect them from high shear forces in stirred bioreactor cultures. We report the growth of Chinese hamster ovary (CHO) cells producing either recombinant human beta-interferon (β-IFN) or recombinant human tissue-plasminogen activator (t-PA) in suspension or embedded in macroporous microcarriers (Cytopore 1 or 2). The microcarriers enhanced the volumetric production of both β-IFN and t-PA by up to 2.5 fold compared to equivalent suspension cultures of CHO cells. Under each condition the cell specific productivity (Q _P) was determined as units of product/cell per day based upon immunological assays. Cells grown in Cytopore 1 microcarriers showed an increase in Q _P with increasing cell densities up to a threshold of >1 × 10⁸ cells/ml. At this point the specific productivity was 2.5 fold higher than equivalent cells grown in suspension but cell densities above this threshold did not enhance Q _P any further. A positive linear correlation (r ² = 0.93) was determined between the specific productivity of each recombinant protein and the corresponding cell density for CHO cells grown in Cytopore 2 cultures. With a cell density range of 25 × 10⁶ to 3 × 10⁸ cells/ml within the microcarriers there was a proportional increase in the specific productivity. The highest specific productivity measured from the microcarrier cultures was ×5 that of suspension cultures. The relationship between specific productivity and cell density within the microcarriers leads to higher yields of recombinant proteins in this culture system. This could be attributed to the environment within the microcarrier matrix that may influence the state of cells that could affect protein synthesis or secretion.     

Effect of liver cell coat acid mucopolysaccharide on the appearance of density-dependent inhibition in hepatoma cell growth.

Yoshida ascites hepatoma 66 (AH 66) cells grown in monolayer cultures show a lack of density-dependent inhibition of growth. When acid mucopolysaccharide (AMPS) isolated from rat liver cell coats is added to growing cultures at concentrations of 50–100 μg/ml, AH 66 cell cultures became markedly inhibited and exhibited density-dependent inhibition of growth at a cell density of 19 × 10⁴ cells/cm². Inhibition reached 84% below control levels. Inhibition is a density-related phenomenon since cells at densities below 19×10⁴ cells/cm² do not exhibit inhibition of growth. AH 66 cells inhibited in the plateau state are capable of resuming growth when AMPS is removed from the cultures. When AMPS is added at a concentration of 0.5 μg/ml, growth of tumor cells is promoted. Promotion reaches 78% above control levels. It is suggested that AMPS may play an important part in the regulation of cellular proliferation.     

Growth ofChlamydia psittaci strain menigopneumonitis in mouse L cells cultivated in a defined medium in spinner cultures

Summary L cells were grown in spinner cultures in a defined medium consisting of Waymouth medium MB752/1 (19) supplemented with 2 mg of fatty acid-free bovine serum albumin (BSA) per ml and 5 μg of oleate per ml (WO₅ medium). Growth in WO₅ medium was comparable to spinner L cell growth in two serum-containing media. The optimal concentration of oleate in the WO medium was 5 to 10 μg per ml. The use of 20 to 80 μg of oleate per ml of medium resulted in lower peak populations and earlier declines in viable cell counts. Cell death occurred rapidly in WO₁₆₀ medium. Cell growth in WO medium containing 5 to 80 μg of oleate per ml was well above the level of growth observed when no oleate was present in the medium. Since the total lipid and fatty acid compositions of the BSA used in this study have been characterized by the authors, the WO medium may be considered a defined medium. L cells have been continuously maintained in spinner cultures in WO₅ medium for over 50 passages with no major variation in the growth pattern. A 1000-fold increase inChlamydia psittaci strain meningopneumonitis, with a peak titer of 9.3×10⁷ plaque-forming units per ml, was observed when the chlamydial agents were grown in spinner L cells in WO₅ medium. This investigation was supported by Public Health Service Research Grant HE 08214 from the Program Projects Branch, Extramural Programs, National Heart and Lung Institute; The World Health Organization; and The Hormel Foundation.     

Growing a stratified,cornified primary culture of rat keratinocytes with epidermis-like water permeation barrier function

Summary The culture of cutaneous keratinocytes grown on a Puropore nylon microporous membrane at the air-liquid interface has been shown to be similar to the epidermis in a number of molecular and morphologic characteristics but to exhibit a significantly greater degree of tritiated water permeation. Various culture conditions have been altered in an effort to improve the water barrier properties. A Kp value in the range of 5.5±1.6×10⁻³ has been obtained for 79% of the culturea) by plating 0.9×10⁶ viable basal cells on a piece (13-mm diameter) of membrane for 7 days of submerged growth,b) by placing two membranes on two stacked glass fiber filters (47-mm extra-thick) in a culture dish (60 mm) for 14 days of growth at the air-liquid interface,c) by replacing the growth medium, i.e., 1 ml of complete minimum essential medium (CMEM) every 24 h after lifting,d) by using 10% fetal bovine serum (FBS) in the CMEM during the submerged culture period and 15% FBS in the CMEM during the lifted culture period, ande) by adding a dialysis membrane on top and a Puropore nylon membrane below the culture when the cultures were inserted in the permeation cell for testing. The percentage of cultures with this value for Kp can be increased to 90% if only cultures with yellow, smooth, and shiny surfaces are tested. This system should be useful as a replacement for skin in testing the cutaneous permeation of some chemicals. To whom correspondence should be addressed at 1528 Public Health, The University of Michigan, Ann Arbor, Michigan 48109-2029.