Control of the production of two protein hormones by rat pituitary cells in culture

Summary A clonal strain of rat pituitary tumor cells (GH₃) has continued to produce the pituitary protein hormones growth hormone (GH) and prolactin during 5 years of continued growth in monolayer culture. Studies of the effects of external stimuli have indicated that, in spite of the physical similarity of these protein hormones (each is a single polypeptide of molecular weight ≈23,000), their production is controlled by different mechanisms. Addition of hydrocortisone (HC) (3×10⁻⁶ m) to the growth medium leads, after a lag of 12 to 24 hr, to an increased relative rate (rate in experimental cells divided by rate in control cells) of GH production. The relative rate reaches a maximum of 5 to 8 at 30 to 100 hr. Stimulation by HC of GH production is observed in cells growing in either the stationary or the exponential phase of growth. Indirect estimates indicate that, in exponentially growing cells, GH represents about 2% and 14% of the total protein synthesized by control and fully stimulated cells, respectively. Maintenance of the stimulated state requires HC. HC decreases both the growth rate of GH₃ cells and their incorporation of amino acids into acid-insoluble material. At the same time that HC stimulates GH production it decreases the relative rate of prolactin production to about 0.2 to 0.3. On the other hand, addition of acid extracts of bovine hypothalamus, cerebral cortex, kidney, or liver (0.3 to 1.0 mg of protein per ml) to the medium leads to an increase of the relative rate of prolactin production to 6 to 9, while decreasing the relative rate of GH production to about 0.5. Chromatographic fractionation of simple extracts of bovine liver has yielded a macromolecular, heatlabile fraction exhibiting these effects at a concentration as low as 20 μg per ml. GH₃ cells which have been adapted to growth in suspension culture produce both GH and prolactin. HC is observed to stimulate GH production and suppress prolactin production by cells growing in this state, without affecting the growth rate of the cells. This investigation was supported in part by Research Grant AM 11011 from the National Institute of Arthritis and Metabolic Diseases.     

Proliferation kinetics of rabbit articular chondrocytes in primary culture and at the first passage

The in-vitro proliferation kinetics of young rabbit articular chondrocytes were compared in primary culture and at the first passage. The growth curves labelling and mitotic indices, percentage labelled mitosis (PLM) curves and DNA content distributions by flow-microfluorometric analysis during a 7-day growth period were determined in both cases. The length of the cell cycle and the doubling time calculated from the exponential part of the growth curve were quite similar: Tc = 19 hr and Td = 20 hr for the primary culture, Tc = 17 X 3 hr and Td = 20 hr for the first passage. However, the growth curve and the DNA distribution during the 7-day period showed some differences. The duration of the lag period studied by the growth curve was longer in the primary culture than at the first passage. This phenomenon was also observed using the FCM analysis. The growth fraction determination on the second day of culture was in accordance with the lower proliferation capacity of the cells in primary culture. These data suggest that it would be better to study growth kinetics and drug modifications in articular chondrocytes at the first passage than in primary culture.     

Differentiation of embryonic mouse GH cells and ACTH cells in vitro

The ability of cells that produce growth hormone (GH) and cells that produce adrenocorticotropic hormone (ACTH) to differentiate in various culture media was analyzed by means of ultrastructural immunocytochemistry on 13-day embryonic mouse pituitaries that were maintained in organ culture for 3-11 days. At the time of culture, relatively undifferentiated nongranulated or poorly granulated cells that were unreactive with anti-growth-hormone serum (anti-GH) and anti-adrenocorticotropic-hormone serum (anti-ACTH) were present in the pituitary. After 10-11 days in culture, immunoreactive GH cells were obtained only in media that were supplemented with cortisol, whereas ACTH cells were obtained in all media tested, including Medium 199 alone. In cortisol-supplemented media, the GH cells showed ultrastructural features typical of those that occur in vivo, and anti-GH immunoreactivity was obtained after as little as 3 days in culture, i.e., at a stage comparable to that which occurs in vivo. The results indicate that mouse GH cells are capable of differentiating in Medium 199 supplemented only with cortisol, without the addition of fetal calf serum or insulin; cortisol therefore appears to be an essential component of the embryonic milieu for the production of GH-secretory granules.     

Cell cycle distributions, growth characteristics, and variation in prolactin and growth hormone production in cultured rat pituitary cells.

Clonal strains of rat pituitary tumour cells (GH3 cells) spontaneously produce and secrete prolactin and growth hormone. Chromosome analysis and DNA ploidy measurements revealed that the GH3 cells in the present study were triploid and had a decreased chromosome number compared to the parent strain. Monolayer cultures of these cells grow exponentially for 6-7 days with a mean doubling time of 54 h. Cell cycle distributions and phase durations were determined by micro-flow fluorometric measurements of cellular DNA content combined with computer calculations. During exponential growth the cell cycle distribution did not change (65.4% cells with a G1 phase DNA content, 24.9% with an S phase DNA content, and 9.7% with a (G2 + M) phase DNA content). Counting of mitoses gave 1.4% cells in M phase. The 3H-Tdr labeling indices were determined by autoradiography, and the results were in good agreement with the number of cells in S phase as calculated by micro-flow fluorometry. The phase durations were: Ts=15.9 h, TG2=6.2 h, TM=1.1 h, and TG1=30.9 h. TS and TM calculated from 3H-Tdr labeled and Colcemid treated cultures gave corresponding results. In plateau phase cultures the number of cells with a G1 DNA content increased to 80% and the number of cells with an S phase DNA content decreased to between 5% and 10%. The specific production of prolactin and growth hormone determined by radioimmunoassay showed two and four-fold increases respectively, during exponential growth. The hormone values decreased to initial or subinitial values (day 2 values) when approaching plateau phase. We conclude: that changes in the cell cycle distribution of the cell population cannot be responsible for the spontaneous alterations in hormone production during growth and that most of the hormone-producing cells must be in the G1 phase.     

Serial propagation of human ovarian surface epithelium in tissue culture

Most human ovarian cancers are thought to arise in the ovarian surface epithelium (OSE). The precise role of OSE in carcinogenesis has not been defined because no appropriate animal models for the study of this tissue exist and culture of human OSE has been limited to primary outgrowths. In this report, we describe conditions for serial cultivation of normal human OSE. Premenopausal ovarian tissue was obtained at surgery. OSE growth was compared in media MCDB 202, 199 and Waymouth's 752/1 (WM) supplemented with 5, 15, or 25% fetal bovine serum (FBS), with/without 20 ng/ml epidermal growth factor (EGF) and 0.4 micrograms/ml hydrocortisone (HC). The rate and extent of OSE outgrowths from explants in primary culture were greatest in either WM or 199/202 (1:1), supplemented with 15% FBS/EGF/HC. In early passage cultures, cell proliferation was most rapid and extensive in 199/202 with 15% FBS, EGF, and HC. In this medium, OSE cells were subcultured up to 10 times and underwent 20-25 population doublings over 5 weeks. The population doubling time during rapid growth was approximately 48 h. Seeding efficiencies of up to 53% and cloning efficiencies of up to 13% were obtained. Early passage OSE cells reversibly modulated from a slow growing, epithelial, intensely keratin-positive form in 199/202 medium lacking EGF/HC, to a rapidly proliferating, elongate, less keratin-positive form in medium with EGF/HC. OSE cells grown in WM/5-15% FBS were epithelial and near-stationary. Thus, culture conditions have been defined for ovarian carcinogen assays requiring either proliferating or stationary cell populations, and for further studies of the role of OSE in ovarian biology.     

Variations in prolactin and growth hormone production during cellular growth in clonal strains of rat pituitary cells.

A permanent, clonal strain of rat pituitary tumor cells (GH3-cells) spontaneously synthesizes and secretes prolactin (rPRL) and growth hormone (rGH) into the culture medium. The rates of hormone production (microng extracellular hormone/mg cell protein/24 hours) and synthesis (vida infra) as well as the rate of [3H]thymidine incorporation into DNA (DNA synthesis) have been studied. During logarithmic growth rPRL and rGH production increased to 160 and 250% of the value at day 2 after plating, while during the plateau phase of cell growth hormone production decreased to initial values. The fluctuations in rPRL production could be fully explained by variations in the rate of rPRL synthesis: [3H]eucine incorporated into rPRL as measured with immunoprecipitation and polyacryl-amide gel electrophoresis. Also the rates of synthesis and production of rGH showed parallel changes during exponential and plateau phase of growth, but this hormone was probably degraded intracellularly. The relative reduction in the rate of synthesis of rPRL and rGH during the plateau of growth corresponded closely to the fall in the rate of DNA synthesis. The reduction in rPRL synthesis could not be explained through an inhibition by extra-cellular rPRL accumulation or by cell to cell interaction occurring in dense cultures. The intracellular concentrations of both hormones were unaltered during logarithmic growth, but rose to 500% for rPRL and 200% for rGH during the plateau phase. In spite of the marked variations in basal rPRL and rGH production the GH3 cultures of different ages were equally able to increase rPRL and decrease rGH production in response to thyrotropin releasing hormone (3 X 10(-7) M) and 17beta-estradiol (10(-8)M).     

Lactating goat mammary gland cells in culture.

1. Isolated mammary gland cells were cultured embedded in collagen gels or as monolayers on floating collagen gels. Under these conditions the cells were able to grow for at least 6 weeks during five passages. Growth was sustained in M199/F12 (1:1) supplemented with insulin, hydrocortisone, epidermal growth factor, tri-iodothyronine, estradiol and bovine serum albumin. 2. The cells secreted lactose into the medium in significant amounts throughout the culture period. 3. Prolactin had a slightly stimulatory effect as had fetal bovine serum on growth and protein synthesis, but none of these factors were obligatory in this respect. Insulin-like growth factor I (Somatomedin C) could replace high concentrations of insulin whereas bovine growth hormone had no detectable effect. 4. Depending on the hormone content of the medium and the age of the culture, different labelling patterns of the arachidonic acid-containing phospholipids were observed. The effect of prolactin on phosphatidyl inositol and arachidonic acid metabolism was studied.     

Long-term culture of epithelial cells from the normal rat colon

Summary Serial passage cultures of colonic epithelial cells from young rats have been maintained for more than 6 months in Eagle's minimum essential medium buffered with HEPES (25 mM) and supplemented with 2.5% fetal bovine serum, 0.5 μg/ml insulin, 5.0 μg/ml transferrin, and antibiotics. The cells proliferated in this medium with a population doubling time of approximately 53 h. The cells retained differentiated morphology as evidenced by secretory activity and the presence of secretory granules, microvilli, tonofilaments, and desmosomal junctions. Further cells at the fourth passage had normal karyotypes with 42 chromosomes and exhibited anchorage dependent growth. High concentrations of fetal bovine serum (10 to 15%) exerted toxic effects on the colonic epithelial cell cultures. Supported by National Cancer Institute Contract N01-CP-75914.     

Effect of norepinephrine on growth of Salmonella and its enterotoxin production

Salmonella typhimurium was cultured in presence or absence of norepinephrine in conditioned media. Two conditioned media containing bovine and pig serum were prepared. Supplementation of fresh cultures with norepinephrine (5 x 10(-5) M per mL of medium) resulted in ten-fold increase in growth as compared to controls. No significant difference in growth of organisms in media containing bovine and pig serum was observed. Growth was more in culture incubated under shaking condition than in non-shaking condition. Enterotoxin production increased by two to eight-folds in the medium supplemented with norepinephrine.     

Continuous hybridoma growth and monoclonal antibody production in hollow fiber reactors-separators

Growth of a hybridoma culture, along with production of monoclonal antibody, was demonstrated over extended periods in polysulfone hollow fiber membrane modules. The molecular weight cutoffs of the membranes were 70,000, 50,000, and 100,000 daltons. The hybridoma cell line, designated 65/26, produced IgG (2b/kappa) directed at mouse thymus cell surface antigen, TL.1. Cell growth occurred in the shell space of the reactor, using supplemented RPMI 1640 (20% fetal bovine serum) supplied from a separate reservoir vessel through the hollow fiber lumen. The reservoir contained 125 mL media, which was changed every 4 days. Concentrations of immunoglobulin were determined by an enzyme immunoassay (using protein A and alkaline phosphatase-labeled antibody conjugate). For the 10K, 50K, and 100K hollow fiber membrane modules, the maximum IgG concentrations detected in the 2.5-mL shell space were 47.5-80, 510, and 740 mug/mL, respectively. In the 125-mL reservoir for the 100K hollow fiber membrane module, the IgG concentration was measured at 260 mug/mL These values compare with an IgG concentration of 1 mug/mL when grown in a standard tissue culture flask and 3.2-7.6 mug/mL when grown in 100 ml media in a spinner flask. In addition, 10K and 50K hollow fiber membrane modules were run in a mode that decreased the fetal bovine serum supplement with time. Differences between these systems suggest that it is possible to obtain high IgG accumulation rates, both during and after the exponential growth phase of the hybridoma population.     

Methods for increasing monoclonal antibody production in suspension and entrapped cell cultures: biochemical and flow cytometric analysis as a function of medium serum content.

The growth and antibody production of the SP2/0-derived hybridoma HB124 (ATCC) grown in media containing varying amounts of fetal bovine serum (FBS) were monitored using biochemical and flow cytometric methods. Hybridomas grown in 100 ml spinner flasks with RPMI-1640 containing varying amounts of serum demonstrated that cell growth, viability and IgG production show significant changes when serum content is decreased from 10.0 to 5.5 to 1.0 and 0.5%. A longer lag phase resulted when the lower serum content media were used. Cellular rates of glucose uptake showed a significant increase as serum levels were lowered. Similarly, exponential phase IgG production rates increased as the amount of serum was decreased, probably as a result of the decreased rate of exponential growth. Flow cytometric analysis showed a similar increase in cellular IgG content as medium serum levels declined. In contrast, the maximum IgG concentrations were found in flasks containing 1% FBS or above with the lowest concentration in the 0.5% FBS flask being due to the lower numbers of viable cells. Cells grown in microporous hollow fiber reactors were fed with medium containing serum which was decreased stepwise with time. Decreasing medium serum content stepwise from 10 to 2.5% resulted in increased antibody production. However, complete removal of serum from the medium resulted in a significant drop in antibody productivity. Cumulative antibody production was equivalent for cells grown entirely in medium containing 10% FBS and for those which experienced a drop to 2.5% FBS. To compare a defined serum-free medium preparation with medium containing 10% FBS, cells were again grown in batch suspension culture and analyzed. The growth rates were similar but there was a significant difference in IgG production rates. The serum-free culture exhibited both higher cellular production rates and higher IgG concentrations. These results indicate that decreasing medium serum content can adversely affect antibody yield because of lower cell viabilities, not because of lower production rates. Use of a defined serum-free medium, as done in this study, results in higher yields because of a higher IgG production rate as well as good cell growth and viability.     

Effect of Fetal Bovine Serum Glycoproteins on the In Vitro Proliferation of the Oyster Parasite Perkinsus marinus: Development of a Fully Defined Medium

ABSTRACT. The oyster parasite Perkinsus marinus replicates in our medium consisting of Dulbecco modified Eagle's medium: Ham's F12 nutrient mixture (1:1) supplemented with 1–5% fetal bovine serum, with a doubling time of 24 hours during the exponential phase of the culture. Fetal bovine serum concentrations above 5% dramatically reduced parasite proliferation in a dose-dependent manner. We tested the individual effects of the three major protein components of fetal bovine serum (fetuin, transferrin and albumin) on the replication of the parasite in a serum-free medium. At the concentrations tested, fetuin enhanced parasite growth, whereas albumin had a modest positive effect and transferrin was inhibitory. Proteolytic digestion of fetuin, strongly diminished its growth-enhancing properties, indicating that the overall glycoprotein architecture may be required for activity. On the contrary, desialylation of fetuin slightly enhanced its growth-promoting activity. The addition of fetuin at 1.7 mg/ml to the serum-free DME: Ham's F12 medium yielded growth rates that are comparable to those obtained with our standard culture methodology. This has resulted in a fully defined culture medium that will allow for a rigorous characterization of excretory/secretory products involved in modulating or blocking the host's humoral and cellular defense mechanisms.     

Changes of Exponential Growth Rates in Relation to Differentiation of Geotrichum candidum in Submerged Culture

Growth and differentiation of the imperfect fungus Geotrichum candidum were followed in submerged cultures containing a simple synthetic glucose salt medium. Uptake of glucose, ammonium and oxygen from the medium were measured during the entire growth perod. In 0.1% glucose the fungus grows with one exponential growth phase until all the glucose has been consumed. The arthrospores are formed in the stationary phase. In 0.5% glucose the growth curve has two exponential growth phases, one with a doubling time of 1.8 h and a second one with a doubling time of 4.9 h. The second exponential growth phase, which starts when less than 15% of the glucose and less than 30% of the ammonium have been consumed, is shown to be the sporulation phase. During this growth phase the oxygen saturation in the culture remained constant at about 50%.     

Serum-free culture conditions for the growth of normal rat mammary epithelial cells in primary culture

Summary A monolayer culture system has recently been developed for the extended growth and serial passage of normal rat mammary epithelial (RME) cells. In this system the cells undergo greater than 20 population doublings when grown on type I collagen-coated tissue culture dishes in Ham's F12 medium supplemented with insulin, hydrocortisone, epidermal growth factor, prolactin, progesterone, cholera toxin, and 5% fetal bovine serum (FBS). The purpose of the present studies was to define additional growth factors that would allow equivalent RME cell proliferation in serum-free medium. Ethanolamine (EA) was effective at reducing the FBS requirements for RME cell proliferation and at its optimum concentration did so by greater than 20-fold. Even with optimum levels of EA there was essentially no cell proliferation in the absence of FBS. However, addition of bovine serum albumin (BSA) to the hormone, growth factor, and EA-supplemented medium resulted in substantial proliferation in the absence of serum, and the further addition of transferrin (T) potentiated this effect. Thus, in this culture system, replacement of FBS with EA, BSA, and T resulted in RME cell proliferation in primary culture which was equivalent to that obtained in the 5% FBS-containing medium. This work was supported by grant RR-05529 from the Division of Research Resources, National Institutes of Health, Bethesda, MD, and by Public Health Service grant CA40064-01 from the National Cancer Institute, Bethesda, MD.     

Control of angiotensinogen production by H4 rat hepatoma cells in serum-free culture

Summary A serum-free, hormone and attachment factor supplemented culture for rat H4 hepatoma cells was established. In the defined medium (Dulbecco's Modified Eagle's +Ham's F12+insulin, transferrin, fibronectin liver cell growth factor, and sodium selenite), H4 cells grew equally well as in 10% fetal bovine serum supplemented medium. H4 cells in either defined or serum-containing culture conditions produce transferrin but not albumin or alpha-fetoprotein. In this paper we have studied the effect of various hormones and pressor peptides on the production of angiotensinogen by H4 cells cultured in defined conditions. Only glucocorticoid hormone had a significant effect on the production of angiotensinogen, whereas other hormones previously reported to exert their effect on angiotensinogen production had little or no effect. This work was supported by grant P01 CA37589 from the National Institutes of Health, Bethesda, MD.     

Increased glucocorticoid responsiveness of CD4+ T-cell clonal lines grown in serum-free media

Summary CEM-C7, a human leukemic CD4+ T-lymphocyte cell line and three of its subclones, CEM-4R4, CEM-3R43, and ICR-27, previously cultured in a medium supplemented with 5 to 10% fetal bovine serum, have been adapted to serum-free media. The best medium of those tested was RPMI 1640 supplemented with 5 μg/ml each transferrin and insulin + 5 ng/ml sodium selinite ± 0.1% bovine serum albumin. While growing either with or without albumin, the several clonal lines of CEM cells displayed growth similar to serum-supplemented cultures. Cell proliferation of CEM-C7 cells cultured in both serum-free media has been sustained for 3 mo, with culture doubling times of about 25 h for both serum-supplemented and serum-free cultures (viability ≥ 90%). Cell morphology remained essentially the same in serum-free or serum containing media. The expression of CD4, a marker for T-derived lymphoid cells, was not significantly different in serum-free medium. When grown in serum-free medium, CEM-C7 cells exhibited increased steroid responsiveness as evidenced by increased glucocorticoid receptor binding sites, increased induction of glutamine synthetase, and cell lysis at lower concentrations of steroid. Receptor mutant subclones of CEM-C7, which are proven to be completely unresponsive to micromolar concentrations of dexamethasone when grown in serum-supplemented medium, become partially sensitive to the hormone after growth in defined medium. The increased sensitivity of CEM-C7 cells and its subclones to dexamethasone in serum-free medium returned to previous levels when these cells were recultured in serum-containing medium. Our results suggest that substances in serum influence steroid effects on these cells and that the molecular details of glucocorticoid hormone action may be pursued more precisely in a clearly defined culture medium. This work was conducted in conjunction with the Walls Medical Research Foundation.     

Establishment and characterization of two embryonic cell lines of <Emphasis Type="Italic">Bombyx mori</Emphasis>

Two cell lines, i.e., BmE-SWU1 and BmE-SWU2, were established from silkworm embryonic tissues of the reversion phase through primary culture in Grace’s medium supplemented with 20% fetal bovine serum. The BmE-SWU1 cell line mainly included diploid spindle cells and round cells, which were large and had severe heteroploidy karyotypes. The population doubling time of the 30th passage of the cell line was 58.7 hr. BmE-SWU2 cells were oblong or round, and small. The population doubling time for the 30th passage of the cell line was 46.6 hr. Of BmE-SWU2 cells 89.9% were diploid (2n = 56). Both strains were attached to epithelial-like cell lines and were susceptible to Bombyx mori nucleopolyhedroviruse (BmNPV). Inter simple sequence repeat (ISSR) fingerprinting of silkworm embryonic cell line was obtained.     

Equine oocyte in vitro maturation: influences of sera, time, and hormones.

Objectives of the present research were to determine the influences of types of media, sera, time and hormones on equine oocyte in vitro maturation (IVM). The following types of media and sera were evaluated: Menezo's B2 medium (B2), modified Tissue Culture Medium 199 (TCM), Defined Medium (DM), fetal calf serum (FCS), mare serum collected on the first day of estrus (MS), and mare serum collected on the day of ovulation (MSO). Resultant oocyte maturation was compared with the control: DM with bovine serum albumin (BSA). Effect of culture time (0, 15, and 32 hr) and the following hormones on oocyte IVM were evaluated: none, bovine luteinizing hormone (bLH; 1, 10, 100 micrograms/ml), equine luteinizing hormone (eLH; 100 micrograms/ml), bovine follicle-stimulating hormone (FSH; 5 micrograms/ml), and equine chorionic gonadotropin (eCG; 1 and 100 IU/ml). Cumulus expansion in the media and sera experiments was 50% (DM with BSA), 80% (TCM, B2, and DM with MS or MSO), and 100% (FCS with any medium). The proportion of metaphase II (MII) oocytes was significantly (P less than 0.05) increased the percentage of MII oocytes as compared with 0 hr of culture. Cumulus expansion in the hormone experiments was 80% (none, bLH, and eLH), and 100% (eCG and FSH). Freshly prepared bLH significantly (P less than 0.05) inhibited nuclear maturation of equine oocytes. In summary, 15 hr of culture was sufficient time for equine oocyte IVM and all combinations of medium, serum, and hormone addition were equally effective in achieving IVM except fresh bLH and DM with BSA.     

An optimized culture medium for human vascular endothelial cells from umbilical cord veins

Various polypeptide growth factors, culture substrates, basal media, sera and further supplements were assayed for improvement of growth of human vascular endothelial cells from umbilical cord veins. The resulting optimized medium consisted of gelatinized culture substrates, a mixture (1:1) of Iscove's MDM and Ham's F12 basal media supplemented with 20% newborn calf serum, 500 ng/ml crude fibroblast growth factor, 20 ng/ml epidermal growth factor, 5 g/ml transferrin, 5 g/ml insulin and 10 g/ml heparin. The medium allowed long term cultivation of HUVEC up to 45 generations with maximal cell densities of about 10⁵ cells per cm² and a minimal doubling time of about 14 hours at low cell densities.Abbreviations HUVEC Human Endothelial Cells From Umbilical Cord Veins - FGF Fibroblast growth factor - EGF Epidermal Growth Factor - FCS Fetal Calf Serum - NCS Newborn Calf Serum - HBS HEPES-Buffered Saline - ECM Extracellular Matrix - LHM Peptide PyroGlu-His-Ser-Phe-Thr-Ile-Lys-Ile-ThrCONH₂ - IF 1:1 mixture of Iscove's MDM and F12 basal media     

Transparent polymeric cell culture chip with integrated temperature control and uniform media perfusion

Modern microfabrication and microfluidic technologies offer new opportunities in the design and fabrication of miniaturized cell culture systems for online monitoring of living cells. We used laser micromachining and thermal bonding to fabricate an optically transparent, low-cost polymeric chip for long-term online cell culture observation under controlled conditions. The chip incorporated a microfluidic flow equalization system, assuring uniform perfusion of the cell culture media throughout the cell culture chamber. The integrated indium-tin-oxide heater and miniature temperature probe linked to an electronic feedback system created steady and spatially uniform thermal conditions with minimal interference to the optical transparency of the chip. The fluidic and thermal performance of the chip was verified by finite element modeling and by operation tests under fluctuating ambient temperature conditions. HeLa cells were cultured for up to 2 weeks within the cell culture chip and monitored using a time-lapse video recording microscopy setup. Cell attachment and spreading was observed during the first 10-20 h (lag phase). After approximately 20 h, cell growth gained exponential character with an estimated doubling time of about 32 h, which is identical to the observed doubling time of cells grown in standard cell culture flasks in a CO2 incubator.