Establishment of a xeno-free culture system that preserves the characteristics of placenta mesenchymal stem cells

Although stem cells are promising candidates for cell replacement therapies, the vast majority are derived using animal sera, which has risk of being contaminated by animal viruses or toxins. To overcome these potential problems, we initially established multiple lines of stem cells from first-trimester human placenta (fPMSC), which were cultivated using human follicular fluid (hFF) instead of fetal bovine serum (FBS). FF provides a very important microenvironment for the development of oocytes. No differences were found in the general morphology, growth rate, karyotype, gene and surface expressions between placental MSCs cultured in 5 % hFF-supplemented medium (fPMSC-X) or 10 % FBS-supplemented medium (fPMSC). Differentiation experiments confirmed similar levels of potency in cells grown in either condition. Since hFF preserved the unique features of the stem cells and is free from potential pathogens, it should be considered as the main culture medium supplement for the propagation of human stem cells for clinical applications.     

ARPE-19 conditioned medium promotes neural differentiation of adipose-derived mesenchymal stem cells

BACKGROUNDAdipose-derived stem cells (ASCs) have been increasingly explored for cell-based medicine because of their numerous advantages in terms of easy availability, high proliferation rate, multipotent differentiation ability and low immunogenicity. In this respect, they have been widely investigated in the last two decades to develop therapeutic strategies for a variety of human pathologies including eye disease. In ocular diseases involving the retina, various cell types may be affected, such as Müller cells, astrocytes, photoreceptors and retinal pigment epithelium (RPE), which plays a fundamental role in the homeostasis of retinal tissue, by secreting a variety of growth factors that support retinal cells.AIMTo test ASC neural differentiation using conditioned medium (CM) from an RPE cell line (ARPE-19).METHODSASCs were isolated from adipose tissue, harvested from the subcutaneous region of healthy donors undergoing liposuction procedures. Four ASC culture conditions were investigated: ASCs cultured in basal Dulbecco''s Modified Eagle Medium (DMEM); ASCs cultured in serum-free DMEM; ASCs cultured in serum-free DMEM/F12; and ASCs cultured in a CM from ARPE-19, a spontaneously arising cell line with a normal karyotype derived from a human RPE. Cell proliferation rate and viability were assessed by crystal violet and MTT assays at 1, 4 and 8 d of culture. At the same time points, ASC neural differentiation was evaluated by immunocytochemistry and western blot analysis for typical neuronal and glial markers: Nestin, neuronal specific enolase (NSE), protein gene product (PGP) 9.5, and glial fibrillary acidic protein (GFAP).RESULTSDepending on the culture medium, ASC proliferation rate and viability showed some significant differences. Overall, less dense populations were observed in serum-free cultures, except for ASCs cultured in ARPE-19 serum-free CM. Moreover, a different cell morphology was seen in these cultures after 8 d of treatment, with more elongated cells, often showing cytoplasmic ramifications. Immunofluorescence results and western blot analysis were indicative of ASC neural differentiation. In fact, basal levels of neural markers detected under control conditions significantly increased when cells were cultured in ARPE-19 CM. Specifically, neural marker overexpression was more marked at 8 d. The most evident increase was observed for NSE and GFAP, a modest increase was observed for nestin, and less relevant changes were observed for PGP9.5. CONCLUSIONThe presence of growth factors produced by ARPE-19 cells in tissue culture induces ASCs to express neural differentiation markers typical of the neuronal and glial cells of the retina.     

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.     

Use of synthetic serum-free medium for culture of human dermal fibroblasts to establish an experimental system similar to living dermis

In this study, we sought to establish a defined experimental system for fibroblast growth similar to that of the living dermis. To this end, we evaluated the growth and biochemical characteristics of fibroblasts cultured with serum-free HFDM-1, a finely tuned synthetic medium for human fibroblast culture. Three culture conditions were used to grow fibroblasts obtained from primary culture: (1) culture with Dulbecco’s modified Eagle medium (DMEM) plus 10 % fetal bovine serum (serum-supplemented DMEM), (2) culture with DMEM (serum-free DMEM), and (3) culture with HFDM-1 (HFDM-1), and fibroblast morphology, growth, collagen type I production, and lipid composition were analyzed. Fibroblasts grown in HFDM-1 maintained cell numbers at nearly 100 % from days 14 to 21 and produced more collagen type I than cells grown in serum-supplemented and serum-free DMEM. Arachidonic acid (20:4) and total polyunsaturated fatty acids were lower in cells grown in serum-free DMEM and HFDM-1 than in serum-supplemented DMEM. These results suggested that HFDM-1 recapitulated growth conditions in the dermis better than traditional, serum-supplemented DMEM. In addition, the controlled chemical composition of HFDM-1 eliminated a potential source of variability in cell culture conditions.     

Culture of human blood vessel endothelial cells--a simple and inexpensive culture method

The purpose of this review is to introduce a simple and inexpensive culture method for human umbilical blood vessel endothelial cells. The medium used is MCDB-104 supplemented with 10% fetal bovine serum, 70 ng/ml endothelial cell growth factor from new-born bovine brains, 10 ng/ml murine epidermal growth factor, and 100 micrograms/ml heparin. The culture dishes are coated with gelatin. Under these conditions, endothelial cells from human vessels were grown with doubling times of 18-22 hrs and reached saturation densities of 8-12 x 10(4) cells/cm2. To determine the lifespan of the endothelial cells, the cells were serially subcultivated weekly at an inoculum size of 1,000 cells/cm2. Human endothelial cells from umbilical vein and artery were grown for 21 to 37 passages with 55 to 125 population doublings. This culture method seems to be useful for studying cell proliferation and functions of human endothelial cells.     

Retinoid-binding proteins and retinol esterification in cultured retinal pigment epithelium cells

The esterification of all-trans retinol and the occurrence of cytosolic retinoid-binding proteins was investigated in cultured bovine retinal pigment epithelium (RPE) cells. ³H-labeled all-trans retinyl ester (mainly palmitate) was formed at an initial rate of 0.1 nmol·mg protein⁻¹·min⁻¹ when ³H-labeled all-trans retinol was incubated with the 100,000 g pellet obtained from a homogenate of freshly-harvested cells. No esterification could be detected under the same conditions after 14 days in culture in defined medium (DM) or in medium containing 20% fetal bovine serum (CM). No enhancement or restoration of esterifying capacity was observed when the assay mixture was supplemented with palmitoyl CoA. As determined by specific, saturable binding of ³H-labeled all-trans retinol and ³H-labeled 11-cis retinal to proteins with mol. wts 16,000 and 33,000 dalton on calibrated Bio-Sil TSK 250 size-exclusion columns, the cytosol of freshly-harvested RPE cells contained cellular retinol-binding protein (CRBP) and cellular retinal-binding protein (CRAlBP). By comparison with the quantity of ³H-labeled all-trans retinol bound under identical conditions to pure dog liver CRBP, it was estimated that fresh RPE cells contained 102 ± 3 ng CRBP·μg cytosol protein⁻¹. In cultured and subcultured cells, CRBP was present at much lower levels (down to one-tenth of the initial amounts) and CRAlBP could not be detected. Since binding of ³H-labeled all-trans retinoic acid to a protein with molecular weight of 17,000 dalton was not observed in the cytosols of fresh or cultured cells, it was concluded that cellular retinoic acid binding protein (CRABP) was either present at very low levels or absent altogether. An unidentified peak of specific ³H-labeled all-trans-retinoic acid binding at mol. wt 61,000 dalton was prominent in subcultured cells. These results show that in RPE cells in culture the expression of differentiated phenotype with respect to retinoid utilization undergoes significant modification. It is postulated that changes in the composition of the extracellular matrix (e.g. absence of interstitial retinol-binding protein, IRBP) may be involved.     

Growth requirements and long-term subcultivation of bovine granulosa cells cultured in a serum-free medium

Summary We have developed an improved serum-free medium to optimize the cell growth of bovine granulosa cells. The cells on collagen-coated culture plates proliferated extensively in a nutrient medium supplemented with insulin, heparin binding growth factor-2 (HBGF-2), lipoprotein, and bovine serum albumin (BSA). The cell doubling time at logarithmic phase and final cell density at confluent cultures were equal to those of cultures grown in the presence of medium supplemented with optimal concentration (10%) of fetal bovine serum (FBS). Whereas HBGF-2 or insulin alone had a small mitogenic effect of granulosa cells, lipoprotein or BSA did not. When lipoprotein, BSA, or insulin was added together with HBGF-2, synergistic cell proliferation was observed in all combinations. Insulin or lipoprotein had an additive mitogenic stimulation of these cells in the presence of BSA. After granulosa cells were subcultivated in a serum-containing medium until three generations [8.5 cumulative population doubling level (CPDL)], subsequent subcultivation of the cells in a complete serum-free medium could be achieved up to six generations (14.4 CPDL). These results demonstrate that this serum-free medium can support the optimal cell growth and long-term subcultivation of bovine granulosa cells.     

Long term growth of factor-producing lymphoid and myeloid cells in serum-free medium

The ability to grow lymphoid and myeloid cells in serum-free culture medium allows researchers to analyze the factors and mechanisms required for hemopoietic cell growth and differentiation without the interference of undefined serum components. Therefore, we used a serum-free medium, RITC 55-9 that consisted of modified Dulbecco's MEM supplemented with bovine serum albumin (BSA), transferrin (Tf) and insulin (Ins) to culture human T lymphoid (Mo), murine myelomonocytoid (WEHI-3B) and murine interleukin (IL)-3-dependent (32Dcl/H4) cell lines. Mo was maintained in RITC for more than 8 months and had a mean viability of 59% and the same doubling times as in serum-containing medium (SCM). Under these conditions, Mo cells produced hemopoietic colony-stimulating activity that included production of a basophil/eosinophil differentiation factor of similar content to that produced in SCM. WEHI-3B cells grown for more than 12 months in RITC, or for more than 3 months in RITC without Tf and Ins, had a doubling time of 20 h, whereas cells maintained in protein-free RITC showed a 2-fold increase in doubling time then died within 3 months. The IL-3 production by WEHI-3B cells cultured in RITC was higher than the production by cells grown in SCM. When IL-3 was assayed in 32Dcl/H4 cells that had been maintained in RITC for more than 4 months, a lower response to IL-3 was found, an indication that components other than the BSA, Tf and Ins in fetal calf serum are required for optimal cell growth and differentiation.     

Role of cell membrane composition in receptor-mediated internalization of vesicular stomatitis virus in human HEp-2 cells

The role of essential fatty acids in membrane functions related to receptor-mediated endocytosis of vesicular stomatitis virus (VSV) was investigated using a human laryngeal carcinoma cell line (HEp-2) grown in chemically defined serum-free medium (DM) to deplete their essential fatty acid contents. VSV replicated much less effectively in HEp-2 cells grown in DM as compared to serum containing complete medium (CM). Observed reduction in the rate of virus multiplication was, at least in part, due to reduced virus penetration which was monitored using VSV labeled with nitroxyl free radicals as electron spin probe. Surface proteins of VSV were labeled with maleimide spin-label, and succinimide spin-label. Ni2+ was used as a broadening agent to identify the spin-label signals from viruses inside the cell. HEp-2 cells and mouse leukemia cell line L1210 treated with 5-dimethylaminonaphthalene-1-sulfonyl (dansyl) cadaverine, an agent previously shown to inhibit the uptake of VSV in vitro, was used as a positive control in some experiments. VSV penetrated less effectively in both DM-grown cells and in CM-grown cells in the presence of dansylcadaverine. Similar results were obtained by monitoring the uptake of 125I-labeled VSV. When HEp-2 cells grown for several generations in DM were incubated with 10% fetal calf serum for 16 h, the cells supported virus replication to a similar extent as the cells grown in CM. In contrast, addition of arachidonic acid restored VSV growth only partially. Continued growth of HEp-2 cells in DM resulted in a shift in fatty acyl chain composition of phospholipids. The results indicate a finite role for essential fatty acids in receptor-mediated internalization of virus particles.     

Tissue culture of human and canine thoracic duct endothelium

Summary Endothelial cells from the canine or human thoracic duct were harvested using 0.2% collagenase digestion and grown in Media 199, supplemented with fetal bovine serum. The canine endothelial cells grew to confluence (4.4 to 12×10⁴ cells/cm²) in 6 to 10 d; doubling times ranged from 1.5 to 2.8 d. There was a minimum critical density for cell growth between 500 and 10 000 cells/cm². The canine endothelial cells have been maintained in culture for periods up to 11 mo. The human thoracic duct endothelial cells are more difficult to grow and maintain. Endothelial cells were isolated from 5 out of 35 human thoracic ducts and grew for periods of up to 2 wk before degenerating. Both human and canine endothelial cells were Factor VIII positive. It has thus been demonstrated that it is possible to grow canine and, less easily, human thoracic duct endothelium in tissue culture.     

Three-dimensional culture using human plasma-medium gel with fragmin/protamine microparticles for proliferation of various human cells

Fragmin/protamine microparticles (F/P MPs) have been used as carriers for the preservation and activation of cytokines in human plasma (HP)–Dulbecco’s modified Eagle’s medium (DMEM) gels. This study investigated a three-dimensional (3D) culture system using an HP–DMEM gel with 0.1 mg/mL F/P MPs and 5 ng/mL FGF-2 for the proliferation of human dermal fibroblast cells (DFCs), human microvascular endothelial cells (MVECs) and human coronary smooth muscle cells (SMCs), or 5 ng/mL interleukin (IL)-3/granulocyte-macrophage colony-stimulating factor (GM-CSF) for a human hematopoietic cell line (TF-1 cells). DFCs, MVECs, SMCs and TF-1 cells grew rapidly under 3D culture conditions using a low-concentration HP (2 %)–DMEM gel with F/P MPs and FGF-2 (for DFCs, MVECs and SMCs) or IL-3/GM-CSF (for TF-1 cells) at doubling times of 22, 23, 25 and 18 h, respectively, without the use of animal serum, compared to under 2D culture conditions using low-concentration human serum (2 %)–DMEM with 5 ng/mL FGF-2 or IL-3/GM-CSF on F/P MP-coated plates at doubling times of approximately 26, 25, 40 and 20 h, respectively.     

Effect of glutamine deprivation and glutamate or ammonium chloride addition on growth rate, metabolism and differentiation of human colon cancer cell-line HT29

Effect of glutamine deprivation (GLN- medium) and of its replacement by 4mM ammonium chloride (GLN-/NH4+ medium) or by 4mM glutamate (GLN-/Gt+ medium) was studied on growth rate, morphology and metabolism of HT29 human colon cancer cells. Growth rates were modified as follows: at the first passage, growth of GLN- cells was strongly decreased (doubling time: 192 hr vs 32 hr in control cells grown in GLN+ medium); GLN-/NH4+ cells and GLN-/Gt+ cells were found to have doubling times of 72 and 70 hr, respectively. At the 8th passage, doubling times were decreased in all cases, being: 144 hr for GLN- cells, 60 hr for GLN-/NH4+ cells and 24 hr for GLN-/Gt+ cells, which indicates a capacity of adaptation of the cell-line to new culture conditions. GLN- cells and GLN-/NH4+ cells were found to exhibit an enterocytic type of differentiation (polarization of the cell layer with apical and cystic brush border and tight junctions); GLN-/Gt+ cells remained undifferentiated and comparable to control GLN+ cells. Glycogen level varied according to the phases of the culture, with a trend to lower level in glutamine deprived cells; glucose uptake and lactate production varied as a function of the medium composition and of the phases of the culture. At the 8th passage, all the glutamine deprived cells produced less lactate than control; GLN-/Gt+ cells were found to utilize less glucose than others.     

The Differentiation of Human Adipose-Derived Stem Cells towards a Urothelium-Like Phenotype In Vitro and the Dynamic Temporal Changes of Related Cytokines by Both Paracrine and Autocrine Signal Regulation

Purpose

To investigate the differentiation ability of human adipose-derived stem cells (ASCs) towards urothelium-like cells in vitro and the dynamic changes of related cytokines and cytokine receptors in the culture medium.

Materials and Methods

The ASCs were induced using both conditioned media (CM) and the transwell co-culture system with an immortalized urothelium cell line (SV-HUC-1,HUC) for 21 days. Protein and mRNA expression of the mature urothelium specific markers uroplakin-IA (UP-1A) and uroplakin-II (UP-II) were detected by immunofluorescence and quantitative real-time PCR, respectively. Array detection was used to screen 41 cytokines and receptors in the upper medium of urothelium, non-induced ASCs and urothelium-induced ASCs at three time points, early (12 hours), intermediate (7 days) and late (21 days).

Results

After induction for 7 days, the ASCs grown in both CM and transwell co-culture system expressed uroplakin-IA (13.54±2.00%; 17.28±1.84%) and uroplakin-II (19.49±1.73%; 13.98±1.47%). After induction for 21 days, ASCs grown in co-culture had significantly increased expression of uroplakin-IA (48.03±1.25%; 49.57±2.85%) and uroplakin-II (45.38±2.50%; 46.58±1.95%). In the upper medium of urothelium, 28 cytokines and 8 cytokine receptors had significantly higher expression than the counterpart of non-induced ASCs. After 7 days induction, the expression of 22 cytokines and 8 cytokine receptors was significantly elevated in the upper medium of induced ASCs compared to non-induced ASCs. At the early and intermediate time points, ASCs secreted high levels of relative cytokines and soluble receptors, but their expressions decreased significantly at the late time point.

Conclusion

The adipose-derived stem cells have the potential to be differentiated into urothelium-like cells in vitro by both CM and transwell co-culture system with mature urothelium. Numerous cytokines and receptors were involved in the differentiation process with dynamic temporal changes by both paracrine and autocrine signal regulation. Further studies should be carried out to determine the detailed mechanism of cytokines and receptors and to enhance the urothelium differentiation efficiency of ASCs.     

Regulation of uptake of inositol by glucose in cultured retinal pigment epithelial cells

Long term and acute effects of glucose on myo-inositol (MI) uptake were studied in primary cultures of bovine retinal pigment epithelial (RPE) cells. RPE cells were grown under low (5 mM) or high (20, 40, or 50 mM) glucose levels in the growth medium for up to 18 days. The concentrative capacity of confluent RPE cells to accululate [3H]MI (10 microM) was reduced up to 41% as the glucose concentration in the growth medium increased. When the growth medium glucose was switched from 5 to 40 mM, or vice versa, the capacity of cells to accumulate MI was reversed. Treatment of cells grown in 40 or 50 mM glucose with 0.1 mM Sorbinil (an aldose reductase inhibitor) minimally reversed the ability of cells to accumulate MI. RPE cells, grown in 5 mM glucose, were incubated with 10-60 mM D-glucose or its nonmetabolizable analogues (acute effect). Kinetics of MI uptake inhibition by alpha-methyl glucose according to Dixon plots were characteristic of competitive inhibition (Ki = 28 mM). MI uptake was strongly inhibited by phlorizin. The ability of RPE cells to bind 5 microM [3H]phlorizin also was reduced by increased glucose levels in the growth medium. These studies indicated that MI and glucose shared the same transporter system. Glucose in the incubation medium directly interfered with MI binding to the transporter. High glucose feeding of the cells also down-regulated the transporter density. The uptake and function of solutes such as MI in tissues that operate on the glucose carrier system may be severely impaired in diabetes.     

Chicken egg yolk-supplemented medium and the serum-free growth of normal mammalian cells

Summary Supplementation of tissue culture medium with chicken egg yolk can support the proliferation of low density bovine vascular and corneal endothelial cells and vascular smooth muscle cells maintained on basement lamina-coated dishes. The optimal growth-promoting effect was observed at concentrations of 7.5 to 10% egg yolk (vol/vol). The average doubling time of bovinn vascular endothelial cells during their logarithmic growth phase when exposed to egg yolk-supplemented medium was longer than that of their counterparts grown in serum-supplemented medium (21 versus 15 h, respectively). Cultures grown in egg yolk-supplemented medium on basement lamina-coated dishes could be serially passaged, but their in vitro life span (15 generations) was less than that of serum-grown cultures (50 generations). The egg white was devoid of any grwoth-promoting activity. This work was supported by Grants HL 20197 and HL 23678 from the National Institutes of Health, Bethesda, MD.     

Expansion of human embryonic stem cells in defined serum-free medium devoid of animal-derived products

Human embryonic stem cells (hESCs) can serve as an unlimited cell source for cellular transplantation and tissue engineering due to their prolonged proliferation capacity and their unique ability to differentiate into derivatives of all three-germ layers. In order to reliably and safely produce hESCs, use of reagents that are defined, qualified, and preferably derived from a non-animal source is desirable. Traditionally, mouse embryonic fibroblasts (MEFs) have been used as feeder cells to culture undifferentiated hESCs. We recently reported a scalable feeder-free culture system using medium conditioned by MEFs. The base and conditioned medium (CM) still contain unknown bovine and murine-derived components, respectively. In this study, we report the development of a hESC culture system that utilizes a commercially available serum-free medium (SFM) containing human sourced and recombinant proteins supplemented with recombinant growth factor(s) and does not require conditioning with feeder cells. In this system, which employs human laminin coated surface and high concentration of hbFGF, the hESCs maintained undifferentiated hESC morphology and had a twofold increase in expansion compared to hESCs grown in MEF-CM. The hESCs also expressed surface markers SSEA-4 and Tra-1-60 and maintained expression of hTERT, Oct4, and Cripto genes similar to cells cultured in MEF-CM. In addition, hESCs maintained in this culture system were able to differentiate in vitro and in vivo into cells of all three-germ layers. The cells maintained a normal karyotype after prolonged culture in SFM. In summary, this study demonstrates that the hESCs cultured in defined non-conditioned serum-free medium (NC-SFM) supplemented with growth factor(s) retain the characteristics and replicative potential of hESCs. The use of defined culture system with NC-SFM on human laminin simplifies scale-up and allows for reproducible generation of hESCs under defined and controlled conditions that would serve as a starting material for production of hESC derived cells for therapeutic use.     

Retraction of cultured endothelial cell monolayer by human breast cancer cells, MCF-7.

A human breast cancer cell line (MCF-7), when sealed on confluent bovine pulmonary aortic endothelial cell (CPAE) monolayers, induced morphological changes (retraction) in CPAE cells. The area of retraction depended on the incubation time and the number of MCF-7 cells, suggesting that MCF-7 cells had the capacity to retract CPAE cells. This capacity was reduced by 60% by pretreatment of MCF-7 cells with 17β-estradiol (E) and progesterone (Pg). The extent of retraction was not affected by the addition of various protease inhibitors. CPAE retraction was induced also by adding conditioned medium (CM) from the culture of MCF-7 cells. Considerably less activity was detected in the CM obtained from MCF-7 cells cultured in the presence of E and Pg. The retraction was reversed in 24 h by culturing the monolayer in fresh medium without CM and was not induced by trypsin treatment of the CM.     

Autoinduction activity of a conditioned medium obtained from high density cultures of the green alga <Emphasis Type="Italic">Scenedesmus subspicatus</Emphasis>

Culture filtrates (conditioned medium, CM) containing exudates obtained from cells of Scenedesmus subspicatus grown in batch culture were tested for their autoinduction activity. Undiluted CM completely inhibited the proliferation of cells due to depletion of nitrogen in this medium. When undiluted CM was supplemented with fresh bold basal medium (BBM) medium, enhancement of population growth in a dilution-dependent manner was observed. The most effective was 2-fold diluted CM (CM/2), whereas the growth activity of CM/20 decreased considerably. The proliferation of cells at a very low initial density (10 cells mL⁻¹) was induced by the addition of CM/2. Biovolume, dry matter production and oxygen evolution by cells grown in 2-, 5- and 10-fold diluted CM increased markedly in both a concentration- and time-dependent manner. Conditioned medium factor (CMF) was mainly a product of rapidly dividing cells. Preliminary characterisation revealed that CMF is heat-stable, resistant to very low pH, highly hydrophilic (poorly soluble in ethanol or diethyl ether) and diffuses through a 1 kDa dialysis membrane. CM can be stored for long periods due to the time-stable activity of CMF. Depending on the enzyme applied, proteolytic digestion completely (papain, bromelain) or partially (subtilisin) abolished the activity of CM. This effect of CM was enhanced by digestion with trypsin. We suggest that CMF may be a low-molecular-weight peptide(s) or glycopeptide(s).     

Expansion and long-term culture of differentiated normal rat urothelial cells in vitro

The objective of this study is to establish a reliable cell culture system for the long-term culture of rat urothelial cells (RUC), in which the cells multiply in vitro and form stratified polarized urothelium. Urothelial cells were harvested by the enzymatic digestion of the urothelium exposed by the eversion of resected rat bladders. Primary cultures were initiated in keratinocyte serum-free medium (KSFM) for selective proliferation of urothelial cells. Subsequently, the cells were propagated in a mixture of conditioned medium (CM) derived from Swiss 3T3 cell culture supernatant and KSFM (CM-KSFM). Mean population doubling time was 13.8 +/- 0.9 h. RUC were successfully maintained for 18 passages over a period of 4-5 mo. Detailed investigations of culture conditions showed that CM-KSFM yielded a differentiated multilayer structure. The stratified urothelial sheets measuring 4 x 6 cm2 could be formed and then detached using dispase. Cytokeratin pattern in both the cultured urothelial monolayer and engineered stratified layers was similar to those seen in vivo, as assessed with monoclonal antibody against cytokeratin 17. Ultrastructural morphology showed microvilli, basal cell layer, and desmosomes between adjacent cells in the stratified urothelium.     

RPE-secreted factors: influence differentiation in human retinal cell line in dose- and density-dependent manner

Retinal pigment epithelial (RPE) cells play an important role in normal functioning of retina and photoreceptors, and some retinal degenerations arise due to malfunctioning RPE. Retinal pigment epithelium transplantation is being explored as a strategy to rescue degenerating photoreceptors in diseases such as age-related macular degeneration (AMD) and retinitis pigmentosa (RP). Additionally, RPE-secreted factors could rescue degenerating photoreceptors by prolonging survival or by their ability to differentiate and give rise to photoreceptors by transdifferentiation. In this study, we have explored what role cell density could play in differentiation induced in a human retinal progenitor cell line, in response to RPE-secreted growth factors. Retinal progenitors plated at low (1 × 10⁴ cells/cm²), medium (2–4 × 10⁴ cells/cm²), and high (1 × 10⁵ cells/cm²) cell density were exposed to various dilutions of RPE-conditioned medium (secreted factors) under conditions of defined medium culture. Progenitor cell differentiation was monitored phenotypically (morphological, biochemical analysis, and immunophenotyping, and western blot analysis were performed). Our data show that differentiation in response to RPE-secreted factors is modulated by cell density and dilutions of conditioned medium. We conclude that before embarking on RPE transplantation as a modality for treatment of RP and AMD, one will have to determine the role that cell density and inhibitory and stimulatory neurotrophins secreted by RPE could play in the efficacy of survival of transplants. We report that RPE-conditioned medium enhances neuronal phenotype (photoreceptors, bipolars) at the lowest cell density in the absence of cell–cell contact. Eighty percent to 90% of progenitor cells differentiate into photoreceptors and bipolars at 50% concentration of conditioned medium, while exposure to 100% conditioned medium might increase multipolar neurons (ganglionic and amacrine phenotypes) to a small degree. However, no clear-cut pattern of differentiation in response to RPE-secreted factors is noted at higher cell densities.