Recovery of human erythrocytes from the echinocyte shape induced by added choline-phospholipids is dependent on the acyl chain length

Addition of an amphiphilic lipid, such as phosphatidylcholine (PC) species with two identical saturated chains or lysophosphatidylcholine (lysoPC) species with one saturated acyl chain of various lengths, into a suspension of intact human erythrocytes resulted in lipid incorporation into the erythrocytes membrane to produce echinocytes (crenated cells). The altered shape gradually reverted on incubation at 37 degrees C until the cells reassumed their normal disc shape. The rate of such recovery of shape increased with decreasing acyl chain length for both PC with C8-C12 acyl chains and lysoPC with a C14-C18 acyl chain, and was strongly influenced by incubation temperature. The identical rate of recovery of shape was observed for cells with normal, decreased or increased ATP content, implying that the metabolic state of the cell had no influence on the recovery process. Recovery of shape is therefore considered to be caused by translocation of the incorporated lipid molecules from the outer to the inner leaflet of the membrane lipid bilayer and the rate of recovery increases with decreasing hydrophobicity of the lipid.     

Shape change of human erythrocytes induced by phosphatidylcholine and lysophosphatidylcholine species with various acyl chain lengths

Intact human erythrocytes were treated, under non-haemolytic conditions at 37 degrees C, with synthetic phosphatidylcholine which has homologous, saturated acyl chains of 8-18 even-numbered carbon atoms (C8-C18-PC) or with lysophosphatidylcholine which has a saturated acyl chain of 8-18 carbon atoms (C8-C18-lysoPC). The C8-C14-PC and C12-C18-lysoPC species were rapidly incorporated into the erythrocytes and induced a shape change of the crenation (echinocyte formation) type. The site of the incorporation was found to be most probably on the outer leaflet of the membrane lipid bilayer. The extent of the shape change was dependent on the amount of each lipid incorporated. When the same amount of a PC or lysoPC species was incorporated into the membrane, about the same extent of crenation was induced, independent of acyl chain length. However, C16-PC, C18-PC, C8-lysoPC and C10-lysoPC, which were not incorporated into the erythrocytes, did not induce any shape change. It is therefore suggested that the hydrophobic moiety of these amphiphilic lipids may greatly contribute to their transfer from the outer medium into the erythrocyte membrane, but do not influence so much the perturbation of the membrane lipid bilayer which may be responsible for induction of the shape change.     

Stable expression of recombinant human coagulation factor XIII in protein-free suspension culture of Chinese hamster ovary cells

The recombinant a and bsubunits for human coagulation factor XIII were transfected into Chinese hamster ovary (CHO) cells. CHO cells were amplified and selected with methotrexate in adherent cultures containing serum, and CHO 1-62 cells were later selected in protein-free medium. To develop a recombinant factor XIII production process in a suspension culture, we have investigated the growth characteristics of CHO cells and the maintenance of factor XIII expression in the culture medium. Suspension adaptation of CHO cells was performed in protein-free medium, GC-CHO-PI, by two methods, such as serum weaning and direct switching from serum containing media to protein-free media. Although the growth of CHO cells in suspension culture was affected initially by serum depletion, cell specific productivity of factor XIII showed only minor changes by the direct switching to protein-free medium during a suspension culture. As for the long-term stability of factor XIII, CHO 1-62 cells showed a stable expression of factor XIII in protein-free condition for 1000 h. These results indicate that the CHO 1-62cells can be adapted to express recombinant human factor XIII in a stable maimer in suspension culture using a protein-free medium. Our results demonstrate that enhanced cell growth in a continuous manner is achievable for factor XIII production in a protein-free medium when a perfusion bioreactor culture system with a spin filter is employed. This revised version was published online in August 2006 with corrections to the Cover Date.     

Preparation and use of lipid microemulsions as nutritional supplements for culturing mammalian cells

Summary Cells grown in vitro generally have a requirement for an exogenous source of lipid. This requirement is often met by the addition of serum lipoproteins, or lipids complexed to albumin. To overcome the disadvantages of using lipoproteins or albumin for culturing cells in serum-free media, a method has been devised to provide necessary lipids. This report describes the preparation and use of protein-free lipid microemulsions suitable for use in tissue culture. The microemulsions are prepared from purified, synthetic lipids to produce a homogeneous, water-soluble, stable suspension that can be sterile-filtered. The best results were obtained using a sonicate of cholesterol oleate, dipalmitoyl phosphatidylcholine, dilinoleoyl phosphatidylcholine, dimyristoyl phosphatidylglycerol, cholesterol, sphingomyelin, alpha-tocopherol, alpha-tocopherol acetate, and Tween 80. Using Chinese hamster ovary (CHO) cells in a protein-free medium, cell growth was 222% vs. control (no microemulsion) in a 5-d assay. Incluction of the microemulsion to protein-free media also increased the growth rate of murine hybridomas, H9 transformed T lymphoblasts, and human skin keratinocytes.     

通过共表达转铁蛋白和细胞周期蛋白D1改造CHO细胞株

目的:对现有的CHO-DG44细胞株进行改造,得到在无血清培养基中更具生长优势的CHO宿主细胞株。方法:分别克隆转铁蛋白和细胞周期蛋白D1基因,构建共表达2种基因的pIRES质粒,转染CHO-DG44细胞株,筛选G418抗性克隆。结果与结论:得到3株G418阳性克隆株,其中转铁蛋白和细胞周期蛋白D1表达水平最高的S6与CHO-DG44相比,在无血清培养基中生长更快、密度更高。     

Characterization of the interactions between lysophosphatides, Triton X-100, and sarcoplasmic reticulum.

The interaction of lysophosphatidylcholines and lysophosphatidylethanolamines with lobster abdominal muscle sarcoplasmic reticulum was studied. Only lysophosphatidylcholines with 16 and 18 carbon acyl chains were effective solubilizing agents. The rate of membrane solubilization was most rapid with the palmitoyl and oleoyl derivatives. All lysophosphatides partially inhibited calcium-dependent ATPase activity between 0.0 and 2.0 μmol of lysophosphatide mg^?1 of membrane protein. Lysophosphatides that were active in solubilizing membranes exhibited a reactivating effect on ATPase activity between 2.0 and 6.0 μmol of lysophosphatide mg^?1 of membrane protein. Arrhenius plots of temperature-dependent ATPase activity showed high activation energies and loss of discontinuities in Arrhenius plots when inhibiting concentrations of the lysophosphatides were present. These results suggest that the inhibiting effect of lysophosphatides on membrane enzyme activity is due to intrusion of the lysophosphatide into the membrane, which results in a less fluid lipid environment around the enzyme. Subsequent membrane solubilization at higher lysophosphatide concentrations may release the enzyme from the inhibiting effects of the lysophosphatide by increasing lipid fluidity neighboring the enzyme. The effects of lysophosphatides on a membrane enzyme system were also examined in the presence of 10 mm Triton X-100. Under these conditions, little effect on membrane enzyme activity was generated by increasing concentrations of the lysophosphatidylcholines (lauryl, palmitoyl, and steroyl), while the unsaturated lysophosphatidylcholine and the lysophosphatidylethanolamines caused a two- to threefold increase in enzyme activity. Temperature-dependent enzyme activity studies showed that discontinuities in the Arrhenius plots of enzyme activity occurred at varying temperatures, depending on the lysophosphatide used. Lowest transition temperatures occurred for lysophosphatidylcholine (oleoyl) and the lysophosphatidylethanolamines. These results suggest that, in the presence of 10 mm Triton X-100, lipid exchange occurs around the sarcoplasmic reticulum ATPase enzyme and the fluidity of this lipid-protein complex is increased by lysophosphatides with unsaturated acyl chains or ethanolamine head groups.     

Growth of NS0 cells in protein-free, chemically defined medium

Many hybridoma and recombinant myeloma cell lines have been successfully adapted to growth in protein-free media. Compared with serum-supplemented media, use of protein-free media promotes superior cell growth and protein expression and facilitates downstream purification of the expressed product. Owing to its sterol auxotrophy, the NS0 myeloma is normally grown in either a serum-supplemented medium or a serum-free medium supplemented with an animal-derived lipoprotein. CD Hybridoma Medium (a protein-free, chemically defined formulation) grows many cell lines that do not exhibit lipid dependence, but this medium does not support growth of NS0 cells without further lipid supplementation. We tested several commercially available lipid supplements in CD Hybridoma Medium, including bovine EX-CYTE VLE. None of the tested supplements supported long-term growth of NS0 cells in CD Hybridoma Medium. Sustained long-term growth of NS0 cells was achieved in CD Hybridoma Medium supplemented with various animal- or plant-derived lipids complexed with cyclodextrin. NS0 cells adapted to CD Hybridoma Medium supplemented with cyclodextrin-lipid complex reached peak cell densities that were more than double those observed in serum-supplemented medium and were cultured for more than 15 passages. These cultures were also successfully cryopreserved and recovered in this defined medium. Through the use of cyclodextrin-based additives to CD Hybridoma Medium, it is possible to solubilize significant quantities of sterols and other lipids and to maintain a protein-free, chemically defined cultivation environment for NS0 cells. The culture system can be kept entirely free of animal-derived components if the supplement is made with plant-derived or synthetic lipids.     

Fortification of a protein-free cell culture medium with plant peptones improves cultivation and productivity of an interferon-γ-producing CHO cell line

A strong tendency is currently emerging to remove not only serum but also any product of animal origin from animal cell culture media during production of recombinant proteins. This should facilitate downstream processing and improve biosafety. One way consists in the fortification of protein-free nutritive media with plant protein hydrolysates. To investigate the effects of plant peptones on mammalian cell cultivation and productivity, CHO 320 cells, a clone of CHO K1 cells genetically modified to secrete human interferon-gamma (IFN-gamma), were first adapted to cultivation in suspension in a protein-free medium. Both cell growth and IFN-gamma secretion were found to be equivalent to those reached in serum-containing medium. Eight plant peptones, selected on the basis of their content in free amino acids and oligopeptides, as well as molecular weight distribution of oligopeptides, were tested for their ability to improve culture parameters. These were improved in the presence of three peptones, all having an important fraction of oligopeptides ranging from 1 to 10 kDa and a small proportion of peptides higher than 10 kDa. These peptones do not seem to add significantly to the nutritive potential to basal protein-free nutritive medium. Nevertheless, supplementation of an oligopeptide-enriched wheat peptone improved cell growth by up to 30% and IFN-gamma production by up to 60% in shake-flask experiments. These results suggest that the use of plant peptones with potential growth factor-like or antiapoptotic bioactivities could improve mammalian cell cultivation in protein-free media while increasing the product biosafety.     

The role of p21cip1 in adaptation of CHO cells to suspension and protein-free culture

The up-regulation of cyclin-dependent kinase inhibitor p21 has been shown to enhance productivity of monoclonal antibodies and has been linked to various regulatory processes. To identify the potential role of p21 in adaptation to suspension and protein-free cultures, we studied the survival and growth of anchorage- and serum-dependent CHO cell lines that differed only in the period of p21-induced arrest. p21 overexpression led to rapid adaptation of cells to suspension and protein-free cultures. The period taken to achieve adaptation was correlated with the time the cells were arrested after transfer from the monolayer and serum-fed culture. Interestingly, cell aggregation associated with protein-free suspension culture was reduced in p21 culture in response to the loss of cellular adherence. The processes of adaptation to suspension and arrest did not decrease monoclonal antibody productivity. In contrast, following adaptation to protein-free growth media, an overall increase in specific productivity was observed. The ability of cells to survive in protein-free suspension cultures was due to the requirement of G1 cells to growth factors and to their relatively high resistance to the hydrodynamic forces. This improved process has the advantage of reducing the duration of critical path activity for developing CHO commercial cell lines from 72 to 36 days.     

Trans-bilayer movement of added phosphatidylcholine and lysophosphatidylcholine species with various acyl chain lengths in plasma membrane of intact human erythrocytes

14C-Labeled phosphatidylcholine (PC) and lysophosphatidylcholine (lysoPC) species with two homologous saturated acyl chains and of a saturated acyl chain of various lengths, respectively, were each incorporated into the outer leaflet of the membrane lipid bilayer of intact human erythrocytes, and the transbilayer movement into the inner leaflet during incubation at 37 degrees C of the lipid-loaded erythrocytes was followed. The labeled PC and lysoPC molecules present in the outer leaflet were extracted with egg-yolk PC liposome suspension and BSA solution, respectively, and the amount which moved into the inner leaflet during the incubation was measured by determining the residual amount of the labeled lipid in the membrane. Translocation of lysoPC molecules was also measured by assaying the decrease in the amount of the added labeled lysoPC in the membrane during the incubation on the basis of the previously reported fact that lysoPC molecules are all converted metabolically to PC or glycerylphosphorylcholine plus fatty acid as soon as they are translocated from the outer to the inner leaflet. Every lipid tested showed significant transbilayer movement during the course of the incubation for up to 10 h. With the C8, C10, and C12 species of PC the rate of the transbilayer movement increases with decreasing acyl chain length. The same is true with the C14, C16, and C18-lysoPC species.     

Low-temperature pausing of cultivated mammalian cells

There are currently two methods for maintaining cultured mammalian cells, continuous passage at 37 degrees C and freezing in small batches. We investigated a third approach, the "pausing" of cells for days or weeks at temperatures below 37 degrees C in a variety of cultivation vessels. High cell viability and exponential growth were observed after pausing a recombinant Chinese hamster ovary cell line (CHO-Clone 161) in a temperature range of 6-24 degrees C in microcentrifuge tubes for up to 3 weeks. After pausing in T-flasks at 4 degrees C for 9 days, adherent cultures of CHO-DG44 and human embryonic kidney (HEK293 EBNA) cells resumed exponential growth when incubated at 37 degrees C. Adherent cultures of CHO-DG44 cells paused for 2 days at 4 degrees C in T-flasks and suspension cultures of HEK293 EBNA cells paused for 3 days at either 4 degrees C or 24 degrees C in spinner flasks were efficiently transfected by the calcium phosphate-DNA coprecipitation method, yielding reporter protein levels comparable to those from nonpaused cultures. Finally, cultures of a recombinant CHO cell line (CHO-YIgG3) paused for 3 days at 4 degrees C, 12 degrees C, or 24 degrees C in bioreactors achieved the same cell mass and recombinant protein productivity levels as nonpaused cultures. The success of this approach to cell storage with rodent and human cell lines points to a general biological phenomenon which may have a wide range of applications for cultivated mammalian cells.     

The elongation of exogenous fatty acids and the control of phospholipid acyl chain length in Micrococcus cryophilus.

The synthesis of fatty acids de novo from acetate and the elongation of exogenous satuated fatty acids (C12-C18) by the psychrophilic bacterium Micrococcus cryophilus (A.T.C.C. 15174) grown at 1 or 20 degrees C was investigated. M. cryophilus normally contains only C16 and C18 acyl chains in its phospholipids, and the C18/C16 ratio is altered by changes in growth temperature. The bacterium was shown to regulate strictly its phospholipid acyl chain length and to be capable of directly elongating myristate and palmitate, and possibly laurate, to a mixture of C16 and C18 acyl chains. Retroconversion of stearate into palmitate also occurred. Fatty acid elongation could be distinguished from fatty acid synthesis de novo by the greater sensitivity of fatty acid elongation to inhibition by NaAsO2 under conditions when the supply of ATP and reduced nicotinamide nucleotides was not limiting. It is suggested that phospholipid acyl chain length may be controlled by a membrane-bound elongase enzyme, which interconverts C16 and C18 fatty acids via a C14 intermediate; the activity of the enzyme could be regulated by membrane lipid fluidity.     

Lipid acyl chain-dependent effects of sterols in Acholeplasma laidlawii membranes.

Acholeplasma laidlawii was grown with different fatty acids for membrane lipid synthesis (saturated straight- and branched-chain acids and mono- and di-unsaturated acids). The ability of 12 different sterols to affect cell growth, lipid head group composition, the order parameter of the acyl chains, and the phase equilibria of in vivo lipid mixtures was studied. The following two effects were observed with respect to cell growth: with a given acyl chain composition of the membrane lipids, growth was stimulated, unaffected, reduced, or completely inhibited (lysis), depending on the sterol structure; and the effect of a certain sterol depended on the acyl chain composition (most striking for epicoprostanol, cholest-4-en-3-one, and cholest-5-en-3-one, which stimulated growth with saturated acyl chains but caused lysis with unsaturated chains). The three lytic sterols were the only sterols that caused a marked decrease in the ratio between the major lipids monoglucosyldiglyceride and diglucosyldiglyceride and hence a decrease in bilayer stability when the membranes were enriched in saturated (palmitoyl) chains. With these chains correlations were found for several sterols between the glucolipid ratio and the order parameter of the acyl chains, as well as the lamellar-reversed hexagonal phase transition, in model systems. A shaft experiment revealed a marked decrease in the ratio of monoglucosyldiglyceride to diglucosyldiglyceride with the lytic sterols in unsaturated (oleoyl) membranes. The two cholestenes induced nonlamellar phases in in vivo mixtures of oleoyl A. laidlawii lipids. The order parameters of the oleoyl chains were almost unaffected by the sterols. Generally, the observed effects cannot be explained by an influence of the sterols on the gel-to-liquid crystalline phase transition.     

Phospholipid dependence and liposome reconstitution of purified hyaluronan synthase

Previous radiation inactivation and enzyme characterization studies demonstrated that the Streptococcus equisimilis hyaluronan synthase (seHAS) is phospholipid-dependent and that cardiolipin (CL) is the best phospholipid for enzyme activation. Here we investigated the ability of seHAS, purified in the absence of added lipid, to be activated by synthetic phosphatidic acid (PA), phosphatidylserine, or CL lipids containing fatty acyl chains of different length or different numbers of double bonds. The most effective lipid was tetraoleoyl CL (TO-CL), whereas tetramyristoyl CL (TM-CL) was ineffective. None of the phosphatidylserine species tested gave significant activation. PAs containing C10 to C18 saturated acyl chains were not effective activators, and neither were oleoyl lyso PA, dilinoleoyl PA, or PA containing one oleoyl chain and either a palmitoyl or stearoyl chain. In contrast, dioleoyl PA stimulated seHAS approximately 10-fold, to approximately 20% of the activity observed with TO-CL. The tested acidic lipids such as PA and CL activated the enzyme most efficiently if they contained only oleic acid. Mixing experiments showed that the enzyme interacts preferentially with TO-CL in the presence of TM-CL. Similarly, seHAS incorporated into phosphotidylcholine-based liposomes showed increasing activity with increasing TO-CL, but not TM-CL, content. Inactivation of membrane-bound seHAS by solubilization with Nonidet P-40 was prevented by TO-CL, but not TM-CL. The pH dependence of seHAS in the presence of synthetic or naturally occurring CLs showed the same pattern of lipid preference between pH 6 and 10.5. Unexpectedly, HAS showed lipid-independent activity at pH 11.5. The results suggest that Class I HAS enzymes are lipid-dependent and that assembly of active seHAS-lipid complexes has high specificity for the phospholipid head group and the nature of the fatty acyl chains.     

Tetrahydrofolate increases suspension growth of dihydrofolate reductase‐deficient chinese hamster ovary DG44 cells in chemically defined media

Adaptation of dihydrofolate reductase (DHFR)‐deficient Chinese hamster ovary (CHO) DG44 cells to chemically defined suspension culture conditions is a time‐consuming and labor‐intensive process because nonadapted DHFR‐deficient CHO DG44 cells normally show poor growth in chemically defined medium (CDM). We examined the effects of folate derivatives, ribonucleotides, and nucleobases on the growth of suspension‐adapted DHFR‐deficient CHO DG44 cells in CDM. Among the tested additives, tetrahydrofolate (THF) was identified as an effective component for increasing cell growth. THF supplementation in the range of 0.2–359 μM enhanced cell growth in in‐house CDM. Addition of 3.6 μM THF to in‐house CDM resulted in a more than 2.5‐fold increase in maximum viable cell density. Moreover, supplementation of six different commercial CDMs with 3.6 μM THF yielded up to 2.9‐fold enhancement of maximum viable cell density. An anchorage‐ and serum‐dependent DHFR‐deficient CHO DG44 cell line was adapted within two consecutive passages to suspension growth in in‐house CDM supplemented with 3.6 μM THF. These data indicate that supplementation of chemically defined cell culture media with greater than 0.2 μM THF can help achieve a high density of suspension‐adapted DHFR‐deficient CHO DG44 cells and may facilitate rapid adaptation of nonadapted DHFR‐deficient CHO DG44 cells to suspension culture. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:1539–1546, 2016     

Design of serum-free medium for suspension culture of CHO cells on the basis of general commercial media

The design of serum-free media for suspension culture of genetically engineered Chinese hamster ovary (CHO) cells using general commercial media as a basis was investigated. Subcultivation using a commercial serum-free medium containing insulin-like growth factor (IGF)-1 with or without FCS necessitated additives other than IGF-1 to compensate for the lack of FCS and improve cell growth. Suspension culture with media containing several combinations of growth factors suggested the effectiveness of addition of both IGF-1 and the lipid signaling molecule lysophosphatidic acid (LPA) for promoting cell growth. Subcultivation of CHO cells in suspension culture using the commercial serum-free medium EX-CELL™302, which contained an IGF-1 analog, supplemented with LPA resulted in gradually increasing specific growth rate comparable to the serum-containing medium and in almost the same high antibody production regardless of the number of generations. The culture with EX-CELL™302 supplemented with LPA in a jar fermentor with pH control at 6.9 showed an apparently higher cell growth rate than the cultures without pH control and with pH control at 6.8. The cell growth in the medium supplemented with aurintricarboxylic acid (ATA), which was much cheaper than IGF-1, in combination with LPA was synergistically promoted similarly to that in the medium supplemented with IGF-1 and LPA. In conclusion, the serum-free medium designed on the basis of general commercial media could support the growth of CHO cells and antibody production comparable to serum-containing medium in suspension culture. Moreover, the possibility of cost reduction by the substitution of IGF-1 with ATA was also shown.     

Comparative Assessment on the Expression Level of Recombinant Human Follicle-Stimulating Hormone (FSH) in Serum-Containing Versus Protein-Free Culture Media

Production of recombinant pharmaceutical proteins has made a great contribution to modern biotechnology. At present, quick advances in protein expression lead to the enhancement of product quantity and quality as well as reduction in timescale processing. In the current study, we assessed the expression level of recombinant human follicle-stimulating hormone (rhFSH) in adherent and suspension Chinese hamster ovary (CHO) cell lines by cultivation in serum-containing and chemically defined, protein-free media. The expression cassette entailing FSH subunits was transfected to CHO/dhfr- and CHO DG44 cell lines, and gene amplification was achieved using dihydrofolate reductase (DHFR)/methotrexate (MTX) system. Afterward, the expression level of rhFSH was studied using real-time PCR, Western blotting and ELISA. Our achievements revealed that stepwise increase in MTX [up to 2000 nano-molar (nM)] leads to boost the expression level of rhFSH mRNA in both cell lines, although DG44 have better results, as mRNA expression level reached 124.8- and 168.3-fold in alpha and beta subunits, respectively. DG44 cells have also the best protein production in 2000 nM MTX, which reached 1.7-fold in comparison with that of the mock group. According to the above results and many advantages of protein-free media, DG44 is preferable cell line for future steps.     

Impact of coexpression and coamplification of sICAM and antiapoptosis determinants bcl-2/bcl-x(L) on productivity,cell survival,and mitochondria number in CHO-DG44 grown in suspension and serum-free media

We have engineered dihydrofolate reductase-negative (dhfr-/-) Chinese hamster ovary (CHO) DG44 cells adapted for growth in serum-free suspension cultures for simultaneous expression of the common cold therapeutic, the soluble intercellular adhesion molecule 1 (sICAM), and the antiapoptosis determinants bcl-2 or bcl-x(L). Detailed analyses of titer and antiapoptosis characteristics of these production cell lines included an independent (sICAM; bcl-2/bcl-x(L)) as well as a cocistronic (sICAM-(bcl-2/bcl-x(L))) expression set-up in which translation-initiation of the survival cistron is driven by an internal ribosome entry site (IRES) of the encephalomyocarditis virus (EMCV). In transient transfections or stable mixed populations and in comparison to isogenic sICAM-only control vectors, both bcl-x(L)-encoding configurations achieved higher sICAM yields while bcl-2 over-expression resulted in decreased product levels. Overall, the death-protective impact of bcl-2 and bcl-x(L) in engineered CHO-DG44 was not significant under typical batch-mode operation, an observation that was confirmed by clonal analysis. bcl-2 and bcl-x(L) displayed their antiapoptosis potential only following dhfr-based amplification in sICAM-producing CHO-DG44 cell lines. In all cases, bcl-x(L) outperformed bcl-2 in its cell death-protective capacity. Amplification-dependent high-level expression of mitochondria-localized bcl-2 family members required for successful antiapoptosis engineering may be essential to compensate for increased mitochondria numbers found to be associated with production cell lines grown in serum-free medium.     

Stimulation of (Ca2+ + Mg2+)-ATPase activity in human erythrocyte membranes by synthetic lysophosphatidic acids and lysophosphatidylcholines. Effects of chain length and degree of unsaturation of the fatty acid groups

Synthetic lysophosphatidic acids and lysophosphatidylcholines were examined for their effects on the (Ca2+ + Mg2+)-ATPase of human erythrocyte membranes. Addition of these compounds to erythrocyte ghosts caused significant changes in ATPase activity. The degree of unsaturation and the length of the sn-1 long chain hydrocarbon moiety were both contributing factors. All lysophosphatidic acids tested stimulated (Ca2+ + Mg2+)-ATPase activity. Of the species having a saturated acyl group, the most active was the myristoyl derivative. Linoleoyllysophosphatidic acid was the most potent of the unsaturated species. Saturated lysophosphatidylcholines with a short chain fatty acyl group (C10 to C14) exhibited only a moderate stimulatory activity, whereas the longer chain homologues, i.e., C16 and C18 were inhibitory at high concentrations. On the other hand, unsaturated lysophosphatidylcholines had stimulatory activities comparable to the unsaturated lysophosphatidic acids. These results suggest that the acidic moiety of lysophosphatidic acid is not an important structural determinant for expressing ATPase stimulatory activity in ghosts. Rather the nature of the hydrocarbon chain as well as the lyso structure of these compounds appear most critical under these conditions. The stimulatory effects of lysophosphatidic acids or lysophosphatidylcholines were additive to that induced with calmodulin, suggesting that these lysophospholipids affect the (Ca2+ + Mg2+)-ATPase by a mechanism which is different from that seen with calmodulin.     

Serum- and protein-free media formulations for the Chinese hamster ovary cell line DUKXB11

The production of therapeutic proteins in mammalian cell lines is of outstanding importance. The maintenance of most mammalian cell lines in culture requires the addition of serum to the culture medium. The elimination of serum from mammalian cell culture is desirable since serum is expensive and a source of contaminants, e.g. viruses, mycoplasma or prions. Here we describe the composition of serum- and protein-free media for the Chinese hamster ovary (CHO) cell line DUKXB11. The serum-free formulation supports excellent growth of CHO DUKXB11 cells at low (23cells/cm2) and high (2 x 10(4) cells/cm2) seeding densities characterized by a generation time of 10-12h, and, after addition of 0.2% pluronic F-68, the growth of a recombinant suspension cell line derived from DUKXB11. In addition, this formulation also allowed us to adapt recombinant cell lines expressing various amounts of human antithrombin ATIII (ATIII) to serum-free conditions. Secretion of ATIII was readily observed in the serum-free medium. Minor changes to the serum-free formulation resulted in a protein free formulation that supported growth of CHO DUKXB11 cells, growth of recombinant CHO cells expressing ATIII, and production of ATIII.