Nonsenecent serum-free mouse proastroblasts : extended culture, growth responses in vitro, and application to the culture of human embryonic astrocytes

Loo, Deryk Thomas

19 July 1991

Mouse embryo cells cultured in vitro in serum-supplemented media undergo growth crisis, resulting in the loss of genomically normal cells prior to the appearance of established, aneuploid cell lines. I used the technique of serum-free cell culture to develop a serum-free mouse embryo (SFME) cell line in which serum was replaced by a set of defined supplements. SFME cells, cultured in a nutrient medium supplemented with insulin, transferrin, epidermal growth factor (EGF), high-density lipoprotein (HDL), and fibronectin, have maintained a diploid karyotype with no detectable chromosomal abnormalities for more than 200 generations. The cells did not undergo growth crisis and remain in culture today. SFME cells were dependent on EGF for survival and were reversibly growth inhibited by serum or platelet-free plasma. Treatment of SFME cells with serum or transforming growth factor beta led to the appearance of glial fibrillary acid protein (GFAP), a specific marker for astrocytes, identifying SFME cells as proastroblasts. Following the derivation of SFME cells my research focussed on (1) defining more precisely the growth response of SFME cells to medium supplements, (2) investigating the relationship between the nonsenescent nature of SFME cells and their responses to serum and EG1., and (3) applying the serum-free cell culture methods to the multipassage culture of human embryonic astrocytes. SFME cells in serum-containing medium arrested in the G1 phase of the cell cycle with greatly reduced DNA replication activity. A portion of the inhibitory activity of serum was extracted by charcoal, a procedure that removed steroid and thyroid hormones. However, the effect of serum on untransformed SFME cells could not be prevented by addition of antiglucocorticoid, and ras-transformed clones of SFME cells, which are not growth inhibited by serum, retained inhibitory responses to glucocorticoid and thyroid hormone T3. These results suggest that glucocorticoid or thyroid hormones may contribute to the inhibitory activity of serum on SFME cells, but additional factors are involved. SFME cell death resulting from EGF deprivation exhibited characteristics associated with apoptosis or programmed cell death. Ultrastructural analysis showed cells became small and vacuolated, with pyknotic nuclei. The cultures contained almost exclusively G1- phase cells. Chromatin exhibited a pattern of degradation into oligonucleosome-length fragments generating a regularly spaced ladder. I applied the serum-free approach used to derive SFME cells to the multipassage culture of human embryonic astrocytes. Cells were cultured in nutrient medium supplemented with insulin, transferrin, EGF, HDL, fibronectin, basic fibroblast growth factor and heparin. Cultures were maintained for a maximum of 70 population doublings before proliferation ceased. The cells synthesized GFAP. / Graduation date: 1992

Cell culture

Serum-free culture media

Mice

Astrocytes

The characterization of the induction of lipocortin I by administration of dexamethasone and thyroid hormone in a thymic epithelial cell lne

Riley, Henry Drinker

January 1990

Thesis (Ph. D.)--University of Hawaii at Manoa, 1990. / Includes bibliographical references (leaves 68-76) / Microfiche. / xi, 76 leaves, bound ill. 29 cm

Lipocortins

Dexamethasone -- Physiological effect

Epithelial cells

Serum-free culture media

Purification and identification of a 100 kDa protein, which is tyrosine-phosphorylated by EGF stimulation in SFME cell

Murayama, Kaoru

01 May 1997

Serum-free mouse embryo (SFME) cells, which were derived from 16-day-old Balb/c mouse embryo brain, grow in absence of serum without losing genomic normality or proliferative potential, and require epidermal growth factor (EGF) for normal growth. EGF is a well studied mitogen that binds to a specific receptor on the cell surface membrane to activate the proliferative signal transduction pathways. The activated receptor is a tyrosine specific protein kinase, and tyrosine phosphorylation is one of the important mediators of EGF receptor (EGFR) signal transduction. Using anti-phosphotyrosine Western immunoblotting, we detected a 100 kDa protein which is tyrosine-phosphorylated in response to EGF in SFME cells. This protein is constitutively phosphorylated in an SFME cell line which expresses the neu oncogene. The neu oncogene encodes an analog protein of EGFR which does not require a ligand for activation, and neu-transformed SFME cells are tumorgenic in mice.This protein, p100 was not a fragment of EGFR, and was not antigenically related to other signal transduction phosphoproteins of about 100 kDa. We attempted to purify p100 from neu SFME tumor cells for amino acid sequencing. / Graduation date: 1997

Protein-tyrosine kinase -- Purification

Serum-free culture media

Epidermal growth factor

Studies on the growth inhibition and differentiation of serum-free mouse embryo (SFME) cells

Varga Weisz, Patrick D.

05 June 1992

Serum-free mouse embryo (SFME) cells are derived in medium in which serum is replaced with growth factors and other supplements. They display unusual properties. They do not lose proliferative potential or show gross chromosomal aberration upon extended culture, they depend on epidermal growth factor (EGF) for survival, and are reversibly growth inhibited by plasma and serum. In the presence of transforming growth factor beta (TGF-β) SFME cells express the astrocyte marker, glial fibrillary acidic protein (GFAP). The growth inhibitory activity of human plasma on serum-free mouse embryo cells was investigated. Human plasma did not inhibit SFME cells transformed with the human Ha-ras oncogene. The activity was present in delipidated plasma and was not dialyzable against 1 M acetic acid. The activity could be precipitated by methanol, bound to concanavalin Aagarose and was retarded by Sephadex G-50 in 200 mM acetic acid. A fifty to hundred fold purification was achieved, although the differential inhibition of untransformed versus transformed cells was lost in the course of the purification. Using the technique of differential screening of a cDNA library a calf serum- and TGF -β-regulated mRNA species was identified in SFME cells. This mRNA was approximately 8.5 kilobases in size and brain-specific. Picomolar quantities of TGF-β caused an increase of this message in SFME cells within four hours. This increase was reversed when TGF-β was removed from the culture medium. / Graduation date: 1993

Growth factors

Cell differentiation

Transforming growth factors-beta

Serum-free culture media

Cultivo de célula BHK-21 C13 em meio de cultura livre de soro fetal bovino adaptada para crescimento em suspensão / Cell bhk-21 c13 culture in the means of free culture of fetal bovine serum adapted for suspension growth

Leme, Jaci

14 December 2016

Células de mamíferos são os hospedeiros mais frequentemente utilizados para a fabricação de proteínas biofarmacêuticas e para a produção de vacinas virais, A qualidade é um elemento-chave para o estabelecimento de um processo de bioconversão eficiente. No presente trabalho utilizamos a linhagem de células BHK- 21C13(Baby Hamster Kidney) adaptadas para cultivo em suspensão. O uso de Soro Fetal Bovino (SFB) é tradicionalmente utilizado, sendo considerado um suplemento universal, pois permite o crescimento em várias linhagens de células de mamíferos; porém, uso de SFB apresenta risco de infecção por prions, variabilidade entre lotes e aumento no custo em etapa de purificação (Downstream processing). O objetivo do presente trabalho foi comparar o cultivo de células BHK-21 C13 entre dois meios suplementados com SFB e sem SFB, através do estudo cinético para cultivo em suspensão estático e agitado com frascoT, frasco spinner e biorreator, respectivamente. Os parâmetros; Xmáx e µmáx, não foram significativamente influenciados pelo meio de cultura em cultivo estático, em cultivo com agitação em frasco spinner e também no cultivo em biorreator. O tempo de duplicação ficou próximo para todas as condições testadas. A produtividade alcançada foi: 0,032x106 cel/mL.h-1 para o meio com SFB e 0,031 X106 cel/mL.h-1 para o meio sem SFB. Ao final do processo foi possível obter uma concentração celular em torno de 4,7x106 cel/mL, tanto para o cultivo com SFB quanto para o cultivo sem SFB. Dessa forma, o uso de meio de cultivo sem SFB não alterou os principais parâmetros cinéticos, não apresentando as desvantagens do uso do SFB. / Mammalian cells are the most frequently used hosts for the production of biopharmaceutical proteins and viral vaccines. Quality is a key element for the establishment of an efficient bioconversion process. In this work, we used the cell line Baby Hamster Kidney C13 (BHK-21 C13) adapted to suspension culture was used. Fetal Bovine Serum (FBS) is traditionally used and it is considered a universal insert due to its power to increase cell growth in this kind of animal cells. However, the utilization of FBS introduces risks of infection from prions, variability between batches and increase in cost associated to purification stages (downstream processing). This work aimed to compare the kinetic behaviors of BHK-21 C13 cells in two media supplemented with FBS and without FBS using both one static and two suspension systems, T-flask, spinner flask and bioreactor respectively. The parameters; Xmax and µmax were not significantly influenced by the culture medium in T- flask culture static, in spinner flask cultivation and were neither significantly influenced by growing in culture media stirred bioreactor. The doubling time was close to all conditions tested. At the end of the growth phase it was possible to obtain a nearby cell concentration of 4.7 x 106 cells / ml, both for cultivation with FBS as for FBS without cultivation. Thus, the use of culture medium without FBS did not affect the main kinetic parameters. Besides, it does not show the disadvantages of culture media using FBS.

And stirred static cell culture

BHK-21C13

BHK-21C13

Biorreator

Cell suspension culture

Células de mamíferos

Cultura celular estática e agitada

Cultura de células de suspensão

Frasco de spinner

Mammalian cells

Meios de cultura livres de soro

Serum-free culture media

Spinner flask bioreactors

Cultivo de célula BHK-21 C13 em meio de cultura livre de soro fetal bovino adaptada para crescimento em suspensão / Cell bhk-21 c13 culture in the means of free culture of fetal bovine serum adapted for suspension growth

Jaci Leme

14 December 2016

Células de mamíferos são os hospedeiros mais frequentemente utilizados para a fabricação de proteínas biofarmacêuticas e para a produção de vacinas virais, A qualidade é um elemento-chave para o estabelecimento de um processo de bioconversão eficiente. No presente trabalho utilizamos a linhagem de células BHK- 21C13(Baby Hamster Kidney) adaptadas para cultivo em suspensão. O uso de Soro Fetal Bovino (SFB) é tradicionalmente utilizado, sendo considerado um suplemento universal, pois permite o crescimento em várias linhagens de células de mamíferos; porém, uso de SFB apresenta risco de infecção por prions, variabilidade entre lotes e aumento no custo em etapa de purificação (Downstream processing). O objetivo do presente trabalho foi comparar o cultivo de células BHK-21 C13 entre dois meios suplementados com SFB e sem SFB, através do estudo cinético para cultivo em suspensão estático e agitado com frascoT, frasco spinner e biorreator, respectivamente. Os parâmetros; Xmáx e µmáx, não foram significativamente influenciados pelo meio de cultura em cultivo estático, em cultivo com agitação em frasco spinner e também no cultivo em biorreator. O tempo de duplicação ficou próximo para todas as condições testadas. A produtividade alcançada foi: 0,032x106 cel/mL.h-1 para o meio com SFB e 0,031 X106 cel/mL.h-1 para o meio sem SFB. Ao final do processo foi possível obter uma concentração celular em torno de 4,7x106 cel/mL, tanto para o cultivo com SFB quanto para o cultivo sem SFB. Dessa forma, o uso de meio de cultivo sem SFB não alterou os principais parâmetros cinéticos, não apresentando as desvantagens do uso do SFB. / Mammalian cells are the most frequently used hosts for the production of biopharmaceutical proteins and viral vaccines. Quality is a key element for the establishment of an efficient bioconversion process. In this work, we used the cell line Baby Hamster Kidney C13 (BHK-21 C13) adapted to suspension culture was used. Fetal Bovine Serum (FBS) is traditionally used and it is considered a universal insert due to its power to increase cell growth in this kind of animal cells. However, the utilization of FBS introduces risks of infection from prions, variability between batches and increase in cost associated to purification stages (downstream processing). This work aimed to compare the kinetic behaviors of BHK-21 C13 cells in two media supplemented with FBS and without FBS using both one static and two suspension systems, T-flask, spinner flask and bioreactor respectively. The parameters; Xmax and µmax were not significantly influenced by the culture medium in T- flask culture static, in spinner flask cultivation and were neither significantly influenced by growing in culture media stirred bioreactor. The doubling time was close to all conditions tested. At the end of the growth phase it was possible to obtain a nearby cell concentration of 4.7 x 106 cells / ml, both for cultivation with FBS as for FBS without cultivation. Thus, the use of culture medium without FBS did not affect the main kinetic parameters. Besides, it does not show the disadvantages of culture media using FBS.

BHK-21C13

Biorreator

Células de mamíferos

Cultura celular estática e agitada

Cultura de células de suspensão

Frasco de spinner

Meios de cultura livres de soro

And stirred static cell culture

BHK-21C13

Cell suspension culture

Mammalian cells

Serum-free culture media

Spinner flask bioreactors