Clonal variation in cultured neuroblastoma cells. II. The relationship of increased intracellular cyclic AMP content to increased anchorage requirement for growth and flattened morphology

Flat variant clones were isolated from both the N18 neuroblastoma cell line and from a subclone of the parent line exhibiting the typical round cell morphology. Several revertant clones exhibiting the round parental morphology were also isolated from one of the flat variant clones. The flat variants exhibit decreased cloning efficiency in suspension and increased amounts of myosin heavy chain when compared to the round cell clones. Intracellular cAMP levels were increased from two- to fivefold over those in clones representative of the parent line and in the round cell revertants. Treatment with the phosphodiesterase inhibitor RO20-1724 increased cAMP levels and reduced suspension cloning efficiency without altering doubling time or attached cloning efficiency. Increasing cAMP levels of two of the round cell clones by treatment with the phosphodiesterase inhibitor caused increased flattening of the cell body and increased myosin heavy chain content. Thus, even though increased cAMP level may be sufficient to explain the reduced cloning efficiency of the flat variants, it is not the sole cause of the flat morphology.     

Isolation and characterization of Chinese hamster ovary cell variants defective in adhesion to fibronectin-coated collagen

Variant clones of Chinese hamster ovary (CHO) cells were selected for reduced adhesion to serum-coated tissue culture plates. These clones also displayed reduced adhesion to substrata composed of collagen layers coated with bovine serum or with fibronectin (cold-insoluble globulin). Wild-type (WT) and adhesion variant (ADv) cells grew at comparable rates in suspension culture, but the adhesion variants could not be grown in monolayer culture because of their inability to attach to the substratum. The adhesion deficit in these cells was not corrected by raising the concentration of divalent cations or of serum to levels 10-fold greater than those normally utilized in cell culture. However, both WT and ADv clones could adhere, spread, and attain a normal CHO morphology on substrata coated with concanavalin A or poly-L- lysine. In addition, the adhesion variants could attach to substrata coated with "footpad" material (substratum-attached material) derived from monolayers of human diploid fibroblasts or WT CHO cells. These observations suggest that the variant clones may have a cell surface defect that prevents them from utilizing exogeneous fibronectin as an adhesion-promoting ligand; however the variants seem to have normal cytoskeletal and metabolic capacities that allow them to attach and spread on substrata coated with alternative ligands. These variants should be extremely useful in studying the molecular basis of cell adhesion.     

Synthesis of a carboxyl-terminal (constant region) fragment of the immunoglobulin light chain by a mouse myeloma cell line

The MPC11 mouse myeloma cell line synthesizes not only heavy chains and light chains but also an 11,600 molecular weight light chain fragment. The fragment comprises 1% of the newly synthesized protein, compared to 8% for the complete light chain. Similar amounts of fragment are produced by a number of heavy plus light chain producing subclones, 18 independently generated light chain producing variant clones, and five independent non-producing variant clones. For both the heavy plus light chain producing and the non-producing cell types, less than 20% of the fragment appears to be secreted, while the remainder is metabolized with a half-life of 30 minutes. Radiochemical peptide analyses and radiochemical amino -terminal sequence analyses are consistent with the fragment containing most of the peptide sequences present in the carboxyl-terminal half (constant region) of the parent kappa light chain, but none of the variable region peptides. The fragments produced by a heavy plus light chain producing clone and a non-producing variant clone were identical by radiochemical peptide analysis. The results suggest that the constant region fragment may be a primary gene product, and in addition, they raise the possibility that the fragment may be specified by a gene discrete from the gene specifying a light chain.     

Generation and chracterization of variants of mouse hepatoma cells with defects in hepato-specific gene expression. I. Albumin synthesis variants

Clonal variants of mouse hepatoma cells that either fail to produce albumin (variant 19/2) or show significantly reduced levels (100-fold less) of albumin production (variant 1/c/1) were isolated from the parental line. Hepa la, after a single exposure to N-methyl-N'-nitrosoguanidine (MNNG). Intracellular levels of albumin in both variants were below detection by our assay. Analyses by cDNA-RNA reassociation kinetics indicate that there are approximately 3900 molecules of cytoplasmic albumin mRNA per cell in the parent and less than 10 molecules per cell in both variants. Southern blotting of the Eco RI restriction fragments of cellular DNA from the parent and variants did not indicate any major deletions in the albumin gene DNA sequences. We conclude that in the two variants studied, processes that regulate albumin production via alterations in the level of cytoplasmic albumin mRNA have been affected. Our analyses have also shown that alpha-fetoprotein (AFP) production is lacking in one variant (19/2) and is slightly reduced in the other (1/c/1). Transferrin secretion is lower than the parental line in both variants. Thus multiple nonlethal defects in hepatic gene expression can be obtained in Hepa la cells in culture that will be useful in determining the number and kinds of genes that control the expression of liver-specific loci.     

Isolation and characterization of Chinese hamster ovary cell variants deficient in the expression of fibronectin receptor

Chinese hamster ovary cell populations were enriched for cells displaying low surface expression of the 140-kD integrin fibronectin receptor (FnR) by means of fluorescence-activated cell sorting using monoclonal anti-FnR antibodies. Selected cells were cloned by limiting dilution, and the resulting clones were screened for low cell surface FnR expression by ELISA. Two multiply sorted populations gave rise to variant clones possessing approximately 20 or 2% FnR expression, respectively, compared with wild-type cells. Growth rates of the "20%" and "2%" clones on serum-coated plastic dishes were similar to that of wild-type cells. Variant cells expressing 20% FnR could attach and spread on substrata coated with purified fibronectin, although somewhat more slowly than wild-type cells, while cells expressing 2% FnR could not attach or spread. Cells from all variant clones attached normally to vitronectin substrata, but some of the 2% clones displayed altered morphology on this type of substratum. Motility assays in blind well chambers showed a correlation of movement with level of expression of FnR. The number of cells migrating in response to fibronectin was greatly reduced compared with wild-type cells for the 20% FnR variant clones, while variant clones with 2% FnR showed virtually no migratory activity. Surface labeling with 125I and immunoaffinity purification of FnR showed reduced levels of intact FnR on the plasma membranes of variants with 20% FnR, while none was detected in variants expressing 2% FnR. Nevertheless, beta subunits were detected on the surfaces of all variant clones. Immunoblots of cell lysates from wild-type cells and from both types of variant clones showed substantial amounts of FnR beta chain as well as enhanced amounts of a pre-beta moiety in the variants. alpha chain was markedly reduced in the 20% variants and essentially absent in the 2% variants, indicating that failure to assemble intact FnR in these variants was due to deficiencies of alpha chain production. Dot blots of total mRNA from a representative clone expressing 20% FnR showed reduced levels of material hybridizing to an 0.97-kb hamster FnR alpha chain cDNA probe as compared with wild type, while mRNA from a representative clone expressing 2% FnR had no detectable hybridizable RNA; this seems to agree well with the results obtained by immunoblotting. Thus, the defect in the variant clones seems to be due to reduced levels of alpha chain mRNA leading to a deficit of mature FnR and consequent alterations in cell adhesion and motility on fibronectin substrata.     

Clones of ectopic stem cells in the regeneration of muscle defects in vivo

Little is known about whether clones of ectopic, non-muscle stem cells contribute to muscle regeneration. Stem/progenitor cells that are isolated for experimental research or therapeutics are typically heterogeneous. Non-myogenic lineages in a heterogeneous population conceptually may compromise tissue repair. In this study, we discovered that clones of mononucleated stem cells of human tooth pulp fused into multinucleated myotubes that robustly expressed myosin heavy chain in vitro with or without co-culture with mouse skeletal myoblasts (C2C12 cells). Cloned cells were sustainably Oct4+, Nanog+ and Stro1+. The fusion indices of myogenic clones were approximately 16-17 folds greater than their parent, heterogeneous stem cells. Upon infusion into cardio-toxin induced tibialis anterior muscle defects, undifferentiated clonal progenies not only engrafted and colonized host muscle, but also expressed human dystrophin and myosin heavy chain more efficaciously than their parent heterogeneous stem cell populations. Strikingly, clonal progenies yielded ～9 times more human myosin heavy chain mRNA in regenerating muscles than those infused with their parent, heterogeneous stem cells. The number of human dystrophin positive cells in regenerating muscles infused with clonal progenies was more than ～3 times greater than muscles infused with heterogeneous stem cells from which clonal progenies were derived. These findings suggest the therapeutic potential of ectopic myogenic clones in muscle regeneration.     

Integration of high-throughput analytics and cell imaging enables direct early productivity and product quality assessment during Chinese Hamster ovary cell line development for a complex multi-subunit vaccine antigen

Mammalian cell line generation typically includes stable pool generation, single cell cloning and several rounds of clone selection based on cell growth, productivity and product quality criteria. Individual clone expansion and phenotype-based ranking is performed initially for hundreds or thousands of mini-scale cultures, representing the major operational challenge during cell line development. Automated cell culture and analytics systems have been developed to enable high complexity clone selection workflows; while ensuring traceability, safety, and quality of cell lines intended for biopharmaceutical applications. Here we show that comprehensive and quantitative assessment of cell growth, productivity, and product quality attributes are feasible at the 200–1,200 cell colony stage, within 14 days of the single cell cloning in static 96-well plate culture. The early cell line characterization performed prior to the clone expansion in suspension culture can be used for a single-step, direct selection of high quality clones. Such clones were comparable, both in terms of productivity and critical quality attributes (CQAs), to the top-ranked clones identified using an established iterative clone screening approach. Using a complex, multi-subunit antigen as a model protein, we observed stable CQA profiles independently of the cell culture format during the clonal expansion as well as in the batch and fed-batch processes. In conclusion, we propose an accelerated clone selection approach that can be readily incorporated into various cell line development workstreams, leading to significant reduction of the project timelines and resource requirements.     

Cloning of mouse myeloma cells and detection of rare variants

Cultured mouse myeloma cells have been cloned in soft agar using a modification of the method established by Pluznik and Sachs ('65, '66) and by Bradley and Metcalf ('66). A linear relationship existed between the number of cells plated and the number of colonies produced. Conditions for obtaining optimum cloning efficiency and colony size were determined for the MPC-11 cell line. Feeder cells of mouse, human and rabbit origin and conditioned growth medium obtained from mouse cultures and had an enhancing effect on colony formation. Immunoglobulin production by cloned cells was detected by overlaying the clones with anti-immunoglobulin antiserum. The antiserum had no adverse effect on cloning efficiency or colony size. A reconstruction experiment was performed to show that the plate assay could reliably detect rare variants of immunoglobulin producing cells. The plate assay was validated by studying immunoglobulin production following recovery of clones from dishes and their growth to mass suspension culture. Immunoglobulin formation in these cultures was assessed by a Ouchterlony immunodiffusion of the supernatant medium, and by incubating the cells with radioactive amino acids and analyzing the intracellular and secreted immunoglobulin on polyacrylamide gels.     

Epidermal growth factor receptor gene-amplified MDA-468 breast cancer cell line and its nonamplified variants.

We have recently reported (J. Filmus, M. N. Pollak, R. Cailleau, and R. N. Buick, Biochem. Biophys. Res. Commun. 128:898-905, 1985) that MDA-468, a human breast cancer cell line with a high number of epidermal growth factor (EGF) receptors, has an amplified EGF receptor gene and is growth inhibited in vitro pharmacological doses of EGF. We have derived several MDA-468 clonal variants which are resistant to EGF-induced growth inhibition. These clones had a number of EGF receptors, similar to normal human fibroblasts, and had lost the EGF receptor gene amplification. Karyotype analysis showed that MDA-468 cells had an abnormally banded region (ABR) in chromosome 7p which was not present in the variants. It was shown by in situ hybridization that the amplified EGF receptor sequences were located in that chromosome, 7pABR. Five of the six variants studied were able to generate tumors in nude mice, but their growth rate was significantly lower than that of tumors derived from the parental cell line. The variant that was unable to produce tumors was found to be uniquely dependent on EGF for growth in soft agar.     

Establishment and characterization of cell clones from the Papilio cell line RIRI-PaDe-3 by a high-efficiency clonal method

Cell cloning is of great importance in keeping particular properties of cultured cells, and interesting cells can be selected by cloning from heterogeneous cell populations. In addition, continuous cell lines usually from primary culture are prone to heterologous constitution and genetic instability, so that supplementary cloning steps are necessary for achieving a homogenous cell population. In this study, limiting dilution culture and feeder layer culture were originally used for cloning RIRI-PaDe-3 cell line, but both failed. Afterward, we designed a cloning protocol which was composed of two steps: cells in semisolid medium with seeding density in the range of 3.05?×?10⁵–6.10?×?10⁵ cells/mL formed colonies from monodispersed cell suspensions; 40 well-dispersed colonies were removed from the suspended state by using micromanipulator system and finally scaled up. To determine whether this method can isolate cell lines possessing characteristics different from the parent population, we made an evaluation of cells monoclonal in biological characteristics. Significant differences have been found among clones isolated from the RIRI-PaDe-3 insect cell line in cell morphology, chromosome numbers, and genetic background. Thus the indicated modified semisolid medium cloning protocol was advantageous to the convenient and genuine cloning from the previously heterogeneous population.     

Activation of myosin synthesis in fusing and mononucleated myoblasts

The synthesis of the heavy chain subunit of myosin has been studied in breast muscle myoblasts from embryos of the Japanese quail, Coturnix coturnix japonica, during differentiation of these cells in culture. Specifically, these experiments were done to examine the roles of myoblast fusion and the regulation of myoblast cell division in the control of myosin heavy chain synthesis.The rates of myosin heavy chain synthesis have been quantitated in cultures of fusing myoblasts by measurement of the incorporation of radioactive leucine and valine precursors into myosin heavy chain, and simultaneous determination of the intracellular specific activities of these radioactive amino acids. These measurements demonstrate that, prior to fusion, dividing myoblasts synthesize little, if any, myosin heavy chain, but that during the period of myoblast fusion, myosin heavy chain synthesis becomes activated at least 50 to 100-fold. Myosin heavy chain synthesis was also measured in mononucleated myoblasts inhibited from fusing by the presence of EGTA in the culture medium. These experiments demonstrate that myosin synthesis can be activated in mononucleated myoblasts to reach rates similar to those attained in fused myoblasts. This activation occurs under conditions in which EGTA-inhibited myoblasts were induced to withdraw from the cell division cycle by reducing the concentrations of the serum and embryo extract components of the culture medium or by prior “conditioning” of standard growth medium.These experiments, therefore, establish that the activation of myosin synthesis in breast muscle myoblasts does not require fusion, but indicate that activation is co-ordinated with the withdrawal of myoblasts from the cell division cycle.     

Genetic analyses of Per.C6 cell clones producing a therapeutic monoclonal antibody regarding productivity and long-term stability

Genetic characterization of protein-producing clones represents additional value to cell line development. In the present study, ten Per.C6 clones producing a Rebmab100 monoclonal antibody were selected using two cloning methods: six clones originated from limiting dilution cloning and four by the automated colony picker ClonePix FL. A stability program was performed for 50 generations, including 4 batches distributed along the timeframe to determine specific productivity (Qp) maintenance. Four stable clones (two from limiting dilution and two from ClonePix FL) were further evaluated. The relative mRNA expression levels of both heavy chain (HC) and light chain (LC) genes were verified at generations 0, 30–35, and 50–55 of the stability program. At generations 0 and 30–35, LC gene expression level was higher than HC gene, whereas at generation 50–55, the opposite prevailed. A high correlation was observed between Qp and HC or LC mRNA expression level for all clones at each generation analyzed along the continuous culture. The mRNA stability study was performed at steady-state culture. The LC gene displayed a higher half-life and lower decay constant than HC gene, accounting for the higher observed expression level of LC mRNA in comparison to HC mRNA. Clone R6 was highlighted due its high Qp, mRNA expression levels, and mRNA stability. Besides the benefits of applying genetic characterization for the selection of stable and high-producing clones, the present study shows for the first time the correlation between Qp and HC or LC expression levels and also mRNA stability in clones derived from human cell line Per.C6(®).     

Rapid isolation of cloned isotype switch variants using fluorescence activated cell sorting

We have used highly specific, directly fluorescein-conjugated heterologous (conventional) and monoclonal antibodies directed against mouse immunoglobulin isotypes in conjunction with the fluorescence activated cell sorter (FACS) to enrich and clone hybridoma cells producing new immunoglobulin heavy chain constant regions. Each variant retains the parental heavy chain variable region and the parental immunoglobulin light chain; thereby each variant binds the same dansyl (DNS) hapten. These isotype switch variants occur at frequencies of approximately 10-5 to 10-6. We were able to isolate the variants by first sorting for an approximate 1000-fold enrichment of the desired immunoglobulin-producing cells, growing these cells for five to nine days, followed by a second 1000-fold enrichment and direct cell cloning into 96 well culture trays. Clones were screened only 3-5 weeks after the original selection for secretion of dansyl-binding immunoglobulin of the selected isotype. Judicious combination of existing methods permits improved analytical techniques using the cell sorter. These include: first, "red" fluorescence staining of dead cells with ethidium bromide or propidium iodide and using the red fluorescence measurement to exclude dead cells from the green fluorescence selection; and second, the use logarithmic amplification of fluorescence signals, allowing for more succinct selection of fluorescence parameters for sorting.     

Myosin heavy chain isoform diversity in smooth muscle is produced by differential RNA processing

We have isolated and characterized two distinct myosin heavy chain cDNA clones from a neonatal rat aorta cDNA library. These clones encode part of the light meromyosin region and the carboxyl terminus of smooth muscle myosin heavy chain. The two rat aorta cDNA clones were identical in their 5' coding sequence but diverged at the 3' coding and in a portion of the 3' untranslated regions. One cDNA clone, RAMHC21, encoded 43 unique amino acids from the point of divergence of the two cDNAs. The second cDNA clone, RAMHC 15, encoded a shorter carboxyl terminus of nine unique amino acids and was the result of a 39 nucleotide insertion. This extra nucleotide sequence was not present in RAMHC21. The rest of the 3' untranslated sequences were common to both cDNA clones. Genomic cloning and DNA sequence analysis demonstrated that an exon specifying the 39 nucleotides unique to RAMHC15 mRNA was present, together with the 5' upstream common exons in the same contiguous stretch of genomic DNA. The 39 nucleotide exon is flanked on either side by two relatively large introns of approximately 2600 and 2700 bases in size. RNase protection analysis indicated that the two corresponding mRNAs were coexpressed in both vascular and non-vascular smooth muscle tissues. This is the first demonstration of alternative RNA processing in a vertebrate myosin heavy chain gene and provides a novel mechanism for generating myosin heavy chain protein diversity in smooth muscle tissues.     

Hybridization of a mouse T-cell lymphocyte line (HB1) with a polyoma virus-transformed mouse fibroblast line

The establishment of permanent T-lymphocyte cell lines by transformation with DNA viruses has not yet been achieved. This paper reports the successful transfer of polyoma virus genome into T-lymphocyte cells by somatic hybridization. A T-lymphocyte clone, HB₁, derived from (DBA/ 2J×AKR) spleen cells, isolated in vitro by cloning in semi-solid agar, was fused with a polyoma (Py) virus-transformed fibroblast C3HPy, clone 1. The authenticity of the hybrid C3H/HB was established by chromosome and histocompatibility antigen studies. This initial population and the various clones retained T-lymphocyte characteristics such as morphological appearance, growth properties (suspension culture) and differentiation antigen (Thy 1–2). The hybrid cell line and the various clones presented all the characteristics of Py transformation. Namely, they carried the Py genome originating from the fibroblastic parent and maintained Py virus tumour-associated antigens (TSTA, TSSA and T antigens). In most respects, this hybrid population resembled the C3HPy/C11 parent and exhibited the same tumorigenicity.     

Pentose utilizing variants of Novikoff hepatoma cells: Modification of growth and morphological properties

A series of variant lines that utilize multiple pentoses for growth in place of glucose have been isolated from an 8-azaguanine resistant line of Novikoff hepatoma cells (N1S167). These variants utilize for growth ribose, xylose, arabinose, and/or deoxyribose. The variants growing on pentose containing medium (a) exhibit a density dependent cessation of growth, (b) have a morphology change to a more flattened cell type, (c) become binucleated in the presence of cytochalasin B, and (d) show an altered sensitivity to trypsin treatment.     

Temperature-sensitive hamster cell line with altered membrane properties

The altered properties of a concanavalin A-resistant Chinese hamster ovary cell line with obvious temperature-sensitive growth properties is described. The variant cell line, C^R-7, was shown to have a higher efficiency of colony formation than the parental wild-type population after treatment with various concentrations of concanavalin A (ConA). The variant cells had the properties of a temperature-sensitive cell line as judged by growth studies performed on solid surfaces or in suspension culture at the permissive (34 °C) and non-permissive (39 °C) temperatures; by colony efficiency determinations performed at 34 °C and 39 °C; and by the altered ability to incorporate DNA, RNA, and protein precursors into acid-precipitable material at the non-permissive temperature. Evidence for changes in the membrane properties of C^R-7 cells included: a reduced agglutinability in the presence of ConA, an altered cellular morphology on solid surfaces, an enhanced sensitivity to the toxic effects of membrane-active agents, altered and temperature-sensitive adhesiveness properties, and a reduced ability to bind labelled ConA.