单克隆抗体制备的细胞工程学研究进展

单克隆抗体是近年来发展最快、最成功的大分子药物之一,哺乳动物细胞作为单抗大规模制备最适宜的宿主,在工业生产中仍然存在成本高、产率低等缺点。近年来,抗细胞凋亡、控制细胞周期、优化代谢过程等细胞工程学方面的研究极大地推动了抗体表达及翻译后修饰技术的发展。以下对近年来单克隆抗体制备在细胞工程学方面取得的进展作一综述,并探讨该领域未来可能的研究方向。     

Valeric acid induces cell cycle arrest at G1 phase in CHO cell cultures and improves recombinant antibody productivity

To find a more effective chemical reagent for improved monoclonal antibody (mAb) production, eight chemical reagents (curcumin, quercein, DL‐sulforaphane, thymidine, valeric acid, phenyl butyrate, valproic acid, and lithium chloride) known to induce cell cycle arrest were examined individually as chemical additives to recombinant CHO (rCHO) cell cultures producing mAb. Among these chemical additives, valeric acid showed the best production performance. Valeric acid decreased specific growth rate (μ), but increased culture longevity and specific mAb productivity (q_mAb) in a dose‐dependent manner. The beneficial effect of valeric acid on culture longevity and q_mAb outweighed its detrimental effect on μ, resulting in 2.9‐fold increase in the maximum mAb concentration when 1.5 mM valeric acid was added to the cultures. Furthermore, valeric acid did not negatively affect the mAb quality attributes with regard to aggregation, charge variation, and galactosylation. Unexpectedly, galactosylation of the mAb increased by the 1.5 mM valeric acid addition. Taken together, the results obtained here demonstrate that valeric acid is an effective chemical reagent to increase mAb production in rCHO cells.     

Role of β1 Integrins in Cell Spreading and Migration of Human Nevomelanocytes and Dysplastic Nevi Cells on Collagen Type IV and Laminin

We characterized β1 integrin subunit expression on three different cultures of benign human nevomelanocytes (NMC) and on four different cell cultures of human dysplastic nevus (DN) cells by flow cytometry analysis and examined their role in mediating cell spreading and migration on collagen type IV (CN IV) and laminin (LN) coated substrates by using a quantitative video image analysis system. The seven human NMC and DNC cultures expressed heterogeneous levels of β1, α2, α3 and α6 integrin subunits. Image analysis showed that a significant increase (P<0.001) in cell spreading and migration of the DN cells was induced on increasing coating concentrations of CN IV and LN. However, the NMC did not show an increase in cell spreading or migration on these substrates when compared to the substrates coated with denatured BSA only. The CN IV-induced cell spreading of the DN cells was significantly inhibited by anti-β1 mAb (AIIB2), anti-α2 mAb (P1E6), or anti-α3 mAb (P1B5), but not by mAb against α6 integrin subunit (GoH3). The DN cell spreading on LN was not significantly inhibited by these mAbs. In contrast, the migration of the DN on CN IV and LN was significantly inhibited by anti-β1 mAb, anti-α2 mAb, anti-α3 mAb and anti-α6 mAb. These data suggest that the α2 and α3 subunit are important for cell spreading of the DN on CN IV, although they are less important in cell spreading on the extracellular matrix component LN. The α2, α3 and α6 integrin subunits are important for the migration of DN cells on both CN IV and LN.     

Neutrophil adhesion to TNF alpha-activated endothelial cells potentiates leukotriene B4 production.

Since adhesion of neutrophils (PMN) to endothelial cells may influence PMN activation responses, we examined whether adhesion of PMN to TNF alpha-activated human umbilical vein endothelial cells (HUVEC) stimulates leukotriene B4 (LTB4) production. Endothelial adhesivity towards PMN increased after HUVEC pretreatment with TNF alpha for 4 h. LTB4 production increased markedly in response to stimulation with arachidonic acid (20 microM) when PMN were added to the hyperadhesive HUVEC. In contrast, stimulation of PMN in suspension did not potentiate LTB4 production. LTB4 production persisted when PMN were applied to TNF alpha-pretreated HUVEC fixed with 1% paraformaldehyde excluding the possibility that metabolic activity of endothelium participates in this response. PMN adhesion to plastic and gelatin also enhanced LTB4 indicating that adhesion was a critical event in inducing LTB4 production. We used monoclonal antibodies (mAb) to adhesion molecules on endothelial cells (i.e., endothelial leukocyte adhesion molecule-1 (ELAM-1) and intercellular adhesion molecule-1 (ICAM-1)) or on PMN (CD18) to assess the role of PMN adhesion to the activated endothelium on LTB4 potentiation. Both anti-ELAM-1 mAb and anti-ICAM-1 mAb inhibited PMN adhesion (by 55 and 41%, respectively) as well as LTB4 production (by 65 and 50%, respectively). Anti-CD18 mAb also reduced the adhesion (65%) and the LTB4 production (66%). Furthermore, combination of anti-ELAM-1 mAb (H18/7) and anti-ICAM-1 mAb (RR1/1) or of anti-ELAM-1 mAb (H18/7) and anti-CD18 mAb (IB4) had an additive effect in inhibiting both PMN adhesion as well as LTB4 production. PMN adherence to immobilized recombinant soluble rELAM-1 or rICAM-1 also increased LTB4 production, which was prevented with relevant mAbs. However, neither rELAM-1 nor rICAM-1 stimulated LTB4 production of PMN in suspension. We conclude that PMN adhesion to TNF alpha-stimulated endothelial cells enhances LTB4 production by PMN, a response activated by binding of PMN to expressed endothelial cell surface adhesion molecules.     

Differential CD3/T cell antigen receptor-mediated IL-2 production in jurkat T cells. Dissociation of IL-2 response from total inositol phosphate and calcium responses

We used three anti-human anti-CD3 mAb each recognizing different surface CD3 epitopes to differentially perturb the CD3/TCR complex on the surface of Jurkat T cells. In the presence of phorbol ester, these anti-CD3 mAb triggered differential IL-2 production in Jurkat T cells, which could not be explained by differences in kinetics of IL-2 production, by differences in IL-2 adsorption caused by differential surface expression of p55 or p75 IL-2R, by effects on IL-2 secretion rather than actual synthesis, or by differential toxicities of the anti-CD3 mAb to Jurkat cells. In addition, this differential anti-CD3-induced IL-2 production could not be explained by differences in mAb isotype or in avidities of the anti-CD3 mAb for the Jurkat cells. Moreover, anti-CD3 mAb covalently immobilized onto beads also differentially induced IL-2 production in Jurkat cells, suggesting that the differential IL-2 response is not based on differential rates of anti-CD3-induced modulation of Jurkat cell surface CD3. Although differences among the anti-CD3 mAb in the initial rates of binding to Jurkat cell were observed, this was also believed unlikely to explain the differential IL-2 response. Regardless of the anti-CD3 mAb used, anti-CD3-induced total inositol phosphate (IP) production did not necessarily correlate with anti-CD3-induced IL-2 production. Nevertheless, despite the differences among the anti-CD3 mAb in inducing IL-2 production, the calcium responses were grossly similar. Taken together, these observations indicate that CD3/TCR-mediated IL-2 production in Jurkat cells can be dissociated from total IP generation, and the basis of differential CD3/TCR-mediated IL-2 production in these cells does not appear to be at the level of the initial activation-induced calcium response. These studies suggest that the nature of the CD3/TCR ligand (its physical form and/or the specific epitope it perturbs) can either directly influence intracellular events distal to the generation of IP and increase in intracellular free calcium leading to differential IL-2 production or can trigger IP-independent pathways that affect IL-2 production.     

Dichotomous effect of monocyte Fc receptor interaction on anti-CD3-induced immunoglobulin synthesis

Monoclonal antibodies against the TCR/CD3 complex are capable of activating T cells which in turn may induce immunoglobulin synthesis in B cells under appropriate conditions. Here we present evidence that distinct immune responses, induced by four commonly used TCR/CD3 mAb (Leu4, OKT3, BMA030, BMA031) were related to the mAb interaction with monocyte Fc receptors for IgG. Depending on their isotype and on the technique by which they were crosslinked, TCR/CD3 mAb induced variable IgM and IgG synthesis in PBMC: If the mAb were crosslinked by monocyte IgG-Fc receptors they induced a high Ig production, while crosslinking the same mAb by plastic-bound goat anti-mouse antibodies (panning) failed to do so. Nevertheless, both crosslinking techniques triggered a strong proliferation and IL-2, IL-4, and IFN gamma lymphokine gene expression. The lack of Ig production under panning conditions was due to an additional IgG-Fc receptor interaction with monocytes: (a) If namely mAb F(ab')2 fragments, or mAb isotypes unable to bind to monocyte Fc receptors (IgG2b, IgG1 in nonresponders) were crosslinked by panning, both a good proliferation as well as Ig production ensued; (b) if TCR/CD3 mAb isotypes which could additionally bind to monocyte Fc receptor (IgG2a) were crosslinked, no Ig production occurred; (c) if mAb F(ab')2 fragments were crosslinked with a second anti-T cell antibody of IgG2a isotype, which could bind to monocyte Fc receptors, Ig synthesis was reduced. Interestingly enough, this diminishing effect, due to monocyte Fc receptor interaction, was only observed if CD4-positive cells were proliferating, but not if CD8-positive cells were activated.     

Interleukin 2 up-regulates its own production

It has been previously reported that a combination pair of anti-CD2 monoclonal antibodies (mAb) T11(2)+T11(3) induces a strong proliferation of T cells, which does not require the involvement of accessory cells and exogenous interleukin 2 (IL-2). More recently, we have shown that the requirement for optimal T cell proliferation depends on the combination pairs of anti-CD2 mAb used. Among them, anti-GT2+T11(1) mAb do not allow optimal proliferation of TA4 helper cloned T cells due, at least in part, to a low level of IL-2 production. This observation offered us the opportunity to study the effect of IL-2 on its own production. We show here that stimulation of cloned TA4 cells with anti-GT2+T11(1) mAb induces only a marginal level of IL-2 production. By contrast, significantly higher levels of IL-2 activity are detected in the culture supernatant of TA4 cells preincubated with recombinant IL-2 (rIL-2) before stimulation with anti-GT2+T11(1) mAb. This effect is dose-dependent over a wide range (5 to 50 IU/ml) of rIL-2 concentrations added during preincubation time. In addition, it is not due to carryover of rIL-2 bound during the preincubation time, or to lesser IL-2 consumption by these cells, or to increasing numbers of IL-2-producing cells induced by exogenous IL-2. Moreover, the observation was confirmed with IL-2 mRNA. Although neither rIL-2 nor anti-GT2+T11(1) mAb alone could induce a significant production of IL-2, rIL-2 appears to up-regulate its own production when the TA4 cells are activated by the anti-CD2 mAb-mediated second signal.     

Expression of recombinant anti‐breast cancer immunotherapeutic monoclonal antibody in baculovirus–insect cell system

The anti‐breast cancer monoclonal antibody (mAb) BR55 was expressed in the baculovirus–insect cell expression system, which is advantageous because of its high production capacity, cell culture flexibility and glycosylation capability. The baculovirus–insect cell expression system was successfully established for production of mAb BR55 and mAb BR55 fused with the KDEL (Lys–Asp–Glu–Leu) endoplasmic reticulum (ER) retention signal (mAb BR55K). The heavy chain (HC) and light chain (LC) genes of mAb BR55 were cloned under the control of the polyhedrin (P_PH) and P₁₀ promoters, respectively, in the pFastBacDual vector. The antibody gene‐expression cassettes carrying both the HC and LC genes were transferred into a bacmid in Escherichia coli (DH10Bac). The bacmid carrying the expression cassettes was transfected into Sf9 insect cells to generate baculovirus expressing mAb BR55 and BR55K. Western blot analysis confirmed the expression of mAb BR55 and BR55K in baculovirus‐infected insect cells. Cell direct enzyme linked immunosorbent assay (ELISA) showed that both mAbs from insect cell lysates or cell culture medium bound to MCF‐7 human breast cancer cells. Both mAb BR55 and BR55K were successfully purified using a Protein A affinity column. Collectively, these results suggest that the anti‐breast cancer mAb BR55 can be expressed, properly assembled and purified from the baculovirus expression system, which can serve as an alternative system for antibody production.     

Age- and strain-related differences in murine spleen cell responses to different activation signals.

The effect of age on the response of splenocytes to activation with anti-CD3 mAb and a combination of anti-CD3 mAb and TPA, as evidenced by interleukin-2 (IL-2) and interleukin-4 (IL-4) production and cell proliferation, was examined in the C57BL/6 and DBA/2 murine strains. Depending on the mode of activation, there were age and strain differences in IL-2 and IL-4 production. With all modes of activation, cells from the old C57BL/6 mice produced less IL-2 than their young counterparts. In DBA/2 mice there was no age-related difference in IL-2 production with anti-CD3 mAb activation alone, whereas when the same cell population was activated with anti-CD3 mAb and TPA an age-associated decrease in IL-2 production occurred. In both strains, there was an age-related increase in IL-4 production with anti-CD3 mAb activation. After addition of TPA, however, there was an age-related decrease in IL-4 production. An age-related decline in the proliferation occurred with all modes of activation in both mouse strains. There were also strain-related differences in proliferation after the addition of forskolin, an inhibitor of Th1-cell function. While forskolin inhibited the proliferation of cells from the young C57BL/6 mice only, in the DBA/2 mice proliferation of cells was inhibited in both age groups. There were no strain-related differences in inhibition by anti-transferrin receptor (TrfR) mAb, although cells from the old mice were slightly more sensitive to this inhibition.     

Effect of iron addition on mAb productivity and oxidative stress in Chinese hamster ovary culture

Trace metals play a critical role in the development of culture media used for the production of therapeutic proteins. Iron has been shown to enhance the productivity of monoclonal antibodies during Chinese hamster ovary (CHO) cell culture. However, the redox activity and pro-oxidant behavior of iron may also contribute toward the production of reactive oxygen species (ROS). In this work, we aim to clarify the influence of trace iron by examining the relationship between iron supplementation to culture media, mAb productivity and glycosylation, and oxidative stress interplay within the cell. Specifically, we assessed the impacts of iron supplementation on (a) mAb production and glycosylation; (b) mitochondria-generated free hydroxyl radicals (ROS); (c) the cells ability to store energy during oxidative phosphorylation; and (d) mitochondrial iron concentration. Upon the increase of iron at inoculation, CHO cells maintained a capacity to rebound from iron-induced viability lapses during exponential growth phase and improved mAb productivity and increased mAb galactosylation. Fluorescent labeling of the mitochondrial hydroxyl radical showed enhanced environments of oxidative stress upon iron supplementation. Additional labeling of active mitochondria indicated that, despite the enhanced production of ROS in the mitochondria, mitochondrial membrane potential was minimally impacted. By replicating iron treatments during seed train passaging, the CHO cells were observed to adapt to the shock of iron supplementation prior to inoculation. Results from these experiments demonstrate that CHO cells have the capacity to adapt to enhanced environments of oxidative stress and improve mAb productivity and mAb galactosylation with minimal perturbations to cell culture.     

Role of CD2 in regulation of CD3- LGL function.

CD2 is a differentiation marker present on T cells and NK cells. Cytotoxic T lymphocytes (CTL) can be activated by antibodies directed against the CD3/T-cell receptor complex and CD2 structures; however, the role of CD2 in regulation of CD3- large granular lymphocyte (LGL) functions has only recently been studied. Anti-CD2 monoclonal antibodies (mAbs) may be either augmenting or inhibitory and T-cell activation via the CD2 molecule occurs only when mAb binds defined combinations of the CD2 epitopes. Since LGL can be activated by a single stimulus (e.g., IL-2) to proliferate, produce IFN gamma, and increase their cytolytic potential, these functions were chosen to examine the effects of the anti-CD2 mAb and its combinations. Anti-CD2 mAb (D66, GT2, and X11-1) were incubated with LGL for various times in the absence or presence of IL2 and IFN gamma production was monitored. Single anti-CD2 mAb treatment demonstrated minimal augmentation of IFN gamma production. However, combinations of anti-CD2 (9.6) and the other anti-CD2 mAb resulted in a significant, synergistic enhancement of the IFN gamma production. Anti-CD2 mAb treatment appeared to inhibit production generated by optimal doses of IL-2 (1,000 U/ml). The effect of anti-CD2 mAb on IFN gamma production parallel their effects on LGL NK and LAK activity. These data suggested that mAb against the CD2 molecule were important in regulating LGL functions in the absence of a functional CD3 receptor in LGL.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of passage number on growth and productivity of hybridoma secreting MRSA anti-PBP2a monoclonal antibodies

Monoclonal antibodies (mAb) are high added value glycoproteins recommended for immunotherapy, diagnosis, and also for the treatment of bacterial infections resistant to multiple drugs such as Methicillin Resistant Staphylococcus aureus (MRSA). In addition to environmental conditions related to cell cultures, the intrinsic characteristics of hybridoma cells, like the secretion stability of monoclonal antibodies by the cells through successive subcultures, are relevant for the characterization of cell lines related to the productivity of mAb. The rate of mAb production differs significantly between different cell lines and different passage numbers, and it is an important variable in characterization of cell lines. In order to find a more robust, faster-growing, and higher-productivity cell line of hybridoma, cultivations in 24-well plates were performed in different subculture periods, or cell passages (P), of hybridoma cells producing MRSA anti-PBP2a monoclonal antibodies [MRSA-antiPBP2a (mAb)]. The objective of this study was to study the effects of cell growth and production of MRSA-antiPBP2a mAb secreted by murine hybridoma cells grown in different passages as well as determine the which passages the hybridomas can be cultivated without harming their growth and productivity. So, cell growth profiles of hybridomas secreting MRSA-antiPBP2a (mAb) and the production of MRSA-antiPBP2a mAb in different subculture periods or cell passages (P) were studied. Cell growth tests, monoclonal antibody productivity, and metabolite characteristics revealed substantial differences in those cells kept between P10 and P50. Similarities in the secretion of monoclonal antibody, growth, and metabolic profiles, were noted in the MRSA-antiPBP2a mAb producing hybridoma cells kept between P10 and P20. Also, glucose consumption (g/L) and lactate production (g/L) in the latter cell cultures were monitored daily through biochemical analyzer. As of P30, it was observed a 4.4 times reduction in productivity, a 13 % reduction in metabolic yield, and a significant change in cell growth. Secretion of MRSA-antiPBP2a mAb should be obtained through the culture of hybridomas up to P20 in order to keep its stability.     

The role of CD11a/CD18-CD54 interactions in human T cell-dependent B cell activation.

The role of leukocyte function-associated Ag-1 (LFA-1, CD11a/CD18) and intercellular adhesion molecule 1 (ICAM-1, CD54) interactions in human T cell and B cell collaboration was examined by studying the effect of mAb to these determinants on B cell proliferation and differentiation stimulated by culturing resting B cells with CD4+ T cells activated with immobilized mAb to the CD3 molecular complex. In this model system, mAb to either the alpha (CD11a) or beta (CD18) chain of LFA-1 or ICAM-1 (CD54) inhibited B cell responses significantly. The mAb did not directly inhibit B cell function, inasmuch as T cell-independent activation induced by formalinized Staphylococcus aureus and IL-2 was not suppressed. Moreover, DNA synthesis and IL-2 production by immobilized anti-CD3-stimulated CD4+ T cells were not suppressed by the mAb to LFA-1 or ICAM-1. Although the mAb to LFA-1 inhibited enhancement of IL-2 production by co-culture of immobilized anti-CD3-stimulated CD4+ T cells with B cells, addition of exogenous IL-2 or supernatants of mitogen-activated T cells could not abrogate the inhibitory effects of the mAb to LFA-1 or ICAM-1 on B cell responses. Inhibition was most marked when the mAb were present during the initial 24 h in culture. Immobilized anti-CD3-stimulated LFA-1-negative CD4+ T cell clones from a child with leukocyte adhesion deficiency could induce B cell responses, which were inhibited by mAb to LFA-1 or ICAM-1. These results indicate that the interactions between LFA-1 and ICAM-1 play an important role in mediating the collaboration between activated CD4+ T cells and B cells necessary for the induction of B cell proliferation and differentiation, and for enhancement of IL-2 production by CD4+ T cells. Moreover, the data are consistent with a model of T cell-B cell collaboration in which interactions between LFA-1 on resting B cells and ICAM-1 on activated CD4+ T cells play a critical role in initial T cell-dependent B cell activation.     

CD226 Protein Is Involved in Immune Synapse Formation and Triggers Natural Killer (NK) Cell Activation via Its First Extracellular Domain

CD226, an activating receptor that interacts with the ligands CD155 and CD112, activates natural killer (NK) cells via its immunoreceptor tyrosine-based activatory motif (ITAM). There are two extracellular domains of CD226; however, the comparative functional relevance of these domains remains unknown. In this study, two different deletion mutants, rCD226-ECD1 (the first extracellular domain) and rCD226-ECD (full extracellular domains), were recombinantly expressed. We observed that rCD226-ECD1, similar to rCD226-ECD, specifically bound to ligand-positive cell lines and that this interaction could be competitively blocked by an anti-CD226 mAb. In addition, rCD226-ECD1 was able to block the binding of CD112 mAb to tumor cells in a competitive binding assay. Importantly, based on surface plasmon resonance (SPR), we determined that rCD226-ECD1, similar to rCD226-ECD, directly bound to its ligand CD155 on a protein chip. Functionally, NK cell cytotoxicity against K562 or HeLa cells was blocked by rCD226-ECD1 by reducing the expression of CD69 and granzyme B, indicating the critical role of ECD1 in NK cell activation. We also examined the role of rCD226-ECD1 in effector/target interactions by using rCD226-ECD to block these interactions. Using flow cytometry, we found that the number of conjugates between IL-2-dependent NKL cells and HeLa cells was reduced and observed that the formation of immune synapses was also decreased under confocal microscopy. In addition, we prepared two anti-rCD226-ECD1 agonistic antibodies, 2E6 and 3B9. Both 2E6 and 3B9 antibodies could induce the phosphorylation of ERK in NK-92 cells. Taken together, our results show that CD226 functions via its first extracellular domain.     

Distribution of IL-5 receptor-positive B cells. Expression of IL-5 receptor on Ly-1(CD5)+ B cells.

mAb to murine IL-5R were prepared by means of fusion between mouse myeloma cells and spleen cells from a rat immunized with membrane-enriched fractions of IL-5-dependent early B cell line (T88-M). Two mAb (H7 and T21) were selected for their competitive inhibition of receptor binding by 35S-labeled IL-5 and of IL-5 biologic activities. The number of binding sites recognized by the mAb on different cell lines correlated with IL-5 responsiveness. Most surface IgM+ peritoneal B cells were H7+ and more than 70% were also Ly-1(CD5)dull+, and responded to IL-5 for polyclonal IgM production in a high frequency. A significant proportion of splenic B cells reacted with these mAb, although lower number (one-log less) than peritoneal B cells and a small proportion of H7dull+ splenic B cells seems to be Ly-1(CD5)dull+, 1 of 200 splenic B cells responded to IL-5 for IgM production. These results suggest that IL-5R+ B cells may consist of a subpopulation of B cells. Intriguingly, lymphoid populations of bone marrow cells were stained with H7 and T21, whereas myeloid populations were brightly stained with only T21. Finally, both H7 and T21 mAb specifically precipitated a protein of a Mr 60,000 from 125I-labeled cell lysates of IL-5R+ T88-M cells. The IL-5R with similar size (Mr 55,000 to 60,000) was precipitated from the cell lysates of peritoneal B cells. T21 mAb but not H7 mAb precipitated a protein of a Mr 110,000 from the cell lysates of bone marrow cells.     

The molecular weight and concentration of dextran sulfate affect cell growth and antibody production in CHO cell cultures

To investigate the effect of dextran sulfate (DS), a widely used anti‐aggregation agent, on cell growth and monoclonal antibody (mAb) production including the quality attributes, DS with the three different MWs (4,000 Da, 15,000 Da, and 40,000 Da) at various concentrations (up to 1 g/L) was added to suspension cultures of two different recombinant CHO (rCHO) cell lines producing mAb, SM‐0.025 and CS13‐1.00. For both cell lines, the addition of DS, regardless of the MW and concentration of DS used, improved cell growth and viability in the decline phase of growth. However, it increased mAb production only in the CS13‐1.00 cells. Among the three different MWs, 40,000 Da DS was most effective in attenuating cell aggregation during the cultures of CS13‐1.00 cells, and showed the highest maximum mAb concentration. For SM‐0.025 cells, it significantly decreased specific mAb productivity, particularly at a high concentration of DS. Overall, DS addition did not negatively affect the quality attributes of mAbs (aggregation, charge variation, and glycosylation), though its efficacy on mAb quality depended on the MW and concentration of DS and cell lines. For both cell lines, the addition of DS did not affect N‐glycosylation of mAbs and decreased basic charge variants in mAbs. For CS13‐1.00 cells, the mAb monomer increased with the addition of 40,000 Da DS at 0.3–1.0 g/L. Taken together, to maximize the beneficial effect of DS addition on mAb production, the optimal MW and concentration of DS should be determined for each specific rCHO cell line. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:1113–1122, 2016     

Principal and intercalated cells in primary cultures of rabbit renal collecting tubules revealed by monoclonal antibodies.

In this study we describe the production and characterization of two monoclonal antibodies (mAb 503 and mAb 703) raised against the apical membrane of rabbit cortical collecting tubule (CCT) cells. The specificity of the two monoclonal antibodies was studied by immunoelectron microscopy on kidney sections. These antibodies were used to identify principal and intercalated cells in primary cultures of CCT. To assess the maintenance of the basic characteristics of the cortical collecting cells during the growth process we determined the biochemical and electrophysiological properties of cultured CCT. Of the monoclonal antibodies produced mAb 503 was specifically directed against the luminal membrane of intercalated cells as shown by immunoelectron microscopy. mAb 703 bound specifically the apical membrane of the principal cells. In primary cultures of CCT mAb 503 and mAb 703 bound antigens present on the apical membrane of different cells and permitted the study of the distribution of the two cell types. Results showed the maintenance of the epithelial polarity of cultured CCT and the expression of specific antigens.     

HUMAN B CELL DIFFERENTIATION: DEPENDENCE ON INTERACTIONS WITH MONOCYTES AND T LYMPHOCYTES VIA CD40, CD80 (B7.1), AND THE CD2-LIGANDS CD48 AND CD58 (LFA-3)

B cell differentiation depends on cellular interactions with T lymphocytes and monocytes via adhesion molecules (AM). In order to characterize AM which are required for B cell differentiation immunoglobulin production using unseparated peripheral blood mononuclear cells (PBMC) was studied. Unstimulated human PBMC were cultured for 9 days with mAb directed at CD2/CD48, /CD58, CD59, CD5/CD72, CD11a—CD18/CD54, CD28/CD80, CD86, CD40/CD40L, or rat CD2 (control). B cell differentiation was quantified measuring IgM and in some cases IgA, IgG, and IgE production. IgM levels were significantly reduced by mAb against CD40, CD48, CD58 and CD80. The reduction was not due to isotype switching to IgA, IgG or IgE. The role of CD40, CD48, CD58 and CD80 was further investigated after depletion of different cell types. Depletion of monocytes and NK cells resulted in no detectable IgM production irrespective of added mAbs. In contrast, IgM production was still present after depletion of T cells and NK cells. Only mAb against CD80 and CD48 significantly reduced IgM production, the reduction of IgM production by anti-CD40 mAb was less than in the presence of T cells. Importantly, anti-CD58 mAb had no effect on IgM production after T cell and NK cell depletion. Taken together, the AM CD40, CD48, CD58, and CD80 are involved in Ig production of unseparated PBMCs. In this model of B cell differentiation only the AM CD58 depend on the presence of T cells while CD48 and CD80 help was found to be T cell independent.