RESUMO
The high prices of biopharmaceuticals or biologics used in the treatment of many diseases limit the access of patients to these novel therapies. One example is the monoclonal antibody trastuzumab, successfully used for breast cancer treatment. An economic alternative is the generation of biosimilars to these expensive biopharmaceuticals. Since antibody therapies may require large doses over a long period of time, robust platforms and strategies for cell line development are essential for the generation of recombinant cell lines with higher levels of expression. Here, we obtained trastuzumab-expressing CHO-K1 cells through a screening and selection strategy that combined the use of host cells pre-adapted to protein-free media and suspension culture and lentiviral vectors. The results demonstrated that the early screening strategy obtained recombinant CHO-K1 cell populations with higher enrichment of IgG-expressing cells. Moreover, the measurement of intracellular heavy chain polypeptide by flow cytometry was a useful metric to characterize the homogeneity of cell population, and our results suggest this could be used to predict the expression levels of monoclonal antibodies in early stages of cell line development. Additionally, we propose an approach using 25 cm2 T-flasks in suspension and shaking culture conditions as a screening tool to identify high producing cell lines. Finally, trastuzumab-expressing CHO-K1 clones were generated and characterized by batch culture, and preliminary results related to HER2-recognition capacity were successful. Further optimization of elements such as gene optimization, vector selection, type of amplification/selection system, cell culture media composition, in combination with this strategy will allow obtaining high producing clones.
RESUMO
Introducción: El rituximab, anticuerpo quimérico que reconoce la molécula CD20 humana, se ha utilizado en el tratamiento de diversos trastornos linfoproliferativos de células B. Para la selección de los potenciales beneficiarios del tratamiento con rituximab se han desarrollado técnicas que, mediante el uso de anticuerpos monoclonales, detectan la presencia del CD20 en los linfocitos de estos pacientes. Objetivo: Obtener y caracterizar un anticuerpo recombinante IgG1 de ratón específico para la molécula CD20 humana, que contenga las regiones variables del anticuerpo rituximab. Métodos: Para la expresión estable del anticuerpo recombinante se empleó la transducción lentiviral de células de embrión de riñón humano (HEK293). La caracterización inmunoquímica del anticuerpo se realizó por la técnica de Western Blot y su capacidad de reconocimiento de la molécula CD20 humana se evaluó por citometría de flujo e inmunohistoquímica. Resultados: Se obtuvo el anticuerpo 1F5 que reconoce, por citometría de flujo, la molécula CD20 en líneas celulares humanas de origen linfoide, así como en células de sangre periférica de humanos sanos y pacientes con trstornos linfoproliferativos de células B. Sin embargo, la técnica de inmunohistoquímica solo permitió detectar con este anticuerpo la molécula CD20 en tejidos frescos, no así en los embebidos en parafina. Conclusiones: Este trabajo sugiere las potencialidades del uso del anticuerpo 1F5 para las mediciones de la expresión de CD20 por citometría de flujo en pacientes con leucemias B o linfomas B avanzados en fase de leucemización. Esto complementaría los estudios para la selección apropiada de pacientes para el tratamiento con el rituximab(AU)
Introduction: Rituximab, chimeric antibody specific for human CD20 molecule, has been widely used in the treatment of several B-cell linfoproliferative disorders. For the selection of patients with the greatest potential to benefit from the therapy with rituximab, a number of techniques using monoclonal antibodies have been developed to detect the CD20 molecule. Objective: To obtain and to characterize a mouse IgG1 recombinant antibody, specific for human CD20, that contains the variable regions of rituximab. Methods: The lentiviral transduction of human embryonic kidney cells (HEK293) was used for the stable expression of the recombinant antibody. The immunochemical characterization of the antibody was performed by Western Blot and the recognition of CD20 was evaluated by immunohistochemistry and flow cytometry. Results: We generated the antibody 1F5, able to recognize by flow cytometry the CD20 molecule expressed on lymphoid human cell lines, as well as peripheral blood mononuclear cells from healthy donors and patients with B-cell lymphoproliferative disorders. However, 1F5 antibody detected the CD20 molecule on fresh tissues, but not on formalin-fixed paraffin embedded tissues,by immunohistochemistry. Conclusions: This work suggests the potential use of 1F5 antibody for the measurement of CD20 expression by flow cytometry in patients with B-cell leukemias or B-cell lymphomas in phase of leukemization. This could complement the studies to ensure the appropriate selection of patients for the treatment with rituximab(AU)
