Martin N. McCall scite author profile

The success of engineered monoclonal antibodies as biopharmaceuticals has generated considerable interest in strategies designed to accelerate development of antibody expressing cell lines. Stable mammalian cell lines that express therapeutic antibodies at high levels typically take 6-12 months to develop. Here we describe a novel method to accelerate selection of cells expressing recombinant proteins (e.g., antibodies) using multiparameter fluorescence activated cell sorting (FACS) in association with dual intracellular autofluorescent reporter proteins. The method is co-factor-independent and does not require complex sample preparation. Chinese hamster ovary (CHO) clones expressing high levels of recombinant antibody were selected on the basis of a two-color FACS sorting strategy using heavy and light chain-specific fluorescent reporter proteins. We were able to establish within 12 weeks of transfection cell lines with greater than a 38-fold increase in antibody production when compared to the pool from which they were isolated, following a single round of FACS. The method provides a robust strategy to accelerate selection and characterization of clones and builds a foundation for a predictive model of specific productivity based upon on two-color fluorescence.

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Efficacy of an Fc-modified anti-CD123 antibody (CSL362) combined with chemotherapy in xenograft models of acute myelogenous leukemia in immunodeficient mice

Lee

Yee

Busfield

et al. 2015

Haematologica

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mized, which improved the survival of AML engrafted mice, providing a platform for preclinical examination of CSL362. Since the compromised NK cell function of immune-deficient mice may underestimate the efficacy of CSL362, human buffy coat-derived NK cells were expanded ex vivo for adoptive transfer into AML xenografted mice. CSL362 demonstrated additional efficacy against AML xenografts in combination with chemotherapy and adoptively transferred human NK (huNK) cells, supporting its further development in the clinic.

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Antisense-mediated Inhibition of the Plasma Membrane Calcium-ATPase Suppresses Proliferation of MCF-7 Cells

Lee

Robinson

Holman

et al. 2005

Journal of Biological Chemistry

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Alterations in Ca2؉ signaling may contribute to tumorigenesis and the mechanism of action of some anticancer drugs. The plasma membrane calcium-ATPase (PMCA) is a crucial controller of intracellular Ca 2؉ signaling. Altered PMCA expression occurs in the mammary gland during lactation and in breast cancer cell lines. Despite this, the consequences of PMCA inhibition in breast cancer cell lines have not been investigated. In this work, we used Tet-off PMCA antisense-expressing MCF-7 cells to assess the effects of PMCA inhibition in a human breast cancer cell line. At a level of PMCA inhibition that did not completely prevent PMCA-mediated Ca 2؉ efflux and did not induce cell death, a dramatic inhibition of cellular proliferation was observed. Fluorescence-activated cell sorting analysis indicated that PMCA antisense involves changes in cell cycle kinetics but not cell cycle arrest. We concluded that modulation of PMCA has important effects in regulating the proliferation of human breast cancer MCF-7 cells.

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Switch recombination and germ-line transcription are division-regulated events in B lymphocytes

McCall

Hodgkin

1999

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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Martin N. McCall

Accelerated cell line development using two‐color fluorescence activated cell sorting to select highly expressing antibody‐producing clones

Efficacy of an Fc-modified anti-CD123 antibody (CSL362) combined with chemotherapy in xenograft models of acute myelogenous leukemia in immunodeficient mice

Antisense-mediated Inhibition of the Plasma Membrane Calcium-ATPase Suppresses Proliferation of MCF-7 Cells

Switch recombination and germ-line transcription are division-regulated events in B lymphocytes

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