Abstract

31 Background: The human prostate cell line LNCaP and the human myelocytic leukemia cell line U937 differ dramatically in their responses to the two protein kinase C (PKC) targeted ligands phorbol 12-myristate 13-acetate (PMA) and bryostatin 1 and show complex differences in the patterns of transcriptional responses that they induce. Quantitation of relative abundance of individual PKC isoforms in the two cell lines may help to link the downstream effects of the two compounds to these isoforms. Methods: Simple Western is a capillary-based automated Western system recently developed by ProteinSimple. All steps following sample preparation are fully automated in the Simple Western system, including sample loading, size-based protein separation, immunoprobing, washing, detection and data analysis. Simple Western is gel-free and blot-free, uses less amount of samples, and produces highly quantitative, reproducible information that cannot be generated using regular Western assays. Using the Simple Western system, we developed a method for absolute quantitation of endogenous proteins in cell lysates and quantified PKC isoforms in LNCaP and U937 cells. Results: PKC isoforms were measured at levels of picogram or sub-picogram per nanogram cell lysate. PKC delta was identified as the dominant PKC isoforms in both cell lines. In LNCaP cells, PKC delta expression is ~20-fold higher than PKC alpha, ~40-fold higher than PKC epsilon, and at least 20-fold higher than PKC beta. In U937 cells, PKC delta expression is similar to PKC beta, at least 200 fold higher than PKC alpha, and ~50-fold higher than PKC epsilon. Conclusions: The Simple Western system, with its high-quality data quantitation and excellent assay reproducibility, allowed us to detect both the relative abundance of the PKC isoforms and their absolute quantitation in the tested cells. It circumvents the problem that antibodies of different affinities for different proteins yield a misleading impression of relative abundance and it provides an approach to accurately correlate protein quantities with their function.

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