Development of a high-throughput cell-based assay for 11beta-hydroxysteroid dehydrogenase type 1 using BacMam technology.

Cortisol is an important glucocorticoid in humans that regulates many physiological processes. Human 11beta-hydroxysteroid dehydrogenase type 1 (11beta-HSD1) converts cortisone to cortisol in vivo and has emerged as an appealing therapeutic target for treating metabolic diseases. Here, we report a sensitive and robust high-throughput (HT) cell-based assay for screening 11beta-HSD1 inhibitors. This assay utilizes a HEK293 cell line transduced by a BacMam virus expressing human 11beta-HSD1. The enzyme activity in the cells was measured by quantifying cortisol levels released into the cell culture supernatant via a competitive homogenous time-resolved fluorescence (HTRF) method. We show that 11beta-HSD1 activity in supernatant of BacMam-transduced HEK293 cells increases with 11beta-HSD1 BacMam virus load in a dose-dependent manner, and is comparable to the enzyme activity detected in differentiated mouse adipocytes. In addition, we show that co-expression of hexose-6-phosphate dehydrogenase (H6PDH) is not required for the enzyme to function effectively as an oxo-reductase. This assay has been developed in low-volume 384-well format and it is sensitive, robust, and amenable to HT screening.

Efficient expression of secreted proteases via recombinant BacMam virus.

Baculovirus vectors engineered to contain mammalian cell-active promoter elements have been described as an efficient method for transduction of a broad spectrum of human cell lines at high frequency. In the first large-scale comparative study of secreted protein production using these viral vectors, we have evaluated production of 16 recombinant enzymes--specifically, we exploited these viral vectors, termed 'BacMam' viruses, to drive expression of a panel of proteases selected from all four major mechanistic classes, including secreted, lysosomal, endosomal, and type I transmembrane proteins. To allow a generic purification strategy, coding sequences were truncated to remove transmembrane and/or subcellular retention signals before introduction, in parallel, into a C-terminally Fc-tagged BacMam transfer vector. BacMam viruses were generated and subsequently evaluated for expression of Fc-tagged protein in virus-transduced HEK-F cells. The common Fc-tag enabled single-step affinity purification of secreted recombinant protein from the culture medium. Yields were excellent, with 14 of 16 genes expressed producing 10-30 mg or more purified protein per litre of culture using standardised transduction conditions. At this level, reagent demands for a typical protease high-throughput screen (HTS) could be met from expression cultures as small as 0.1-0.5 L. Our results indicate this expression system offers a highly efficient and scaleable method for production of enzymatically-active secreted proteases and may therefore represent a novel method of protein production for other secreted enzymes with significant advantages over the diverse approaches in current use.