Ikramuddin Aukhil

Transcriptional coactivation of bone-specific transcription factor Cbfa1 by TAZ.

ABSTRACT Core-binding factor 1 (Cbfa1; also called Runx2) is a transcription factor belonging to the Runt family of transcription factors that binds to an osteoblast-specific cis-acting element (OSE2) activating the expression of osteocalcin, an osteoblast-specific gene. Using the yeast two-hybrid system, we identified a transcriptional coactivator, TAZ (transcriptional coactivator with PDZ-binding motif), that binds to Cbfa1. A functional relationship between Cbfa1 and TAZ is demonstrated by the coimmunoprecipitation of TAZ by Cbfa1 and by the fact that TAZ induces a dose-dependent increase in the activity of osteocalcin promoter-luciferase constructs by Cbfa1. A dominant-negative construct of TAZ in which the coactivation domains have been deleted reduces osteocalcin gene expression down to basal levels. NIH 3T3, MC 3T3, and ROS 17/2.8 cells showed the expected nuclear localization of Cbfa1, whereas TAZ was distributed throughout the cytoplasm with some nuclear localization when transfected with either Cbfa1 or TAZ. Upon cotransfection by both Cbfa1 and TAZ, the transfected TAZ shows predominant nuclear localization. The dominant-negative construct of TAZ shows minimal nuclear localization upon cotransfection with Cbfa1. These data indicate that TAZ is a transcription coactivator for Cbfa1 and may be involved in the regulation of osteoblast differentiation.

Purification of hexabrachion (tenascin) from cell culture conditioned medium, and separation from a cell adhesion factor.

We describe a protocol for purifying hexabrachion from conditioned medium of cell cultures, using gel filtration chromatography on Sephacryl 500, followed by anion-exchange chromatography on a Mono Q column, followed optionally by a second gel filtration or zone sedimentation on glycerol gradients. The protocol has several advantages over previous procedures based on affinity chromatography on monoclonal antibodies. Perhaps foremost, the protein is never exposed to the denaturing solvents that are required for elution from the antibody column. The Mono Q column also separated hexabrachion from a prominent cell adhesion activity that eluted with the hexabrachion on the first gel filtration, and co-sedimented with hexabrachions on glycerol gradients. The cell adhesion fractions showed several bands between 190 and 400 kDa. A single band at 220 kDa stained prominently with a polyclonal antibody against mouse EHS laminin, and a band at 190 kDa stained with a monoclonal antibody against s-laminin. The purification protocol gave hexabrachion at high concentration and with no detectable contamination by fibronectin or laminin. The highest yield of hexabrachion (1-4 mg from 400 ml of conditioned medium) was from human glioblastoma cell cultures, but the same procedure allowed us to purify and characterize the rat hexabrachion. Protein purified from primary cultures of rat embryo fibroblasts showed approximately equal amounts of three subunit sizes: 280, 230, and 220 kDa. These different subunits, presumably derived from alternative RNA splicing, appeared to be segregated into large and small hexabrachions, which could be separated on glycerol gradients.