Development of a recombinant bacterial expression system for the active form of a human transforming growth factor beta type II receptor ligand binding domain.

Expression systems have been designed to test the suitability of expressing the high cysteine containing extracellular domain (residues 1-136) of human transforming growth factor beta type II receptor (TbetaRII). Receptor expressed using a baculovirus system was functional following both enzymatic deglycosylation and elimination of the N-terminal 22 amino acids by protease degradation. Bacterial expression of a TbetaRII lacking the 26 N-terminal amino acids retained the ability to bind its ligand, TGF-beta1. Receptor expressed in bacteria was sensitive to proteolytic degradation at residue Lys98 but a K98T mutation eliminated degradation and did not disrupt binding. Although several different forms of TbetaRII were expressed, only a fusion with glutathione S-transferase gave soluble TbetaRII, which was purified at a yield of 0.1 mg/10 L of bacterial growth. N-Terminal truncations of TbetaRII (residues 22-136 or 27-136) could be refolded from inclusion bodies and purified to an active form with an efficiency of 10%.

Reconstitution of bacterial expressed human CD94: the importance of the stem region for dimer formation.

Human CD94 is a subunit of the disulfide-linked, heterodimeric natural killer (NK) cell surface receptor CD94/NKG2. This receptor, a member of the C-type lectin superfamily, participates in regulating NK cell directed lysis through interaction with the major histocompatibility antigen HLA-E. Two forms of CD94 were expressed using a bacterial expression system and refolded in vitro. One form, residues 34-179, designated S34, corresponds to the entire extracellular region of the receptor, including a 23-residue stem region, and the other, residues 51-179, designated E51, corresponds only to the putative carbohydrate recognition domain of the receptor. The refolded full-length S34 protein existed as a noncovalent dimer initially but formed an interchain disulfide bond upon storage for several months. In contrast, the stemless construct, E51, existed largely as a monomeric form. The stem region of S34, residues 34-56, is sensitive to proteolysis and its absence results in dissociation of the dimer. This suggests that the residues in the stem region of CD94 help to stabilize the dimeric conformation.

Structure of CD94 reveals a novel C-type lectin fold: implications for the NK cell-associated CD94/NKG2 receptors.

The crystal structure of the extracellular domain of CD94, a component of the CD94/NKG2 NK cell receptor, has been determined to 2.6 A resolution, revealing a unique variation of the C-type lectin fold. In this variation, the second alpha helix, corresponding to residues 102-112, is replaced by a loop, the putative carbohydrate-binding site is significantly altered, and the Ca2+-binding site appears nonfunctional. This structure may serve as a prototype for other NK cell receptors such as Ly-49, NKR-P1, and CD69. The CD94 dimer observed in the crystal has an extensive hydrophobic interface that stabilizes the loop conformation of residues 102-112. The formation of this dimer reveals a putative ligand-binding region for HLA-E and suggests how NKG2 interacts with CD94.

Specific recognition of HLA-E, but not classical, HLA class I molecules by soluble CD94/NKG2A and NK cells.

The CD94/NKG2 receptors expressed by subpopulations of NK cells and T cells have been implicated as receptors for a broad range of both classical and nonclassical HLA class I molecules. To examine the ligand specificity of CD94/NKG2 proteins, a soluble heterodimeric form of the receptor was produced and used in direct binding studies with cells expressing defined HLA class I/peptide complexes. We confirm that CD94/NKG2A specifically interacts with HLA-E and demonstrate that this interaction is dependent on the association of HLA-E with peptide. Moreover, no interaction between CD94/NKG2A and classical HLA class I molecules was observed, as assayed by direct binding of the soluble receptor or by functional assays using CD94/NKG2A+ NK cells. The role of the peptide associated with HLA-E in the interaction between HLA-E and CD94/NKG2A was also assessed. All class I leader sequence peptides tested bound to HLA-E and were recognized by CD94/NKG2A. However, amino acid variations in class I leader sequences affected the stability of HLA-E. Additionally, not all HLA-E/peptide complexes examined were recognized by CD94/NKG2A. Thus CD94/NKG2A recognition of HLA-E is controlled by peptide at two levels; first, peptide must stabilize HLA-E and promote cell surface expression, and second, the HLA-E/peptide complex must form the ligand for CD94/NKG2A.

Effect of mutations causing overexpression of RNA polymerase alpha subunit on regulation of virulence factors in Bordetella pertussis.

In Bordetella pertussis, expression of virulence factors is controlled by the Bvg proteins, which comprise a sensor-regulator two-component signal transduction system. Previously, we described a mutant strain of B. pertussis that had reduced transcription of pertussis toxin and adenylate cyclase toxin genes, while other virulence factors were relatively unaffected. We obtained a B. pertussis clone that repaired the defect in both this strain and an independent mutant strain with a similar phenotype when introduced onto the chromosome by allelic exchange. Further analysis revealed that the mutations were just upstream of the translational start site of the rpoA gene encoding the alpha subunit of RNA polymerase. We confirmed that these mutations were responsible for the mutant phenotype by site-directed mutagenesis. Our hypothesis that these mutations cause an overexpression of rpoA was confirmed by Western immunoblotting and translational fusion analysis. Corroboration of this effect was obtained by overexpressing rpoA on a plasmid in wild-type B. pertussis, which caused the same phenotype as the mutants showed. Conclusions in regard to the identity of the transcription activator of the toxin genes are discussed.