Preparation and crystal structure of the recombinant α1/α2 catalytic heterodimer of bovine brain platelet-activating factor acetylhydrolase Ib

Abstract

The intracellular form of mammalian platelet activating factor acetylhydrolase found in brain (PAF-AH Ib) is thought to play a critical role in control in neuronal migration during cortex development. This oligomeric complex consists of a homodimer of the 45 kDa (β) LIS1 protein, the product of the causative gene for type I lissencephaly, and, depending on the developmental stage and species, one of three possible pairs of two homologous ~26 kDa α-subunits, which harbor all of the catalytic activity. The exact composition of this complex depends on the expression patterns of the α₁ and α₂ genes, exhibiting tissue specificity and developmental control. All three possible dimers (α₁/α₁, α₁/α₂ and α₂/α₂) were identified in tissues. The α₁/α₂ heterodimer is thought to play an important role in fetal brain. The structure of the α₁/α₁ homodimer was solved earlier in our laboratory at 1.7 Å. We report here the preparation of recombinant α₁/α₂ heterodimers using a specially constructed bi-cistronic expression vector. The approach may be useful in studies of other systems where pure heterodimers of recombinant proteins are required. The α₁/α₂ dimer has been crystallized and its structure was solved at 2.1 Å resolution by molecular replacement. These results set the stage for a detailed characterization of the PAF-AH Ib complex.