Allele-dependent transcriptional regulation of the human integrin α2 gene

Abstract

Genetically controlled variation in α₂β₁ expression by human blood platelets was previously described. Sixty-two haplotype sequences corresponding to the proximal 5′ regulatory region (−1096 to +1) of the α₂ gene were compared, and a dimorphic sequence −52C>T was identified that is located precisely between 2 tandem Sp1/Sp3 binding elements previously shown to be absolutely required for transcriptional activity of this gene in epithelial cell lines and the erythroleukemic cell line K562. The gene frequency of −52T in a random Caucasian population is approximately 0.35, and the expression of −52T correlates directly with reduced densities of platelet α₂β₁. In mobility shift analyses, the −52T substitution attenuates complex formation with both Sp1 and Sp3. When transfected into the erythroleukemia cell line Dami, promoter-luciferase constructs bearing the −52T sequence exhibit a 5-fold decrease in activity relative to the −52C construct. In transfected CHRF-288-11 megakaryocytic cells, the corresponding activity decreases by 10-fold. The −52T sequence appears to be in linkage disequilibrium with the previously defined allele A3 (807C; HPA-5b), known to be associated with diminished expression of platelet α₂β₁. In summary, a natural dimorphism has been identified within the proximal 5′ regulatory region of the human integrin α₂ gene that is responsible for decreased expression levels of the integrin α₂β₁ on blood platelets through a mechanism that is probably mediated by the nuclear regulatory proteins Sp1 and Sp3.