Functional analysis of splicing mutations and of an exon 2 polymorphic variant ofSERPING1/C1NH

Abstract
Several sequence changes have been reported in hereditary angioedema patients in intron 2 of the SERPING1/C1NH gene, but their consequences on splicing have not been determined. We examined in cell transfection assays the consequences at the mRNA level of splicing mutations affecting either the +3 or the +5 donor site positions, or the conserved canonical splicing signals of exon 2, using mutant C1 inhibitor minigene constructs. Both intron 2 mutations, c.51+3A>G and c.51+5G>A, resulted in marked exon 2 skipping in these assays, but also yielded a large fraction of normal transcripts. We show that the c.51+3A>G mutation cosegregates with low C1 inhibitor protein levels in one family. Moreover, the second base of exon 2 of the SERPING1/C1NH gene is the site of a polymorphic variant, which has been proposed as a modifier of disease severity. We found that the c.-21C allele at this position yields low but significant levels of exon 2 skipping in transfected Hep G2 or Hep 3B cells, suggesting that this allele may contribute, at the RNA level, to more severe forms of angioedema. Furthermore, we describe a previously not detected alternative splicing of exon 3, found in peripheral blood cell mRNA but not in the liver or in hepatoma cell lines and we show that, in cultured monocytes of a patient carrying the c.51+3A>G mutation, this alternative splicing is shifted from exon 3 exclusion to skipping of both exons 2 and 3. The latter finding suggests that mutations affecting splicing of exon 2 of the SERPING1/C1NH gene may have different consequences in monocytes versus other cell types.