Identification of three novel mutations in hereditary protein S deficiency.

We report the application of single-stranded conformation polymorphism (SSCP) analysis to the screening of 15 functionally important Protein S (PS) gene (PS alpha) regions (4.243 Kb) in 6 unrelated families with PS deficiencies. Direct sequencing of the fragments with altered migration patterns led to the identification of the corresponding molecular alterations. A missense mutation, G to T transversion at codon Cys598, and two different alterations, leading either to allelic exclusion, or premature termination of the protein translation: a G to A transition at codon Trp465 and a 1 nt (T) insertion at codon 265, were identified. The 1 nt insertion was observed in three apparently unrelated families but with a common geographical origin and the mutated allele was undetectable in platelet mRNAs of affected individuals. Family analysis confirmed, in each case, a perfect cosegregation of the mutation with the PS deficiency. We conclude that these alterations represent the causative mutations.

Changes in antigen expression on differentiating HL60 cells treated with dimethylsulphoxide, all-trans retinoic acid, alpha1,25-dihydroxyvitamin D3 or 12-O-tetradecanoyl phorbol-13-acetate.

We describe changes in antigen expression on HL60 cells with differentiation into granulocytes induced by all-trans retinoic acid (ATRA) or dimethylsulphoxide (DMSO), into monocytes by alpha1,25-dihydroxyvitamin D3 (D3), or into macrophages by 12-O-tetradecanoyl phorbol-13-acetate (TPA). Undifferentiated cells expressed CD13, CD14 (at a low level), CD15, CDw17, CD32, CD33, CD49e, CD63, CD64, CDw65, CD71 and CD87 antigens and bound the unclustered mAb D171 and Mo5. Differentiated and undifferentiated cells were negative for CD16, CD34, CD61, CD66abcde, CD68, CD88, CDw90 and CD93. Four panels of markers were identified whose expression changes significantly following differentiation. CD15, CD49e, CD63, CDw65, CD71 and mAb D171 and IGR-2,1A6 for DMSO; CD13, CD15, CDw17, CD49e, CD63, CDw65, CD71, CD87, CDw92 and mAb D171 and IGR-2,1A6 for ATRA; CD14, CD31, CD35, CD71, CD87, CDw92 and mAb D171 and BRIC18 for D3; CDw12, CD13, CD15, CD31, CD35, CD49e, CD71, CD87, CDw92 and mAb D171 for TPA. These will be useful for analyzing the pathways that regulate differentiation, whether the observed changes are consequences of differentiation or more direct effects of the inducers. HL60 cells provide a model for investigating the regulation of these antigens.