Mutagenesis studies imply a role for RKH and Y₅motifs in platelet activation by PA clones. (A) HCDR3 sequences of clones studied. Critical amino acids in RKH and Y₅ motifs are bolded. (B) Ala substitution for basic amino acids at positions 106, 109, and 112 of the RKH motif in PA clone HIT1P4B1 impaired its ability to bind PF4/H and to activate PF4-treated platelets. (C) Ala substitutions at positions 116 to 118 and 116 to 121 of the Y₅ motif of PA clone HIT1P3D4 impaired its ability to bind to PF4/H and to activate PF4-treated platelets. (D) An R106K substitution in PA clone HIT2P4D5 abolished its ability to activate PF4-treated platelets but had only minimal effect on PF4/H binding. (E) A K106R substitution in NA clone HIT2P4D2 conferred platelet-activating function on the clone, while preserving PF4/H binding. (F) A D110A substitution in NA clone HIT5P7B10 significantly enhanced its platelet-activating ability and markedly increased its avidity for PF4/H. Concentrations of clonal IgG used in each reaction mixture are shown beneath B through F. Data shown are representative of 3 independent experiments for each clone and its mutant. Error bars represent mean ± SD of 2 replicates within each experiment. P values were calculated by 2-way analysis of variance. ∗P < .05, ∗∗P < .01, ∗∗∗P < .001, and ∗∗∗∗P < .0001.