Recently, genome wide association studies showed that there is a strong association between abacavir-induced serious, idio- syncratic, adverse drag reactions (ADRs) and human leukocyte antigen-B*5701 (HLA-B*5701...Recently, genome wide association studies showed that there is a strong association between abacavir-induced serious, idio- syncratic, adverse drag reactions (ADRs) and human leukocyte antigen-B*5701 (HLA-B*5701). Studies also found that ab- acavir-induced ADRs were seldom observed in patients carrying the HLA-B*5801 subtype. HLA-B*5801 of the same sero- type (B17) as B*5701 differs by only 4 amino acids from B'5701. It is believed that because of these sequence differences, HLA-B*5801 cannot bind the specific peptides which are required for HLA-B*5701 to stimulate the T cell immune response. Thus, the difference in peptide binding profiles between HLA-B*5701 and B*5801 is an important clue for exploring the mechanisms of abacavir-induced ADRs. VHSE (principal component score vector of hydrophobic, steric, and electronic prop- erties), a set of amino acid structural descriptors, was employed to establish QSAR models of peptide-binding affinities of HLA-B*5701 and B*5801. Optimal linear SVM (support vector machine) models with high predictive capabilities were ob- tained for both B*5701 and B'5801. The R2 (coefficient of determination), Q2 (cross-validated R:), and RpRE2 (R2 of test set) of two optimal models were 0,7530, 0.7037, 0.6153 (B'5701) and 0.6074, 0.5966, 0.5762 (B*5801), respectively. For B'5701 and B'5801, the mutations in positions 45 (MET-THR) and 46 (ALA-GLU) have little influence on the selection specificity of the P2 position of the bound peptide. However, the mutation in position 97 (VAL-ARG) greatly influences the selection speci- ficity of the P7 position. HLA-B*5701 prefers the bulky and positively charged amino acids at the P7 position. In contrast, HLA-B*5801 prefers the non-polar hydrophobic amino acids at the P7 position while positively charged amino acids are un- favored.展开更多
基金supported by the National Natural Science Foundation of China (Grant No. 61073135)Chongqing Natural Science Foundation(Grant No. CSTC, 2009BA5068)
文摘Recently, genome wide association studies showed that there is a strong association between abacavir-induced serious, idio- syncratic, adverse drag reactions (ADRs) and human leukocyte antigen-B*5701 (HLA-B*5701). Studies also found that ab- acavir-induced ADRs were seldom observed in patients carrying the HLA-B*5801 subtype. HLA-B*5801 of the same sero- type (B17) as B*5701 differs by only 4 amino acids from B'5701. It is believed that because of these sequence differences, HLA-B*5801 cannot bind the specific peptides which are required for HLA-B*5701 to stimulate the T cell immune response. Thus, the difference in peptide binding profiles between HLA-B*5701 and B*5801 is an important clue for exploring the mechanisms of abacavir-induced ADRs. VHSE (principal component score vector of hydrophobic, steric, and electronic prop- erties), a set of amino acid structural descriptors, was employed to establish QSAR models of peptide-binding affinities of HLA-B*5701 and B*5801. Optimal linear SVM (support vector machine) models with high predictive capabilities were ob- tained for both B*5701 and B'5801. The R2 (coefficient of determination), Q2 (cross-validated R:), and RpRE2 (R2 of test set) of two optimal models were 0,7530, 0.7037, 0.6153 (B'5701) and 0.6074, 0.5966, 0.5762 (B*5801), respectively. For B'5701 and B'5801, the mutations in positions 45 (MET-THR) and 46 (ALA-GLU) have little influence on the selection specificity of the P2 position of the bound peptide. However, the mutation in position 97 (VAL-ARG) greatly influences the selection speci- ficity of the P7 position. HLA-B*5701 prefers the bulky and positively charged amino acids at the P7 position. In contrast, HLA-B*5801 prefers the non-polar hydrophobic amino acids at the P7 position while positively charged amino acids are un- favored.
