髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

髓过氧化物酶和过氧化氢酶基因多态性及其酶活力与燃煤污染型地方性砷中毒关系的探讨

Objective To detect genetic polymorphism of myeloperoxidase (MPO) gene and catalase (CAT) gene and their activities, and to analyze their relationship with arsenic poisoning caused by coal-burning. Methods One hundred and thirty arsenic poisoning patients were chosen as case group in Jiaole Village, Xingren County, Guizhou Province(an endemic area). One hundred and forty healthy residents living in 13 km away were chosen as control group. Their blood was collected. Polymerase chain reaction-restriction fragment length polymorphism technique(PCR-RFLP) was used to detect polymorphism of MPO-463G/A and CAT-262C/T. Ultraviolet spectmphotometer method was used to detect myeloperoxidase activity. Chromatometry method was used to detect catalase activity. Results The genotype frequency of MPO-463G/A at GG, GA, AA site was 47.24%(60/127), 44.09%(56/127),8.67% (11/127) in case group and 42.34% (58/137),48.17% (66/137)1,9.49% (13/137) in control group, respectively. The difference between the two groups was not significant(χ2 = 0.642, P > 0.05). The genotype frequency of CAT-262C/T, at CC, CT, TT site was 65.60%(82/125),28.80%(36/125),5.60%(7/125) in case group and 76.51%(101/132), 18.94% (25/132) ,4.55% (6/132) in control group, respectively, without significant difference (χ2 =3.845, P>0.05). The relationship between polymorphism of MPO-463G/A and CAT-262C/T and the risk of arsenic poisoning was not found in this study(ORadj= 1.36, 95%CI: 0.74-2.50 for MPO; ORadj=1.35, 95%CI: 0.69-2.63 for CAT). The activities of MPO and CAT were (25.30±8.70)U/L and (2.80± 1.09)×103 U/L in case group, while (22.76±7.59)U/L and (3.90±1.01)×103U/L in control group with a significant difference(F=0.760 for MPO, F=0.855 for CAT, all P < 0.05). The genotype of MPO-463G/A and CAT-262C/T was not found to have relationship with the activities of MPO, CAT(F=1.312,2.822 for MPO; F= 0.151,0.036 for CAT, P>0.05). Conclusions Genetic polymorphism of MPO-463G/A and CAT-262C/T is not found to have relationship with arsenic poisoning. Arsenic can lead to the change of MPO and CAT activity, which, however, may not be affected by MPO-463G/A and CAT-262C/T polymorphism.     

过氧化氢酶基因-262C/T及-21A/T多态性与燃煤型氟中毒相关性的研究

目的 探讨过氧化氢酶(CAT)基因启动子区-262C/T、-21A/T多态性与燃煤型氟中毒之间的关系.方法 2007年,在贵州省毕节市鸭池镇燃煤型氟中毒非改灶村抽取150名村民作为非干预组,于该市长春镇燃煤型氟中毒改灶村抽取150名村民作为干预组,于非地方性氟中毒长顺县白云山镇抽取150名村民作对照组,应用聚合酶链反应限制性片段长度多态性(PCR-RFLP)分析方法,分别检测各组CAT-262C/T、-21A/T多态的基因型.结果 非干预组、干预组和对照组CAT-262C/T、CAT-21A/T多态的基因型频率分布符合Hardy-weinberg遗传平衡定律(P＞0.05).在研究人群中检测到CAT-262C/T多态的两种基因型CC和CT,未检测到TT基因型;检测到CAT-21A/T多态的三种基因型AA、AT和TT.对照组、干预组和非干预组CAT基因-262C/T多态位点的基因型(CC、CT)频率分别为89.33%(134/150)、10.67%(16/150)、88.67%(133/150)、11.33%(17/150)、9333%(140/150)、6.67%(10/150);对照组、干预组和非干预组C等位基因频率分别为94.67%(284/300)、94.33%(283/300)、96.67%(290/300);T等位基因频率分别为5.33%(16/300)、5.67%(17/300)、3.33%(10/300).对照组,干预组和非干预组CAT基因-21A/T多态位点基因型(AA、AT、TT)频率分别为48.67%(73/150)、46.00%(69/150)、5.33%(8/150)、52.67%(79/150)、38.00%(57/150)、9.33%(14/150)、51.33%(77/150)、38.00%(57/150)、10.67%(16/150);对照组、干预组和非干预组A等位基因频率分别为71.67%(215/300)、71.67%(215/300)、70.33%(2ll/300);T等位基因频率分别为28.33%(85/300)、28.33%(85/300)、29.67%(89/300).CAT-262C/T和CAT-21A/T基因型频率及等位基因频率在对照组,干预组和非干预组中的分布,组间比较差异均无统计学意义(x2=0.331、0.336,P均＞0.05).结论 CAT基因-262C/T、-21A/T多态性与燃煤型氟中毒无明显的相关性.

Abstract：

Objective To explore the relationship between -262C/T and -21A/T polymorphisms of catalase(CAT) gene and coal-burning borne fluorosis. Methods In 2007, 150 villagers were taken as a nonintervention group in Bijie city from the village of coal-burning borne fluorosis areas with unchanged cooking stoves;150 villagers were taken as the intervention group from the town of Changchun county where cooking stoves changed; 150 villagers were taken as control from non-endemic fluorosis areas in Baiyun town of Changshun county.PCR-restriction fragment length polymorphism were employed to detect genotypes of CAT-262C/T and CAT-21A/T polymorphism of CAT gene. Results The genotypic frequencies of CAT-262C/T and CAT-21A/T in nonintervention group,intervention group and control group were in line with Hardy-Weinberg equilibrium law (P＞ 0.05 ).The genotypes of CC and CT were detected while no TT were detected for CAT-262C/T polymorphism; the genotypes of AA, AT and TT were detected for CAT-21A/T. The genotype frequencies of CAT-262 CC, CT in control group, intervention group and non-intervention group were (89.33%(134/150), 10.67%(16/150); 88.67%(133/150), 11.33% (17/150),93.33% (140/150),6.67% (10/150), respectively. The gene frequency of C in control group, intervention group and non-intervention group were (94.67% (284/300), 94.33% (283/300),96.67%(290/300), respectively. The gene frequency of T in control group, intervention group and non-intervention group were 5.33%(16/300), 5.67%(17/300), 3.33%(10/300), respectively. The genotype frequencies of CAT-21 AA,AT and TT in control group, intervention group and non-intervention group were 48.67%(73/150),46.00%(69/150),5.33%(8/150) ,52.67%(79/150) ,38.00%(57/150) ,9.33% (14/150) ,51.33%(77/150) ,38.00%(57/150), 10.67%(16/150), respectively. The gene frequency of A in control group, intervention group and non-intervention group were 71.67%(215/300),71.67%(215/300),70.33%(211/300), respectively. The gene frequency of T in control group, intervention group and non-intervention group were 28.33% (85/300),28.33% (85/300),29.67% (89/300),respectively. CAT-262C/T and CAT-21A/T genotype and allele frequencies in the control group, the intervention group and non-intervention group showed no significant differences in the distribution(x2= 0.331,0.336, all P ＞0.05 ). Conclusion CAT-262C/T and CAT-21A/T polymorphism is not associated with coal-burning borne fluorosis.     

髓过氧化物酶基因多态性与胃癌易感性的关系

流行病学研究表明髓过氧化物酶（MPO）-463G→A多态性与多种疾病相关.目的：探讨MPO基因多态性与胃癌易感性之间的关系.方法：应用PCR-RFLP检测117例胃癌患者和105例对照者的MPO-463G→A多态性,比较两组MPO基因型频率和等位基因频率,分析MPO基因多态性与胃癌危险性的关系,并行分层分析探讨性别、年龄、吸烟状况、幽门螺杆菌（H.pylori）感染和胃癌家族史对胃癌的影响.结果：胃癌组GA和 AA基因型频率显著低于对照组（GA：25.6%对37.1%,AA：3.4%对11.4%,P〈0.05）,A等位基因频率亦明显降低（16.2%对30.0%,P〈0.05）.与GG基因型患者相比,携带MPO-463GA/AA基因型者罹患胃癌的危险性明显降低（OR=0.43,95% CI：0.25-0.75）.分层分析示男性、年龄≤60岁、不吸烟、H.pylori感染阴性和无胃癌家族史人群携带GA/AA基因型较携带GG基因型者罹患胃癌的危险性降低.结论：MPO基因多态性与胃癌易感性相关,A等位基因对胃癌易感性具有保护作用.     

The Association between Myeloperoxidase-463G/A Gene Polymorphism and Coronary Artery Disease

Objectives To study the relationship between myeloperoxidase （MPO）-463G/A polymorphisms and susceptibility to coronary artery disease （CAD） in Han people of north Anhui province. Methods The case group consisted of 79 patients who had all angiographically proven CAD were retrospectively studied. Used polymerase chain reaction-restriction fragment length polymorphism （PCR-RFLP） methods to decide the genotype of all the patients. Results The frequency of AA homozygotic type in Han people of Anhui province was 1.4%. The risk of CAD for person carrying at least one A allele genotype （ GA and AA） was 0. 37 times of GG genotype. The severity of coronary artery stenosis in CAD patients carrying at least one A allele genotype was 0. 197 times of GG genotype （ P 〈 0. 05 ）. Conclusions The frequency of AA homozygotic type and MPO-463G/A polymorphism in Han people of Anhui province influenced the risk of CAD. A allele had protective function in CAD.     

谷胱甘肽硫转移酶M1和T1基因多态性与燃煤型砷中毒发病的关系

目的探讨谷胱甘肽硫转移酶M1和T1（GSTM1、GSTT1）基因多态性与燃煤污染型砷中毒发病风险的关系。方法采用多重等位基因特异聚合酶链反应技术检测贵州省130名燃煤型砷中毒患者及140名健康个体的GSTM1和GSTT1基因多态性，并分析不同基因型与砷中毒发病的关系。结果砷中毒病例组和对照组GSTT1纯合缺失基因型（GSTT1^（-/-））的频率分别为58．5％和45．0％，组间比较差异有统计学意义（Х^2=6．246，P〈0．05）；携带GSTT1^（-/-）基因型个体发生砷中毒的风险是携带GSTT1非纯合缺失基因型（GSTT1^（＋/＋）or（-/-））个体的2．18倍[比值比（OR）adj=2．18，95％可信区间（CI）：1．183～4．018]。砷中毒病例组和对照组间GSTM1纯合缺失基因型（GSTM1^（-/-））频率的差异无统计学意义（P〉0．05）。基因型联合分析显示：携带GSTM1^（-/-）和GSTT1^（-/-）联合基因型的个体，其砷中毒的发病风险显著增加（ORadj=2．931，95％CI：1．024～8．387）。结论GSTT1^（-/-）基因型可能是燃煤型砷中毒发生的重要危险内因之一。     

Lack of association of the -463 G/A myeloperoxidase promoter polymorphism with Behcet's disease in Italian patients

OBJECTIVE: To investigate potential associations between the -463 G/A myeloperoxidase (MPO) promoter polymorphism and susceptibility to, and clinical expression of, Beh?et's disease (BD). METHODS: One hundred and seventy-five Italian patients who satisfied the International Study Group criteria for BD and 235 healthy age- and sex-matched blood donors were genotyped for the -463 G/A promoter polymorphism of the MPO gene by molecular methods. The patients were subgrouped according to the presence or absence of clinical manifestations. RESULTS: The distribution of allele and genotype frequencies of the MPO -463A/G polymorphism did not differ significantly between the BD patients and the healthy controls. Carriers of the -463 A allele (A/A or A/G) [odds ratio (OR) 0.7, 95% confidence interval (CI) 0.5-1.1] and homozygosity for A allele (OR 0.3, 95% CI 0.1-1.3) were less frequent among BD patients than among the controls, but the difference was not statistically significant. No significant associations were found when BD patients with and those without clinical manifestations were compared. CONCLUSION: Our data suggest that the -463 G/A promoter polymorphism of the MPO gene is not associated with susceptibility to, and clinical expression of, BD in Italian patients.     

The 262T>C promoter polymorphism of the catalase gene is associated with diabetic neuropathy in type 1 diabetic Russian patients

OBJECTIVE: Oxidative stress plays an important role in the development of diabetic neuropathy (DN). Antioxidant enzymes reduce enhanced oxidative stress in the peripheral nerve. Genetic variations within the antioxidant genes therefore could be implicated in the pathogenesis of DN. METHODS: Using a PCR-RFLP assay, a total of 216 Russian type 1 diabetic (T1D) patients with DN and 250 T1D individuals without DN have been tested to verify whether the -262T > C and 1167C > T polymorphisms of the catalase (CAT), 197Pro > Leu amino acid substitution of the glutathione peroxidase 1 (GPX1) and +/null polymorphism of the glutathione S-transferase M1 (GSTM1) and T1 (GSTT1) genes contribute to susceptibility to DN. RESULTS: Association between the -262T > C polymorphism of the CAT gene and DN was shown. The -262TT genotype of the CAT gene was significantly associated with higher erythrocyte catalase activity in blood of DN patients compared to the -262CC genotype (17.8 +/- 2.7 x 104 IU/g Hb vs. 13.5 +/- 3.2 x 104 IU/g Hb, P = 0.0022). CONCLUSIONS: These data suggest a protective role of the -262T allele of the CAT gene against the rapid development of DN in T1D (Odds Ratio = 0.7 [95% confidence interval 0.54-0.9], P = 0.002).     

Neutrophil myeloperoxidase activity and the influence of two single-nucleotide promoter polymorphisms

Myeloperoxidase (MPO) catalyses the formation of hypochlorous acid and is involved in many (patho)physiological processes. The present study was designed to determine the effect of two MPO promoter polymorphisms (463G/A and 129G/A) on enzyme activity. In 243 healthy controls, genotypes were determined and MPO activity was measured on a single-cell level using a haematological analyser. The 129G/A polymorphism reduces MPO activity in neutrophils, whereas for the 463G/A polymorphism, only gender-dependent differences in MPO activity in older age groups could be found. When studying these polymorphisms in disease, therefore, age and gender should be included in the analysis.     

Functional polymorphism of the myeloperoxidase gene in hypertensive nephrosclerosis dialysis patients.

Myeloperoxidase (MPO) may play an important role not only in host defense reactions but also in local inflammations, especially in atherosclerotic diseases such as hypertensive nephrosclerosis (HN). Paradoxically, MPO-deficient mice have been reported to show increased atherosclerosis compared with wild mice, although higher MPO levels are thought to exacerbate atherosclerotic disease. To clarify the genetic role of MPO in HN, we examined the function and distribution of the -463G/A polymorphism located in the promoter region of the MPO gene with ex vivo flow cytometry analysis and a study in end-stage renal disease patients, respectively. This polymorphism has been reported to have a functional significance in vitro, with the A allele being associated with lower MPO expression. In the present study, we also found significantly higher reactive oxygen species (ROS) production with peripheral neutrophils isolated from subjects with the GG genotype compared with those from subjects with other genotypes by flow cytometry assay with 2-[6-(4'-amino) phenoxy-3H-xanthen-3-on-9-yl] benzoic acid (APF), which shows higher sensitivity with hypochlorite (OCl(-)). Genotyping the -463G/A polymorphism in HN, chronic glomerulonephritis (CGN) and diabetic nephropathy (DM) patients who were under hemodialysis treatment demonstrated that the GG genotype was more frequent in the HN group than in the CGN and DM groups. However, the distribution of the GG genotype in the HN group was similar to that in healthy individuals. Although the -463G/A polymorphism is associated with ROS production, careful interpretation may be required to conclude that the -463G/A polymorphism can serve as a useful marker of atherosclerosis and cardiovascular events in dialysis patients.     

白细胞介素-18启动子-137G/C基因多态性和血浆IL-18含量与急性脑梗死的相关性

目的探讨白细胞介素-18( interleukin-18,IL-18)基因启动子- 137G/C多态性及血浆IL-18含量和脑梗死的相关性。方法入选北方地区汉族急性脑梗死患者218例,以年龄和性别相匹配的218名汉族健康体检者作为对照组。采用酶联免疫吸附法检测血浆IL.-18含量,应用序列特异性引物-聚合酶链反应技术检...