Role of Sequence Variations in AhR Gene Towards Modulating Smoking Induced Lung Cancer Susceptibility in North Indian Population: A Multiple Interaction Analysis
Background: AhR, a ubiquitously expressed ligand-activated transcription factor, upon its encounter with the foreign ligands activates the transcriptional machinery of genes encoding for biotransformation enzymes like CYP1A1 hence, mediating the metabolism of Poly aromatic hydrocarbons and nitrosami...
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| Published in | Current genomics Vol. 19; no. 4; pp. 313 - 326 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United Arab Emirates
Bentham Science Publishers Ltd
01.05.2018
Benham Science Publishers Bentham Science Publishers |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Background: AhR, a ubiquitously expressed ligand-activated transcription factor, upon its
encounter with the foreign ligands activates the transcriptional machinery of genes encoding for
biotransformation enzymes like CYP1A1 hence, mediating the metabolism of Poly aromatic hydrocarbons
and nitrosamines which account for the maximally found carcinogen in cigarette smoke. Polymorphic
variants of AhR play a significant role and are held responsible for disposing the individuals
with greater chances of acquiring lung cancer.
Objective: To study the role of AhR variants (rs2282885, rs10250822, rs7811989, rs2066853) in affecting
lung cancer susceptibility.
Methods: 297 cases and 320 controls have been genotyped using PCR-RFLP technique. In order to
find out the association, unconditional logistic regression approach was used. To analyze high order
interactions Multifactor Dimensionality Reduction and Classification and regression tree was used.
Results: Subjects carrying the variant genotype for AhR rs7811989 showed a two-fold risk (p=0.007)
and a marginal risk was also seen in case of individuals carrying either single or double copy of susceptible
allele for rs102550822 (p=0.02). Whereas the variant allele for rs2066853 showcased a strong
protective effect (p=0.003). SQCC individuals with mutant genotype of rs2066853 also exhibited a
protective effect towards lung cancer (OR=0.30, p=0.0013). The association of rs7811989 mutant
genotype and rs10250822 mutant genotype was evident especially in smokers as compared to nonsmokers.
AhR rs2066853 showed a decreased risk in smokers with mutant genotype (p=0.002). MDR
approach gave the best interaction model of AhR rs2066853 and smoking (CVC=10/10, prediction error=
0.42).
Conclusion: AhR polymorphic variations can significantly contribute towards lung cancer predisposition. |
|---|---|
| AbstractList | Background: AhR, a ubiquitously expressed ligand-activated transcription factor, upon its
encounter with the foreign ligands activates the transcriptional machinery of genes encoding for
biotransformation enzymes like CYP1A1 hence, mediating the metabolism of Poly aromatic hydrocarbons
and nitrosamines which account for the maximally found carcinogen in cigarette smoke. Polymorphic
variants of AhR play a significant role and are held responsible for disposing the individuals
with greater chances of acquiring lung cancer.
Objective: To study the role of AhR variants (rs2282885, rs10250822, rs7811989, rs2066853) in affecting
lung cancer susceptibility.
Methods: 297 cases and 320 controls have been genotyped using PCR-RFLP technique. In order to
find out the association, unconditional logistic regression approach was used. To analyze high order
interactions Multifactor Dimensionality Reduction and Classification and regression tree was used.
Results: Subjects carrying the variant genotype for AhR rs7811989 showed a two-fold risk (p=0.007)
and a marginal risk was also seen in case of individuals carrying either single or double copy of susceptible
allele for rs102550822 (p=0.02). Whereas the variant allele for rs2066853 showcased a strong
protective effect (p=0.003). SQCC individuals with mutant genotype of rs2066853 also exhibited a
protective effect towards lung cancer (OR=0.30, p=0.0013). The association of rs7811989 mutant
genotype and rs10250822 mutant genotype was evident especially in smokers as compared to nonsmokers.
AhR rs2066853 showed a decreased risk in smokers with mutant genotype (p=0.002). MDR
approach gave the best interaction model of AhR rs2066853 and smoking (CVC=10/10, prediction error=
0.42).
Conclusion: AhR polymorphic variations can significantly contribute towards lung cancer predisposition. AhR, a ubiquitously expressed ligand-activated transcription factor, upon its encounter with the foreign ligands activates the transcriptional machinery of genes encoding for bio-transformation enzymes like CYP1A1 hence, mediating the metabolism of Poly aromatic hydrocarbons and nitrosamines which account for the maximally found carcinogen in cigarette smoke. Polymorphic variants of AhR play a significant role and are held responsible for disposing the individuals with greater chances of acquiring lung cancer. To study the role of AhR variants (rs2282885, rs10250822, rs7811989, rs2066853) in affect-ing lung cancer susceptibility. 297 cases and 320 controls have been genotyped using PCR-RFLP technique. In order to find out the association, unconditional logistic regression approach was used. To analyze high order in-teractions Multifactor Dimensionality Reduction and Classification and regression tree was used. Subjects carrying the variant genotype for AhR rs7811989 showed a two-fold risk (p=0.007) and a marginal risk was also seen in case of individuals carrying either single or double copy of suscep-tible allele for rs102550822 (p=0.02). Whereas the variant allele for rs2066853 showcased a strong pro-tective effect (p=0.003). SQCC individuals with mutant genotype of rs2066853 also exhibited a protec-tive effect towards lung cancer (OR=0.30, p=0.0013). The association of rs7811989 mutant genotype and rs10250822 mutant genotype was evident especially in smokers as compared to non-smokers. AhR rs2066853 showed a decreased risk in smokers with mutant genotype (p=0.002). MDR approach gave the best interaction model of AhR rs2066853 and smoking (CVC=10/10, prediction error=0.42). AhR polymorphic variations can significantly contribute towards lung cancer predisposi-tion. AhR, a ubiquitously expressed ligand-activated transcription factor, upon its encounter with the foreign ligands activates the transcriptional machinery of genes encoding for bio-transformation enzymes like CYP1A1 hence, mediating the metabolism of Poly aromatic hydrocarbons and nitrosamines which account for the maximally found carcinogen in cigarette smoke. Polymorphic variants of AhR play a significant role and are held responsible for disposing the individuals with greater chances of acquiring lung cancer.BACKGROUNDAhR, a ubiquitously expressed ligand-activated transcription factor, upon its encounter with the foreign ligands activates the transcriptional machinery of genes encoding for bio-transformation enzymes like CYP1A1 hence, mediating the metabolism of Poly aromatic hydrocarbons and nitrosamines which account for the maximally found carcinogen in cigarette smoke. Polymorphic variants of AhR play a significant role and are held responsible for disposing the individuals with greater chances of acquiring lung cancer.To study the role of AhR variants (rs2282885, rs10250822, rs7811989, rs2066853) in affect-ing lung cancer susceptibility.OBJECTIVETo study the role of AhR variants (rs2282885, rs10250822, rs7811989, rs2066853) in affect-ing lung cancer susceptibility.297 cases and 320 controls have been genotyped using PCR-RFLP technique. In order to find out the association, unconditional logistic regression approach was used. To analyze high order in-teractions Multifactor Dimensionality Reduction and Classification and regression tree was used.METHODS297 cases and 320 controls have been genotyped using PCR-RFLP technique. In order to find out the association, unconditional logistic regression approach was used. To analyze high order in-teractions Multifactor Dimensionality Reduction and Classification and regression tree was used.Subjects carrying the variant genotype for AhR rs7811989 showed a two-fold risk (p=0.007) and a marginal risk was also seen in case of individuals carrying either single or double copy of suscep-tible allele for rs102550822 (p=0.02). Whereas the variant allele for rs2066853 showcased a strong pro-tective effect (p=0.003). SQCC individuals with mutant genotype of rs2066853 also exhibited a protec-tive effect towards lung cancer (OR=0.30, p=0.0013). The association of rs7811989 mutant genotype and rs10250822 mutant genotype was evident especially in smokers as compared to non-smokers. AhR rs2066853 showed a decreased risk in smokers with mutant genotype (p=0.002). MDR approach gave the best interaction model of AhR rs2066853 and smoking (CVC=10/10, prediction error=0.42).RESULTSSubjects carrying the variant genotype for AhR rs7811989 showed a two-fold risk (p=0.007) and a marginal risk was also seen in case of individuals carrying either single or double copy of suscep-tible allele for rs102550822 (p=0.02). Whereas the variant allele for rs2066853 showcased a strong pro-tective effect (p=0.003). SQCC individuals with mutant genotype of rs2066853 also exhibited a protec-tive effect towards lung cancer (OR=0.30, p=0.0013). The association of rs7811989 mutant genotype and rs10250822 mutant genotype was evident especially in smokers as compared to non-smokers. AhR rs2066853 showed a decreased risk in smokers with mutant genotype (p=0.002). MDR approach gave the best interaction model of AhR rs2066853 and smoking (CVC=10/10, prediction error=0.42).AhR polymorphic variations can significantly contribute towards lung cancer predisposi-tion.CONCLUSIONAhR polymorphic variations can significantly contribute towards lung cancer predisposi-tion. Background: AhR, a ubiquitously expressed ligand-activated transcription factor, upon its encounter with the foreign ligands activates the transcriptional machinery of genes encoding for biotransformation enzymes like CYP1A1 hence, mediating the metabolism of Poly aromatic hydrocarbons and nitrosamines which account for the maximally found carcinogen in cigarette smoke. Polymorphic variants of AhR play a significant role and are held responsible for disposing the individuals with greater chances of acquiring lung cancer. Objective: To study the role of AhR variants (rs2282885, rs10250822, rs7811989, rs2066853) in affecting lung cancer susceptibility. Methods: 297 cases and 320 controls have been genotyped using PCR-RFLP technique. In order to find out the association, unconditional logistic regression approach was used. To analyze high order interactions Multifactor Dimensionality Reduction and Classification and regression tree was used. Results: Subjects carrying the variant genotype for AhR rs7811989 showed a two-fold risk (p=0.007) and a marginal risk was also seen in case of individuals carrying either single or double copy of susceptible allele for rs102550822 (p=0.02). Whereas the variant allele for rs2066853 showcased a strong protective effect (p=0.003). SQCC individuals with mutant genotype of rs2066853 also exhibited a protective effect towards lung cancer (OR=0.30, p=0.0013). The association of rs7811989 mutant genotype and rs10250822 mutant genotype was evident especially in smokers as compared to nonsmokers. AhR rs2066853 showed a decreased risk in smokers with mutant genotype (p=0.002). MDR approach gave the best interaction model of AhR rs2066853 and smoking (CVC=10/10, prediction error= 0.42). Conclusion: AhR polymorphic variations can significantly contribute towards lung cancer predisposition. |
| Author | Charu Bahl Sneha Budhwar Siddharth Sharma Digambar Behera Navneet Singh |
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| CitedBy_id | crossref_primary_10_1016_j_humpath_2022_02_001 crossref_primary_10_1007_s11033_022_07945_6 crossref_primary_10_1016_j_jneuroim_2019_576979 crossref_primary_10_1016_j_semcdb_2019_09_001 crossref_primary_10_1093_carcin_bgac007 crossref_primary_10_1186_s12199_020_00907_z crossref_primary_10_3892_ol_2024_14772 crossref_primary_10_3389_fimmu_2022_823863 crossref_primary_10_1016_j_tox_2023_153596 |
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| Keywords | Aryl hydrocarbon receptor Lung cancer Predisposition AhR variants Polymorphism Smoking |
| Language | English |
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| Snippet | Background: AhR, a ubiquitously expressed ligand-activated transcription factor, upon its
encounter with the foreign ligands activates the transcriptional... AhR, a ubiquitously expressed ligand-activated transcription factor, upon its encounter with the foreign ligands activates the transcriptional machinery of... Background: AhR, a ubiquitously expressed ligand-activated transcription factor, upon its encounter with the foreign ligands activates the transcriptional... |
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| SubjectTerms | AhR gene Alleles Aromatic hydrocarbons Biotransformation Cancer Carcinogens Cigarette smoke Cytochrome P450 Genotype & phenotype Genotypes Hydrocarbons Interaction models Ligands Lung cancer Machinery and equipment Metabolism Mutants Nitrosamines Polymerase chain reaction Regression analysis Restriction fragment length polymorphism Risk Risk reduction Smoke Smoking |
| Title | Role of Sequence Variations in AhR Gene Towards Modulating Smoking Induced Lung Cancer Susceptibility in North Indian Population: A Multiple Interaction Analysis |
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