BACKGROUND: Antitumour necrosis factor (anti-TNF)-α agents can be used successfully to treat patients with psoriasis and other inflammatory diseases. However, very few studies have examined the relationship between TNF-α polymorphisms and the response to anti-TNF-α agents. OBJECTIVES: To study the association of single nucleotide polymorphisms (SNPs) of the TNF-α promoter and IL12B/IL23R genes with the response to anti-TNF-α in patients with psoriasis. METHODS: SNPs for the TNF-α promoter and IL12B/IL23R genes, and the presence of the HLA-Cw6 haplotype were genotyped for 109 patients. We studied the association between these SNPs and the efficacy of treatment at 3 and 6 months [Psoriasis Area and Severity Index (PASI) and body surface area (BSA)]. RESULTS: Patients with the TNF-α-238GG genotype more frequently achieved a PASI75 at 6 months (82·5% vs. 58·8%, P = 0·049). At 6 months, patients with the TNF-α-857CT/TT genotypes showed greater improvements in PASI score and BSA (83·1% vs. 92·7%, P = 0·004; 82·7% vs. 92·6%, P = 0·009) and more frequently achieved PASI75 (71·4% vs. 96·3%, P = 0·006). More patients with the TNF-α-1031TT genotype achieved PASI75 at 3 months (90·8 vs. 75·7, P = 0·047) and 6 months (85·5% vs. 65·7%, P = 0·038) and demonstrated superior improvements in PASI at 6 months (89·9% vs. 78·7%, P = 0·041). Patients with the IL23R-GG genotype (rs11209026) achieved PASI90 at 6 months more frequently (66·3% vs. 0, P = 0·006) and the improvement of the PASI score was also greater (86·8% vs. 67·8%, P = 0·013). Patients with the HLA-Cw6 haplotype showed poorer response than those without this haplotype. CONCLUSION: This study identified a relationship between certain TNF-α and IL12B/IL23R polymorphisms and the short-term response to anti-TNF-α drugs. If these results are confirmed, this information will allow for stratified consent with more accurate prediction of response/personalized choice of treatment hierarchy for the patient.
BACKGROUND: Antitumour necrosis factor (anti-TNF)-α agents can be used successfully to treat patients with psoriasis and other inflammatory diseases. However, very few studies have examined the relationship between TNF-α polymorphisms and the response to anti-TNF-α agents. OBJECTIVES: To study the association of single nucleotide polymorphisms (SNPs) of the TNF-α promoter and IL12B/IL23R genes with the response to anti-TNF-α in patients with psoriasis. METHODS: SNPs for the TNF-α promoter and IL12B/IL23R genes, and the presence of the HLA-Cw6 haplotype were genotyped for 109 patients. We studied the association between these SNPs and the efficacy of treatment at 3 and 6 months [Psoriasis Area and Severity Index (PASI) and body surface area (BSA)]. RESULTS:Patients with the TNF-α-238GG genotype more frequently achieved a PASI75 at 6 months (82·5% vs. 58·8%, P = 0·049). At 6 months, patients with the TNF-α-857CT/TT genotypes showed greater improvements in PASI score and BSA (83·1% vs. 92·7%, P = 0·004; 82·7% vs. 92·6%, P = 0·009) and more frequently achieved PASI75 (71·4% vs. 96·3%, P = 0·006). More patients with the TNF-α-1031TT genotype achieved PASI75 at 3 months (90·8 vs. 75·7, P = 0·047) and 6 months (85·5% vs. 65·7%, P = 0·038) and demonstrated superior improvements in PASI at 6 months (89·9% vs. 78·7%, P = 0·041). Patients with the IL23R-GG genotype (rs11209026) achieved PASI90 at 6 months more frequently (66·3% vs. 0, P = 0·006) and the improvement of the PASI score was also greater (86·8% vs. 67·8%, P = 0·013). Patients with the HLA-Cw6 haplotype showed poorer response than those without this haplotype. CONCLUSION: This study identified a relationship between certain TNF-α and IL12B/IL23R polymorphisms and the short-term response to anti-TNF-α drugs. If these results are confirmed, this information will allow for stratified consent with more accurate prediction of response/personalized choice of treatment hierarchy for the patient.
Authors: R Prieto-Pérez; G Solano-López; T Cabaleiro; M Román; D Ochoa; M Talegón; O Baniandrés; J L López-Estebaranz; P de la Cueva; E Daudén; F Abad-Santos Journal: Pharmacogenomics J Date: 2016-09-27 Impact factor: 3.550
Authors: N D Loft; L Skov; L Iversen; R Gniadecki; T N Dam; I Brandslund; H J Hoffmann; M R Andersen; R B Dessau; A C Bergmann; N M Andersen; P S Andersen; S Bank; U Vogel; V Andersen Journal: Pharmacogenomics J Date: 2017-07-11 Impact factor: 3.550
Authors: Lara Gibellini; Sara De Biasi; Elena Bianchini; Regina Bartolomeo; Antonella Fabiano; Marco Manfredini; Federica Ferrari; Giuseppe Albertini; Tommaso Trenti; Milena Nasi; Marcello Pinti; Anna Iannone; Carlo Salvarani; Andrea Cossarizza; Giovanni Pellacani Journal: PLoS One Date: 2016-12-09 Impact factor: 3.240
Authors: C I Busard; S P Menting; J S van Bezooijen; J M van den Reek; B A Hutten; E P Prens; E M de Jong; M B van Doorn; P I Spuls Journal: Trials Date: 2017-02-02 Impact factor: 2.279
Authors: Sanminder Singh; Robert E Kalb; Elke M G J de Jong; Neil H Shear; Mark Lebwohl; Wayne Langholff; Lori Hopkins; Bhaskar Srivastava; April W Armstrong Journal: Am J Clin Dermatol Date: 2018-12 Impact factor: 7.403