NUDT15p.R139C was strongly associated with early leukopenia and severe alopecia (OR for early leukopenia: 107.624, 95% CI 18.857-614.250, p=1.403 × 10<sup>-7</sup>, OR for severe alopecia: 77.152, 95% CI 17.378-342.526, p=1.101 × 10<sup>-8</sup>).
NUDT15 codon 139 is the best pharmacogenetic marker for predicting thiopurine-induced severe adverse events in Japanese patients with inflammatory bowel disease: a multicenter study.
The aim of the current study was to investigate the effect of the inherited genetic polymorphism 1858C>T of PTPN22 gene on the predisposition to severe forms of alopecia areata and its effect on the response to DPC treatment.
These results suggest that the non-synonymous C1858T substitution in the PTPN22 gene may have an influence on the severity of alopecia areata and provide further evidence for autoimmunity as an aetiological factor in this disorder.
Autosomal recessive forms of hair loss (alopecia) disorders have previously been associated with variants in at least five different genes including hairless (HR), desmoglein-4 (DSG4), desmocollin-3 (DSC3), lipase-H (LIPH), and lysophosphatidic acid receptor 6 (LPAR6).
Homozygotes for the LIPH c.736T>A (p.C246S) mutation, the most prevalent genotype in Japanese patients, present varying degrees of hair loss; however, determinants of this phenotypic diversity remain elusive.
Ancestral founder mutation of the nude (FOXN1) gene in congenital severe combined immunodeficiency associated with alopecia in southern Italy population.
The SSC7 region contains the forkhead box N3 (FOXN3) gene, the most plausible candidate gene of this region, considering that mutations in another gene of the same family (forkhead box N1; Foxn1 or FOXN1) are responsible for the nude locus in rodents and alopecia in humans.
Ancestral founder mutation of the nude (FOXN1) gene in congenital severe combined immunodeficiency associated with alopecia in southern Italy population.
Autosomal recessive forms of hair loss (alopecia) disorders have previously been associated with variants in at least five different genes including hairless (HR), desmoglein-4 (DSG4), desmocollin-3 (DSC3), lipase-H (LIPH), and lysophosphatidic acid receptor 6 (LPAR6).
We conclude that the G573S and G573C substitutions render the TRPV3 channel spontaneously active under normal physiological conditions, which in turn alters ion homeostasis and membrane potentials of skin keratinocytes, leading to hair loss and dermatitis-like skin diseases.
The frequencies of HLA-DQB1*0604 (OR=5.42, P(c)=0.009) and -DQB1*0606 (OR=4.11, P(c)<0.001) were obviously increased in patients less than 50% scalp hair loss.
Therefore, our results indicate an association between DQA1*0301 and APS II or III since this allele was otherwise not significantly associated with any of its component diseases except alopecia.
These data suggest that rs2294020 SNP of FOXP3 gene and rs378299 SNP of ICOSLG gene are associated with AA and with a reduced expression of the FOXP3 and ICOSLG genes in alopecia patients.