Correlations of IL-6 and IL-10 gene polymorphisms with childhood acute lymphoblastic leukemia.

OBJECTIVE: The aim of this study was to investigate the correlations between interleukin-6 (IL-6) and IL-10 gene polymorphisms with childhood acute lymphoblastic leukemia. PATIENTS AND METHODS: Specimens were collected from 200 children with acute lymphoblastic leukemia (disease group) and 200 normal children (control group) in our hospital. DNA was extracted from peripheral blood nucleated cells in both groups to detect the gene polymorphisms rs2069830 and rs2069836 of IL-6, as well as rs3024489 and rs3024493 of IL-10. Then, the content of serum IL-6 and IL-10 was determined via enzyme-linked immunosorbent assay (ELISA). RESULTS: It was found that there were differences in the distribution of alleles of IL-6 gene polymorphism rs2069830 (p=0.000) and IL-10 gene polymorphism rs3024493 (p=0.007) between the disease group and control group. The frequency of T allele of IL-6 gene polymorphism rs2069830 was higher, while that of IL-10 gene polymorphism rs3024493 was lower in the disease group. Besides, the differences in the distribution of genotypes of IL-6 gene polymorphism rs2069830 (p=0.000) and IL-10 gene polymorphism rs3024493 (p=0.000) were also observed between the disease group and control group. Moreover, the disease group had higher frequencies of TT genotype of IL-6 gene polymorphism rs2069830 and TA genotype of IL-10 gene polymorphism rs3024493. The frequencies of dominant model of IL-6 gene polymorphism rs2069830 (p=0.048) and recessive model of IL-10 gene polymorphism rs3024493 (p=0.000) in the disease group were different from those in the control group. In addition, the frequency of CC + CT dominant model of IL-6 gene polymorphism rs2069830 was lower, and the frequency of TA + AA recessive model of IL-10 gene polymorphism rs3024493 was higher in the disease group. There were differences in haplotypes CG (p=0.001), CT (p=0.007), and TG (p=0.000) of IL-6 gene, as well as haplotypes AA (p=0.002) and AT (p=0.005) of IL-10 gene between disease group and control group. Furthermore, the content of IL-6 in the serum was associated with the genotypes of IL-6 gene polymorphism rs2069830 (p<0.05), whereas the children with acute lymphoblastic leukemia carrying CT genotype had remarkably higher content of serum IL-6. The genotypes of IL-6 gene polymorphism rs2069830 was notably related to white blood cell (WBC) (p=0.002), and the WBC level was higher in children with CT genotype. The genotypes of IL-10 gene polymorphism rs3024489 had prominent correlations with platelet (PLT) (p=0.043), and the children with AA genotype had a higher PLT level. In addition, the genotypes of IL-10 gene polymorphism rs3024493 were evidently correlated with hemoglobin, which was significantly higher in children carrying TA genotype. CONCLUSIONS: The gene polymorphisms of IL-6 and IL-10 are significantly correlated with the susceptibility to and pathogenesis of childhood acute lymphoblastic leukemia.

Human leukocyte antigen-B27 alleles in Xinjiang Uygur patients with ankylosing spondylitis.

We investigated the distribution of human leukocyte antigen (HLA)-B27 subtypes in Uygur ankylosing spondylitis patients in Xinjiang. B27-positive patients with ankylosing spondylitis were subtyped by using polymerase chain reaction-sequence-based typing. The HLA-B27 subtype frequencies of Uygur patients were compared with those in Han patients in Xinjiang and the other areas of China. B*2705 was the predominant subtype in Uygur patients with a frequency of 58.95%, which was much higher than that in Han patients in Xinjiang (31.58%, P < 0.05) and the other areas of China (excluding the Shandong region, which was 63.89%). The frequency of B*2704 (27.37%) in Uygur patients was the lowest and significantly lower than that in Han patients (61.18%, P < 0.05) and in 8 other areas of China. B*2710 has not been previously reported in Uygur ankylosing spondylitis patients; B*2704 was the main (61.18%) subtype in Han patients in Xinjiang, followed by B*2705 (31.58%) and was similar to the characteristics of Han patients in the other areas of China. B*2724 in Han ankylosing spondylitis patients has not been previously reported. Additionally, the B*2702/B*2705 homozygote was identified in Uygur patients. B*2702/B*2704, B*2704/B*2705, and B*2705/B*2705 homozygotes were identified in 3 Han patients. The distribution of HLAB27 subtypes in Uygur ankylosing spondylitis patients in Xinjiang significantly differed from that in Han patients. Understanding the distribution of HLAB27 subtypes in ethnic minority populations of Xinjiang is important for anthropological genetic studies and for analyzing the impact of genetic background on ankylosing spondylitis susceptibility.

Preliminary study of the clonal characteristics of the TCR BV subfamilies in T cells in the peripheral blood from patients with uveitis.

The aim of this study was to investigate the characteristics and polymorphisms of the T-cell receptor BV complementarity-determining region 3 (TCR BV CDR3) gene in peripheral blood mononuclear cells (PBMCs) from patients with uveitis to provide an experimental basis for studying the pathogenesis of this disease. RT-PCR amplification of 26 subfamilies of the TCR BV CDR3 gene and immune spectratyping analysis were used to study the pedigree drift of TCR BV CDR3 in PBMCs from the uveitis patients. The following results were obtained: 1) the vast majority of the TCR BV CDR3 spectra in PBMCs in 5 healthy subjects fit the normal (or Gaussian) distribution. The distributions of the TCR BV CDR3 spectra in 4 patients with uveitis were non-normal and showed an abnormal peak including a widowed peak trend, a partial peak, and an irregular abnormal peak. 2) In the 26 TCR BV subfamilies, the abnormal peak frequency was different in the various subfamilies. The BV2 and BV17 (both 3/4) subfamilies had higher frequencies of the non-normally distributed abnormal peak. The BV5.2, BV6, BV15, and BV18 subfamilies showed no abnormal peaks. 3) TCR BV2 and BV17 yielded an abnormal peak in 3 HLA-B27-negative patients; however, no such abnormalities were detected in HLA-B27-positive patients. The abnormal expression of some TCR BV subfamilies in PBMCs from patients with uveitis may be associated with the immune pathogenesis of the disease. Our study provides the basis for further investigations into the pathogenesis of uveitis.