Fusobacterium necrophorum meningitis: forgotten complication of a gingivitis]

By now Lemierre's syndrome is a seldom-described disease whose prognosis depends on the precocity of treatment. CASE PRESENTATION: We report the case of an 11-month-old child, with a fulminant Fusobacterium necrophorum meningitis, which derived from a gingival infection, with fatal outcome. CONCLUSION: This atypical case of Lemierre's syndrome (young age occurrence and localisation) underlines the potential severity of F. necrophorum sepsis.     

高效液相色谱法测定右旋儿茶素血浆浓度及药代动力学参数

本文建立了体液中右旋儿茶素的RP-HPLC测定方法。采用C_(18)键合相硅胶为填料的固相提取柱进行样品预处理,右旋儿茶素的提取回收率为79.8%.应用二极管阵列检测器对色谱峰纯度进行鉴定。该法精密度好,方法回收率近100%,日内、日间的变异系数为2.4～5.6%,血浓69.6～1160 ng/ml范围内呈线性关系,r=0.9993。家兔静注右旋儿茶素18mg/kg,其药代动力学过程符合二室模型,分布相半衰期为0.129 h,消除相半衰期为1.19h。     

Interstitial telomeric DNA sequences of Chinese hamster cells are hypersensitive to nitric oxide damage, and DNA-PKcs has a specific local role in its repair

The DNA breakage detection-fluorescence in situ hybridization (DBD-FISH) procedure was used to analyze DNA single-strand breaks (SSBs) and alkali-labile sites induced by exposure to the nitric oxide (NO) donors sodium nitroprusside (SNP) and 3-morpholinosydnomine hydrochloride (SIN-1) in the whole genome and in long interstitial telomeric repeat sequence (ITRS) blocks from Chinese hamster cells. The relative density of DNA damage generated in the ITRS by X-rays was similar to that induced in the genome overall, whereas it was 1.7 times higher when the alkylating agent MNNG was assayed. Nevertheless, after SNP or SIN-1 treatment, ITRSs proved to be 2.8 and 2.7 times relatively more damaged, respectively, than the whole genome. When the DNA-dependent protein kinase catalytic subunit (DNA-PKcs) was not active, as in XR-C1 mutant cells, the repair kinetics in the whole genome did not differ from that in the parental cell line with X-ray or SNP exposure. However, whereas the SSBs and alkali-labile sites induced in the ITRS by X-rays exhibited rejoining kinetics similar to that of the parental cell line, the damage induced by SNP was more slowly rejoined. This implies a role for DNA-PKcs in the repair of DNA damage induced by NO, especially in ITRSs. The results demonstrated intragenomic heterogeneity of NO-induced DNA damage and repair; there was a higher density of DNA damage in the ITRS blocks, possibly because of their guanine richness. This suggests that a parallel process may occur in the terminal telomeres, which has implications for premature aging and neoplastic development by chronic NO exposure in vivo.     

CD4+ T-cell lymphopenia in Q fever endocarditis.

Valvular endocarditis is the most serious complication of chronic Q fever, an infectious disease due to Coxiella burnetii. Although its pathogenesis is poorly understood, the role of the immune system has been evoked. The aim of this study was to investigate lymphocyte subsets in the peripheral blood of infected patients by analyzing the distribution of T- and B-lymphocyte subsets. Since various infectious diseases have been found to be associated with modified antigen expression, we also measured the antigen density of the main lymphocyte markers by quantitative flow cytometry. The absolute values of CD3+ T cells and CD19+ B cells were lower in infected subjects than in controls. The decrease in the CD4+ T-cell count was more pronounced than that in the CD8+ T-cell count, leading to a significantly lower CD4/CD8 ratio in patients. The decreases in CD4+ T cells and CD19+ B cells were correlated with levels of C. burnetii-specific immunoglobulin G, showing that CD4+ lymphopenia is related to the activity of chronic Q fever. Quantitation of antigen expression on lymphocytes showed that CD3, CD4, CD8, and CD19 were expressed similarly in patients and controls. In contrast, CD2 and CD11a expression levels, which are both related to naive and memory phenotypes, were modified in patients. The study of CD45RO and CD45RA expression by CD4+ T cells provided evidence that lymphopenia preferentially affected unprimed lymphocytes.     

The UTX gene escapes X inactivation in mice and humans

We recently have identified a ubiquitously transcribed mouse Y chromosome gene, Uty , which encodes a tetratricopeptide repeat (TPR) protein. A peptide derived from the UTY protein confers H-Y antigenicity on male cells. Here we report the characterization of a widely transcribed X-linked homologue of Uty , called Utx , which maps to the proximal region of the mouse X chromosome and which detects a human X-linked homologue at Xp11.2. Given that Uty is ubiquitously transcribed, we assayed for Utx expression from the inactive X chromosome (Xi) in mice and found that Utx escapes X chromosome inactivation. Only Smcx and the pseudoautosomal Sts gene on the mouse X chromosome have been reported previously to escape inactivation. The human UTX gene was also found to be expressed from Xi. We discuss the significance of these data for our understanding of dosage compensation of X-Y homologous genes in humans and mice.