Danièle Nakul-Aquaronne scite author profile

Danièle Nakul-Aquaronne

4Publications

80Citation Statements Received

27Citation Statements Given

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Affiliations

Institut de Pharmacologie Moléculaire et Cellulaire, Institut de Chimie de Nice, French National Centre for Scientific Research

Publications

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Evaluation of the Sysmex Xe‐2100^® hematology analyzer in hospital use

Nakul-Aquaronne

Sudaka-Sammarcelli

Ferrero-Vacher

et al. 2003

Clinical Laboratory Analysis

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The Sysmex XE-2100 s (Sysmex Corp. Kobe, Japan) is a latest-generation hematology analyzer. Its optical and electrical measuring technology is improved by the addition of flux cytometry, fluorescence, and differential lysis. Its analytical performance in terms of precision, reproducibility, linearity, carryover, and time stability was found to be entirely satisfactory. In addition, the results of 500 complete blood counts and differentials correlated perfectly with those obtained by the Coulter STKS s (Beckman Coulter, Villapointe, France). The comparison of 500 leukocyte differential count results analyzed in parallel with optical microscopy and the XE-2100 s were surprising, and favorable to the XE-2100 s . This analyzer provides the user with an undeniable feeling of security concerning its reliability in detecting and identifying anomalies in the automated leukocyte differential count. With a sensitivity of 96%, a negative predictive value (NPV) of 98%, and a falsenegative (FN) rate of 4%, the XE-2100 s has perhaps reached the technological limits for a machine performing morphological recognition of normal and pathological blood cells.

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Coexpression of endothelial markers and CD14 by cytokine mobilized CD34+ cells under angiogenic stimulation

Nakul-Aquaronne

Bayle

Frelin

2003

Cardiovascular Research

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Antigen nonspecific effect of major histocompatibility complex haplotype on autoantibody levels in systemic lupus erythematosus-prone lpr mice.

Cohen

Creech²,

Nakul-Aquaronne³

et al. 1993

J. Clin. Invest.

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MHC-linked genes strongly influence susceptibility to autoimmune diseases and also regulate responses to exogenous antigens. To begin to understand the mechanism of this MHC effect on disease, we have investigated MHC-congenic mouse strains that develop spontaneous autoimmunity because of the Ipr gene. C57BL6/lpr (B6/lpr) mice (H-2b) are known to have substantial levels of autoantibodies to chromatin, single stranded DNA (ssDNA3), and IgG of different murine subclasses (rheumatoid factor). We have crossed the H-2d and the H-2bil2 (la mutant) haplotypes onto the B6/lpr background. Surprisingly, levels of all of the autoantibodies were markedly lower in B6/lpr.H-2d, but levels in B6/lpr.H-2b l2 were no different from those in B6 /lpr mice. The downregulating influence of the H-2d allele was dominant, and there was no effect on autoantibody fine specificities. The genetics of the H-2d effect and its diffuse influence on multiple autoantibody specificities, in addition to the lack of effect of the bml2 mutation, which modifies the peptide-binding groove of I-A, together raise the question of whether MHC-linked genes other than classical (IR) genes may be responsible for MHC disease associations in this model. (J. Clin. Invest. 1993. 91:2761-2768.) Key words: systemic lupus erythematosus -autoantibody -major histocompatibility complex -murine models * immune response genes

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MHC genes modify systemic autoimmune disease. The role of the I-E locus.

Creech

Nakul-Aquaronne

Reap

et al. 1996

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The MHC exerts an important influence on systemic autoimmune disease. In C57BL/6-lpr/lpr (B6/lpr) mice, substitution of the H-2d instead of the H-2b MHC haplotype results in a global reduction in autoantibody levels. Since H-2d expresses both I-A and I-E, while H-2b expresses only I-A, general down-regulation of autoimmunity in the d haplotype might be due to I-E expression. This was tested with I-E alpha d transgenic B6/lpr mice, which expressed a functional surface I-E molecule. Five-month-old transgene-positive B6/lpr mice had much lower total IgG, IgG anti-chromatin, anti-DNA, and IgM rheumatoid factor directed against IgG1 and against IgG2b than transgene-negative littermates (p < or = 0.002), as well as significantly lower spleen and lymph node weights (p < or = 0.002). Decreases in autoantibody levels in the transgenic lpr mice were not due to a nonspecific effect of the I-E alpha d transgene, since transgene-positive B6/lpr.H-2d mice had levels of autoantibodies comparable with transgene-negative B6/lpr.H-2d mice. To determine whether autoantibody was preferentially made by I-E-negative B cells, irradiated (B6/lpr.Igha x B6/lpr.I-E alpha d)F1 mice were reconstituted with equal amounts of B6/lpr.Igha and B6/lpr.I-E alpha d bone marrow. Allotype-specific ELISA showed that most autoantibody was produced by the I-E negative B cells (range 97% to 84%). The results show that a functional I-E molecule in lpr mice leads to generalized reduction in autoantibody levels through a direct effect on the B cell. The molecular mechanism of this effect remains to be determined.

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