Naila C. Bailey scite author profile

Naila C. Bailey

5Publications

40Citation Statements Received

41Citation Statements Given

How they've been cited

105

How they cite others

107

Affiliations

Icahn School of Medicine at Mount Sinai

Publications

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Fatty acid-binding protein: A major contributor to the ethanol-induced increase in liver cytosolic proteins in the rat

Pignon

Bailey

Baraona

et al. 1987

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To study the acute and chronic effects of ethanol on hepatic fatty acid-binding protein, rats were pair-fed with liquid diets containing 36% of energy either as ethanol or as additional carbohydrate for 4 to 5 weeks. Animals were killed 90 min after intragastric administration of diets with or without ethanol. Alcohol feeding markedly increased liver triglycerides, with a modest rise in nonesterified fatty acids. Alcohol-fed rats developed hepatomegaly, with a 48% increase in hepatic cytosolic proteins. Fatty acid binding was first assessed by the kinetics of [14C]palmitate binding to cytosolic proteins. The maximal binding capacity more than doubled in the cytosol of the ethanol-fed rats compared to pair-fed controls, whereas the dissociation constant increased by 64%. Acute ethanol administration (3 gm per kg body weight) either to ethanol-fed or control rats did not have a significant effect. To identify the fatty acid-binding protein, labeled cytosolic proteins were fractionated by gel filtration: most of the cytosolic fatty acids eluted as a single peak in the 12,000 to 18,000 molecular weight region corresponding to the hepatic fatty acid-binding protein. The increase in this protein, confirmed by radial immunodiffusion (27.0 +/- 1.4 mg per 100 gm body weight vs. 11.2 +/- 1.6, in controls; p less than 0.01), accounted for 22% of the total rise in cytosolic protein induced by chronic ethanol feeding.

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Complexity of the immunoglobulin light chain V_κ1 gene family in the New Zealand Black mouse

Bailey

Kasturi²,

Blackwell

et al. 1991

Int Immunol

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The immunoglobulin light chain V kappa 1 gene family is polymorphic in murine inbred strains and this family has been subdivided into five sub-groups (V kappa 1A-E). The V kappa 1A sub-group contributes to approximately 2% of the total serum immunoglobulin light chains in several mouse strains. However, it has been reported that this sub-group is absent in New Zealand Black (NZB) mouse serum. Amino acid sequencing of myeloma proteins from this inbred mouse has shown that they belong to the V kappa 1B sub-group. We report here the structure of nine functional germline genes from NZB mice that have high homologies to the V kappa 1A, V kappa 1B, V kappa 1C, and V kappa 1D sub-groups. In addition, a novel germline gene representing the prototype of a new sub-group (designated V kappa 1F) has been identified. We have isolated different V kappa 1 germline genes from a single restriction fragment length polymorphism (RFLP) fragment, as well as identical V genes from two different RFLP migrating bands. Therefore, the complexity of the genes encoding the immunoglobulin variable region cannot be determined solely by RFLP analysis. Nucleotide sequence analysis of 16 V kappa 1 genes which code for NZB autoantibodies indicate that they belong to five different V kappa 1 sub-groups with five hybridomas (31%) expressing the V kappa 1A sub-group. Comparison of the sequences of V kappa 1 genes expressed in hybridomas with corresponding germline genes show no somatic mutations.

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Activation of clones producing self-reactive antibodies by foreign antigen and antiidiotype antibody carrying the internal image of the antigen.

Bailey¹,

Fidanza²,

Mayer³

et al. 1989

J. Clin. Invest.

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Because we found in previous work that a high fraction of antibodies exhibiting various specificities bound to glutamic acid 50-tyrosine50 homopolymer (GT) and expressed pGAT cross-reactive idiotype (IdX), we studied the activation of clones producing multireactive antibodies in 1-mo-old MRL/ lpr and C3H/HeJ mice bearing VHJ haplotype. The activation of such clones was studied after mice were immunized with GT in CFA, HP20 (an anti-Id MAb carrying the internal image of GT in the 1D region), and a synthetic peptide corresponding to the D segment of HP20.Our results indicate that immunized mice produced both GT-and self-reactive antibodies. Study of the immunochemical properties of MAb showed that they exhibit multispecific properties and bind with similar-affinity constants to GT or self-antigens such as DNA, Smith antigen (Sm), and IgG2a. An important fraction of antibodies obtained from MRL/lpr mice immunized with HP20 expressed pGAT IdX and some of these antibodies share IdX expressed on anti-DNA, Sm, and rheumatoid factor (RFs) antibodies. The hybridomas producing multispecific autoantibodies use heavy-chain-(VH) and lightchain-variable region (VK) genes from various V gene families, suggesting that they do not derive from the pool of GAT precursors. Sequencing of VH and VK genes of two antibodies show that they can use closely related VHJ558, unmutated VK1, or different VK genes than those used by anti-GT antibodies.Our data demonstrate that clones producing antibodies binding to GT and self-antigens with similar-affinity constants can be activated by foreign or anti-Id antibodies carrying the internal image of the antigen or even by a synthetic peptide corresponding to the D segment of anti-Id antibodies.

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Correlation between the occurrence of lupus nephritis, anti‐erythrocyte autoantibodies and V_x haplotype in NZB × 129/J and NZB × SM/J recombinant inbred murine strains

et al. 1991

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The NZB mouse is genetically predisposed to the development of autoimmune disease that resembles the human autoimmune systemic lupus erythematosus and autoimmune hemolytic anemia, with increased titers of anti-DNA, and Coombs' autoantibodies. The various autoimmune traits are controlled separately by a limited number of genes. Genetic studies have shown that several immune loci are involved in autoimmunity: T cell abnormalities, H-2 complex and immunoglobulin genes have been implicated. In this report, we present evidence for a significant correlation of NZB V kappa 1 haplotype defined by restriction fragment length polymorphism analysis with anti-erythrocyte autoantibodies in NZB x 129/J and NZB x SM/J recombinant inbred lines.

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Immunochemical and Molecular Properties of Antibodies Exhibiting Binding Properties to Glutamic Acid‐Tyrosine Homopolymer and to Self Antigensa

Bailey

Monestier

Bona

1988

Annals of the New York Academy of Sciences

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Naila C. Bailey

Fatty acid-binding protein: A major contributor to the ethanol-induced increase in liver cytosolic proteins in the rat

Complexity of the immunoglobulin light chain V_κ1 gene family in the New Zealand Black mouse

Activation of clones producing self-reactive antibodies by foreign antigen and antiidiotype antibody carrying the internal image of the antigen.

Correlation between the occurrence of lupus nephritis, anti‐erythrocyte autoantibodies and V_x haplotype in NZB × 129/J and NZB × SM/J recombinant inbred murine strains

Immunochemical and Molecular Properties of Antibodies Exhibiting Binding Properties to Glutamic Acid‐Tyrosine Homopolymer and to Self Antigensa

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Naila C. Bailey

Fatty acid-binding protein: A major contributor to the ethanol-induced increase in liver cytosolic proteins in the rat

Complexity of the immunoglobulin light chain Vκ1 gene family in the New Zealand Black mouse

Activation of clones producing self-reactive antibodies by foreign antigen and antiidiotype antibody carrying the internal image of the antigen.

Correlation between the occurrence of lupus nephritis, anti‐erythrocyte autoantibodies and Vx haplotype in NZB × 129/J and NZB × SM/J recombinant inbred murine strains

Immunochemical and Molecular Properties of Antibodies Exhibiting Binding Properties to Glutamic Acid‐Tyrosine Homopolymer and to Self Antigensa

Contact Info

Product

Resources

About

Complexity of the immunoglobulin light chain V_κ1 gene family in the New Zealand Black mouse

Correlation between the occurrence of lupus nephritis, anti‐erythrocyte autoantibodies and V_x haplotype in NZB × 129/J and NZB × SM/J recombinant inbred murine strains