Orlando Ribeiro scite author profile

The genetic regulation of acute inflammatory reaction (AIR) was studied by the method of bidirectional selective breeding, used to produce a line of mice giving the maximal and a line of mice giving the minimal inflammatory reaction (AIR max and AIR min, respectively). The AIR was triggered by subcutaneous injection of a neutral substrate (suspension of polyacrylamide microbeads), and measured by the leukocyte and serum protein accumulation in the exudate. The two parameters are positively correlated and present a normal frequency distribution. The highly genetically heterogeneous foundation population was produced by the equipoised intercrossing of eight inbred strains of mice, and selective breeding carried out by assortative matings of extreme phenotypes. The response to selection in 11 consecutive generations was highly asymmetrical: a marked AIR increase in the AIR max and no change in the AIR min line occurred. The mean value of realized heritability in the AIR max line was 0.26 and 0.18 for cell and protein concentrations, respectively. The response to selection must have resulted from the interaction of seven to nine independent gene loci endowed with additive effects. The lack of response to selection of the AIR min line is discussed. The large inter-line difference opens new possibilities for studying the biochemistry and molecular genetics of inflammation, and also for investigating the beneficial or detrimental effect of inflammatory responses.

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Suppression of Asthma-like Responses in Different Mouse Strains by Oral Tolerance

Russo

Nahori²,

Lefort³

et al. 2001

Am J Respir Cell Mol Biol

140

117

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In this study we examined the effect of oral antigen (Ag) administration on the development of experimental asthma in different mouse strains. We selected BALB/c, BP2, CBA/Ca interleukin (IL)-5 transgenic, and BALB/c T-cell receptor-delta-deficient mouse strains because they exhibit different aspects of the asthma syndrome. Mice exposed to 1% ovalbumin (OVA), dissolved in the drinking water for 5 consecutive days, became unresponsive to subsequent immunogenic OVA challenges. This regimen of OVA administration induced Ag-specific unresponsiveness in all mouse strains tested, including gammadelta-deficient mice that are said to be resistant to tolerance induction. The Ag-specific unresponsiveness was characterized by reduced (almost absent) airway eosinophilic inflammation, airway hyperreactivity, and mucus production; also by low levels of T helper (Th) 2-type cytokines in bronchoalveolar lavage fluid, and decreased immunoglobulin (Ig) G1 and IgE OVA-specific antibody production. The unresponsive state was not associated with increased levels of the suppressive cytokines IL-10 and transforming growth factor (TGF)-beta or with immune deviation toward the Th1 pathway due to increased levels of interferon-gamma and IL-12. Moreover, treatment with anti- TGF-beta antibodies did not abrogate oral tolerance. Oral Ag administration was quite effective in suppressing the development of key features of asthma when initiated after primary immunization (Day 0) or after booster (Day 7), but not after challenge (Day 14) when it increased allergic responses. Collectively, our findings show for the first time the beneficial and detrimental effects of oral Ag administration on the development of experimental asthma.

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Effect of genetic modification of acute inflammatory responsiveness on tumorigenesis in the mouse

Biozzi

Ribeiro²,

Saran³

et al. 1998

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Two distinct bidirectional selective breedings for quantitative traits were initiated from identical genetically heterogeneous mouse populations. The resulting lines are characterized by maximal or minimal acute inflammatory responsiveness (AIR): AIRmax and AIRmin lines, respectively, and by resistance or susceptibility to chemical skin tumorigenesis: Car-R and Car-S lines, respectively. The AIR response to s.c. injection of polyacrylamide microbeads, measured by cell content in the local exudate, was 10 times higher in AIRmax than in AIRmin mice. The response to selection was asymmetrical: the realized heritability was 0.26 in AIRmax and 0.008 in AIRmin, and resulted from the additive effect of 7-11 quantitative trait loci (QTL). Low responsiveness was globally dominant in F1 and 48% of F2 segregant variance was found to be due to genetic factors. These findings are the first demonstration of innate regulation of AIR by germ line genes. Susceptibility to skin tumorigenesis induced by a two-stage initiation (DMBA)-promotion (TPA) protocol was lower in AIRmax mice than in AIRmin mice, a 6-fold difference in tumor induction rate. Intense AIR was found to be associated with resistance, and low AIR with susceptibility to tumorigenesis, in F2 segregants chosen for extreme AIR phenotypes. At least some of the AIR QTLs therefore contain genes controlling tumorigenesis. Tumor phenotypes differed more in Car-R and Car-S than in AIRmax and AIRmin lines, indicating that QTLs unrelated to AIR, contribute to the host response to tumorigenesis. The extreme phenotypes/genotypes of the four selected lines and the known genetic constitution of their foundation population, offer new possibilities to discriminate the genes/mechanisms controlling two important traits: AIR and response to chemical tumorigenesis. Collaborative projects will be favorably considered. The description of tumor resistance genes in AIRmax and Car-R mice may be helpful for epidemiology and therapy of human cancer.

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Convergent alteration of granulopoiesis, chemotactic activity, and neutrophil apoptosis during mouse selection for high acute inflammatory response

Ribeiro

Maria

Adriouch

et al. 2003

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Neutrophil homeostasis was investigated in two mouse lines, AIRmax and AIRmin, genetically selected for high or low acute inflammatory response (AIR) and compared with unselected BALB/c mice. Mature neutrophil phenotype and functions appeared similar in the three mouse lines. However, an unprecedented phenotype was revealed in AIRmax animals characterized by a high neutrophil production in bone marrow (BM), a high number of neutrophils in blood, a high concentration of chemotactic agents in acrylamide-induced inflammatory exudates, and an increased resistance of locally infiltrated neutrophils to spontaneous apoptosis. In vitro, BM production of neutrophils and eosinophils was accompanied by an unusual high up-regulation of cytokine receptors as assessed by antibodies to CD131, which bind the common beta chain of receptors to interleukin (IL)-3, IL-5, and granulocyte macrophage-colony stimulating factor. An accelerated neutrophil maturation was also observed in response to all-trans retinoic acid. Several candidate genes can be proposed to explain this phenotype. Yet, more importantly, the results underline that genetic selection, based on the degree of AIR and starting from a founding population resulting from the intercross of eight inbred mouse lines, which display a continuous range of inflammatory responses, can lead to the convergent selection of alleles affecting neutrophil homeostasis. Similar gene combinations may occur in the human with important consequences in the susceptibility to inflammatory or infectious diseases and cancer.

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Orlando Ribeiro

Genetics of nonspecific immunity: I. Bidirectional selective breeding of lines of mice endowed with maximal or minimal inflammatory responsiveness

Suppression of Asthma-like Responses in Different Mouse Strains by Oral Tolerance

Effect of genetic modification of acute inflammatory responsiveness on tumorigenesis in the mouse

Convergent alteration of granulopoiesis, chemotactic activity, and neutrophil apoptosis during mouse selection for high acute inflammatory response

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