Holt P G, Britten D, Sedgwick J D
Immunology. 1987 Jan;60(1):97-102.
Repeated inhalation of low levels of ovalbumin (OVA) by mice or rats preferentially induces tolerance in the IgE antibody class, and this process may represent an important protective mechanism that normally prevents allergic sensitization to air-borne antigens. Dose-response experiments involving exposure of a number of inbred rat strains to graded doses of aerosolized OVA confirmed the inverse relationship between sensitivity to tolerogenesis and IgE-responder phenotype. These experiments additionally demonstrated that F1 hybrids derived from low X high responder crosses co-inherited high sensitivity to tolerance induction, together with the low IgE-responder phenotype. Sensitivity to tolerance induction in low versus high IgE-responder strains was found to be independent of the route of administration of OVA, indicating that the relevant genetically determined control mechanism(s) operated systemically. However, pre-exposure of animals to a variety of exogenous agents, noteably inhaled irritants (NO2 and histamine), the inflammatory adjuvants pertussigen and aluminium hydroxide injected at sites that stimulate the regional lymph nodes draining the respiratory tract, or a single subcutaneous injection of the reticuloendothelial system stimulator oestradiol, were shown to partially abrogate this natural tolerance process and promote allergic sensitization.
小鼠或大鼠反复吸入低剂量的卵清蛋白(OVA)优先诱导IgE抗体类别的耐受性,这一过程可能代表一种重要的保护机制,通常可防止对空气传播抗原的过敏致敏。涉及多种近交系大鼠暴露于不同剂量雾化OVA的剂量反应实验证实了对耐受诱导的敏感性与IgE反应表型之间的反比关系。这些实验还表明,来自低反应者与高反应者杂交的F1杂种共同继承了对耐受诱导的高敏感性以及低IgE反应表型。发现低IgE反应者与高IgE反应者品系对耐受诱导的敏感性与OVA的给药途径无关,这表明相关的遗传决定控制机制在全身起作用。然而,动物预先暴露于多种外源性物质,特别是吸入性刺激物(二氧化氮和组胺)、在刺激呼吸道引流区域淋巴结的部位注射的炎性佐剂百日咳杆菌和氢氧化铝,或单次皮下注射网状内皮系统刺激剂雌二醇,均显示可部分消除这种天然耐受过程并促进过敏致敏。