Trudel M, De Paepe M E, Chrétien N, Saadane N, Jacmain J, Sorette M, Hoang T, Beuzard Y
Institut de Recherches Cliniques de Montréal, Faculté de Médecine de L'Université de Montréal, Québec, Canada.
Blood. 1994 Nov 1;84(9):3189-97.
Erythrocyte sickling on deoxygenation in vitro occurs in transgenic SAD mice, hemizygous for a modified human sickle hemoglobin, HbSAD [alpha 2 beta 2S(beta 6val)Antilles (beta 23 lle)D- Punjab (beta 121Gln)] (SAD-1, 19% HbSAD; beta-thal/SAD-1, 26% HbSAD). The present study examines the cellular defects in vivo and pathologic changes observed in SAD-1 mice at atmospheric oxygenation as well as the effect of acute hypoxia. The transgenic mice showed generalized congestion and microvascular occlusions, occasionally with thrombosis and infarctions of lung, kidneys, penis, and myocardium. The most prevalent chronic organ lesions were congestive splenomegaly (83% of animals) and renal glomerulopathy, which affected 75% of animals by 10 months of age. Further, SAD mice have a mean lifespan that was reduced by 40% when compared with nontransgenic littermates. Premature death of SAD mice was associated with acute vasoocclusive events or severe renal disease. SAD mice developed lethal vasoocclusive processes when exposed to reduced pO2 conditions, whereas control mice survived normally. The sensitivity to hypoxia appears to depend on the cellular level of HbSAD, because death occurred at pO2 of 42 mmHg for SAD mice and 49 mmHg for beta-thal/SAD. Administration of an antisickling agent that increases oxygen affinity (BW12C79) protected SAD and beta-thal/SAD mice from the lethal hypoxic stress. In conclusion, the transgenic SAD and beta-thal/SAD mice developed a pathophysiology that strongly resembles human sickle cell disease. Moreover, this animal model allows studies on the effect of antisickling agents.
在体外脱氧时,红细胞镰变发生在转基因SAD小鼠中,这些小鼠对于一种修饰的人类镰状血红蛋白HbSAD [α2β2S(β6val)安的列斯群岛型(β23lle)D - 旁遮普型(β121Gln)] 为半合子(SAD - 1,19% HbSAD;β - 地中海贫血/SAD - 1,26% HbSAD)。本研究考察了SAD - 1小鼠在常压氧合状态下体内的细胞缺陷和病理变化以及急性缺氧的影响。转基因小鼠出现全身充血和微血管闭塞,偶尔伴有肺、肾、阴茎和心肌的血栓形成和梗死灶。最常见的慢性器官病变是充血性脾肿大(83%的动物)和肾小球病变,到10月龄时75%的动物受其影响。此外,与非转基因同窝小鼠相比,SAD小鼠的平均寿命缩短了40%。SAD小鼠的过早死亡与急性血管闭塞事件或严重肾病有关。SAD小鼠在暴露于低pO₂条件时会发生致命的血管闭塞过程,而对照小鼠正常存活。对缺氧的敏感性似乎取决于HbSAD的细胞水平,因为SAD小鼠在pO₂为42 mmHg时死亡,而β - 地中海贫血/SAD小鼠在pO₂为49 mmHg时死亡。给予一种增加氧亲和力的抗镰变剂(BW12C79)可保护SAD和β - 地中海贫血/SAD小鼠免受致命的缺氧应激。总之,转基因SAD和β - 地中海贫血/SAD小鼠发展出了一种与人类镰状细胞病极为相似的病理生理学。此外,这种动物模型可用于研究抗镰变剂的作用。
