Radiographic, histologic, and cytologic lesions associated with mutations in the fitness1(4226SB) locus of mice.

Laboratory animal science Pub Date : 1999-06-01
A E Schultze, M F McEntee, G B Daniel, D K Johnson
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引用次数: 0

Abstract

Background and purpose: Previous investigation of fitness1(4226SB) mice revealed growth retardation and microcytic, hypochromic anemia with functional iron deficiency. Serum biochemical analysis suggested protein-losing enteropathy and liver dysfunction.

Methods: Radiography was done to assess lumbar bone lesions in mice hemizygous for fitness1 (fit1) [c fit1(4226SB/Df(c Mod2 sh1)26DVT] and age-matched sibling controls [c(ch)+/c(ch)+] at 40 or 60 days of age. Macroscopic and microscopic lesions were evaluated at necropsy. Bone marrow was examined cytologically to evaluate hematopoietic lesions.

Results: Mice hemizygous for fit1 had radiographically evident lumbar vertebral abnormalities, including various degrees of vertebral body fusion, with loss of intervertebral disk spaces and mild, generalized osteopenia. All mutant mice had scoliosis. Several mutant mice had lordosis and/or kyphosis of variable severity and mild subluxation at the lumbosacral junction. Marked splenomegaly and mild cardiomegaly were evident, and bone marrow color ranged from normal to slightly pale. The spleen had marked extramedullary hematopoiesis; lumbar vertebrae contained microscopic lesions that corresponded to the radiographic lesions. Cytologic examination of bone marrow revealed normocellular to hypocellular status, with mild to moderate erythroid hypoplasia characterized by mild increase in the myeloid-to-erythroid cell ratio, decreased percentage of erythroid precursors, and slight increase in percentage of myeloid precursor cells.

Conclusions: Mutations in fit1 directly or indirectly cause alteration(s) in blood, organs of hematopoiesis (bone marrow, spleen, and liver), heart, and vertebral column, and suggest that this mouse may be a good model for study of scoliosis and relationships between iron metabolism and bone growth.

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与小鼠适应度1(4226SB)位点突变相关的放射学、组织学和细胞学病变。
背景与目的:以往对fitness1(4226SB)小鼠的研究显示出生长迟缓和小细胞性、低色素性贫血伴功能性缺铁。血清生化分析提示失蛋白性肠病和肝功能障碍。方法:采用x线摄影评估40或60日龄半合子fit1(fit1) [c fit1(4226SB/Df(c Mod2 sh1)26DVT]和同龄同胞对照[c(ch)+/c(ch)+]小鼠腰椎骨病变。尸检时对肉眼和显微镜下病变进行评估。骨髓细胞学检查以评估造血病变。结果:fit1半合子小鼠有明显的腰椎异常,包括不同程度的椎体融合,椎间盘间隙丧失和轻度全身性骨质减少。所有的突变小鼠都有脊柱侧凸。一些突变小鼠在腰骶交界处出现不同程度的前凸和/或后凸和轻度半脱位。脾肿大、心肿大明显,骨髓颜色从正常到微淡。脾脏髓外造血明显;腰椎镜下病变与影像学病变相一致。骨髓细胞学检查显示正常细胞至低细胞状态,伴轻度至中度红细胞发育不全,表现为骨髓与红细胞比例轻度升高,红细胞前体细胞百分比下降,骨髓前体细胞百分比轻微升高。结论:fit1基因突变可直接或间接引起血液、造血器官(骨髓、脾脏和肝脏)、心脏和脊柱的改变,提示该小鼠可能是研究脊柱侧凸以及铁代谢与骨骼生长关系的良好模型。
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