Laboratory animal science最新文献

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.

Background and purpose: Female inbred cotton rats develop adenocarcinomas in the oxyntic mucosa. Since a female preponderance is typical for enterochromaffin-like (ECL) cell tumors, we examined such tumors for ECL cells. Gastrin plays a decisive role in ECL cell tumorigenesis, so blood gastrin concentration and gastric mucosal pH were measured.

Methods: The stomachs from six female cotton rats (6 to 8 months old) were studied histologically, and at euthanasia, gastric mucosal pH was determined. Euthanasia was performed on 15 other female cotton rats of similar age for determination of blood gastrin values by radioimmunoassay (RIA) and gastric mucosal pH. Rats were classified macroscopically to have normal or thick oxyntic mucosa, with or without tumor.

Results: Among the six cotton rats studied histologically, two 6-month-old rats had normal and two others had thick gastric mucosa, whereas two 8-month-old rats had thick mucosa with tumors. The ECL cells were markedly hyperplastic in all rats with thick mucosa, and ECL cells were found in the neoplastic parenchyma. All cotton rats with normal-appearing gastric mucosa had pH <2.5, whereas 14 rats with thick mucosa had pH >3.1 and hypergastrinemia.

Conclusions: Gastrin may play a major role in ECL cell hyperplasia and, perhaps, in adenocarcinoma genesis.

Background and purpose: In rats, murine respiratory mycoplasmosis is caused by Mycoplasma pulmonis. Tilmicosin, a macrolide antibiotic, has good tissue penetration and reaches high concentration in the lungs. Therefore, a model for studying the effects of disease on pharmacokinetics of tilmicosin was developed, using LEW rats.

Methods: Seventy-two LEW rats were assigned at random to two groups: one group was inoculated with M. pulmonis, and the other served as an uninoculated control group. On postinoculation day 31, all rats received a single dose of tilmicosin (20 mg/kg of body weight, subcutaneously).

Results: Concentration of tilmicosin in the lungs of both groups of rats was significantly higher than serum tilmicosin concentration at all times. Infected rats had significantly higher lung tilmicosin concentration than did noninfected rats. No correlation was found between pH of the lungs and tilmicosin concentration in the lungs in either treatment group, nor did treatment have any effect on pH of the muscle.

Conclusion: Tilmicosin accumulates in the lungs, and infection/inflammation further improves its tissue penetration.

Background and purpose: Outbred mice are frequently used in toxicity evaluation. Due to their small size, ophthalmologic examination of such animals is difficult with regard to restraint and use of instruments designed for human medicine. The clinical appearance and incidence of spontaneous ophthalmic lesions should be helpful in selecting mice for toxicity studies and allow distinction between intercurrent spontaneous ocular changes and those attributable to drugs or chemicals.

Methods: Pretest ophthalmologic examinations of about 3,000 4- to 5-week-old Swiss mice, Crl:CD1 (ICR)BR, conducted in 1995 and 1996, provided information about spontaneous ocular changes and their incidence. Eye evaluations were performed after pupil dilatation (0.5% tropicamide instillation), using indirect ophthalmoscopy, and when indicated, a portable slit lamp.

Results: Lenticular opacities and heterogeneity/prominence were the most common findings (up to 19%) in the anterior segment. Abnormalities of the cornea and iris were detected in up to 4% of mice. Hyaloid artery remnant, as well as isolated cases of floating bodies or hemorrhage, was observed in the vitreous of 12 to 17% of mice. Approximately 2 to 4% of mice had colobomatous fundus, retinal fold, or retinal atrophy. A few mice had chorioretinal atrophy, hemorrhage, or abnormal pattern of the retinal vasculature. Remaining findings consisted of incomplete palpebral fissure, microphthalmia, exophthalmia, ophthalmic hemorrhage, and scleral mass.

Conclusions: Due to severity of the condition or interference with ocular examination, affected mice should be eliminated from experimental studies. Hence, pretest ocular examinations of mice are indicated in safety-assessment toxicity studies.

Background and purpose: Enterotoxigenic Escherichia coli heat-stable enterotoxin (STa) is a major cause of diarrhea in young animals. Age-dependent variation in the density and affinity of the mouse enterocyte receptors specific for STa was investigated.

Methods: Four age groups (2-day-, 1- and 2-week-, and 2-month-old) of Swiss Webster mice were studied (8 to 10 mice/group). Flow cytometry and radiolabeled STa (125I-STa) assays were used as reliable quantitative measures for characterization of STa-enterocyte receptor interaction.

Results and conclusions: Interaction of STa with its putative receptor was stronger for enterocytes of 2-day-old mice. Scatchard analysis of 125I-STa-receptor interaction suggested that STa-receptors exist at higher numbers on enterocytes from 2-day-old (7.2 nmol/mg) than older (0.30, 0.36, and 0.40 nmol/mg for 1-week-, 2-week-, and 2-month-old mice, respectively). Additionally, receptors from 2-day-old mice had greater affinity for STa (Kd = 75 nM) than did receptors from older mice (Kd = 125, 1,430, and 1,111 nM for 1-week-, 2-week-, and 2-month-old mice, respectively). Density of STa receptors on enterocytes and their affinity to STa may determine extent of binding and severity of the secretory response, and may explain the high susceptibility of newborn animals and human infants to STa-mediated diarrhea.