Variation among mouse strains in responsiveness to migration inhibitory factor.

Mineral oil-induced peritoneal exudate cells (PEC) from 10 different inbred mouse strains were tested for their responses to macrophage migration inhibitory factor (MIF). PEC from 5 out of 10 mouse strains responded to MIF, PEC from BALB/c mice showed an intermediate responsiveness, and PEC from A/J, C3H/HeJ, CBA/N, and C57BL/10ScCR mice were refractory to MIF. MIF responsiveness was not linked to the H-2 complex. However, a possible link between responsiveness to LPS and MIF was suggested, since the mouse strains not responding to MIF were previously reported to be deficient for responses to LPS.     

Mutants of purine metabolism in cultured mouse and hamster cells

The regulation of purine metabolism in mammalian cells is poorly understood presently. A variety of mutants in hamster and mouse is now available for these studies. It is clear that selective methods provide the potential for isolation of a greater variety and number of such mutants. It is predicted that the methods are now available for extensive study of the purine biosynthetic pathway with respect to both its genetic organization and cellular regulation. These mouse and hamster mutants will undoubtedly facilitate our understanding of this multistep pathway which until recently has been limited to the study of rare human mutants.     

Variation in biofilm formation among strains of Listeria monocytogenes

Contamination of food by Listeria monocytogenes is thought to occur most frequently in food-processing environments where cells persist due to their ability to attach to stainless steel and other surfaces. Once attached these cells may produce multicellular biofilms that are resistant to disinfection and from which cells can become detached and contaminate food products. Because there is a correlation between virulence and serotype (and thus phylogenetic division) of L. monocytogenes, it is important to determine if there is a link between biofilm formation and disease incidence for L. monocytogenes. Eighty L. monocytogenes isolates were screened for biofilm formation to determine if there is a robust relationship between biofilm formation, phylogenic division, and persistence in the environment. Statistically significant differences were detected between phylogenetic divisions. Increased biofilm formation was observed in Division II strains (serotypes 1/2a and 1/2c), which are not normally associated with food-borne outbreaks. Differences in biofilm formation were also detected between persistent and nonpersistent strains isolated from bulk milk samples, with persistent strains showing increased biofilm formation relative to nonpersistent strains. There were no significant differences detected among serotypes. Exopolysaccharide production correlated with cell adherence for high-biofilm-producing strains. Scanning electron microscopy showed that a high-biofilm-forming strain produced a dense, three-dimensional structure, whereas a low-biofilm-forming strain produced a thin, patchy biofilm. These data are consistent with data on persistent strains forming biofilms but do not support a consistent relationship between enhanced biofilm formation and disease incidence.     

Variation in senescent-dependent lung changes in inbred mouse strains.

Previous studies from our laboratories showed lung development differences between inbred strains of mice. In the present study, the C57BL/6J (B6) and DBA/2J (D2) strains were examined for senescent-dependent differences with respect to the lung structure and function. Specifically, we hypothesize that senescent changes in lung vary between strains due to identifiable gene expression differences. Quasi-static pressure-volume curves and respiratory impedance measurements were performed on 2- and 20-mo-old B6 and D2 mice. Lung volume at 30 cm H(2)O (V(30)) pressure was significantly (P < 0.01) increased with age in both strains, but the increase was proportionally greater in D2 (68%) than in B6 (40%) mice. In addition, decreased elastic recoil pressure at 50% of V(30) and a reduction in airway resistance as a function of positive end-expiratory pressure were observed in 20-mo-old D2 mice but not in B6 mice. Morphometric analysis of lung parenchyma showed significant decreases in elastic fiber content with age in both strains, but the collagen content was significantly (P < 0.01) increased with age in D2 but not B6 mice at 20 mo. Furthermore, using quantitative RT-PCR methods, gene expression differences between strains suggested that D2 mice significantly (P < 0.05) downregulated the expressions of elastin (Eln) and procollagen I, III, and VI (Col1a1, Col3a1, and Col6a3) in lung tissue at 20 mo of age. These age-dependent changes were accompanied by an increased gene expression in matrix metalloproteinase 9 (Mmp9) in D2 and an increase in tissue inhibitor of matrix metalloproteinase (Timp1 and Timp4) in B6 mice. In conclusion, the results from the present study demonstrate that lung mechanics of both strains show significant age-dependent changes. However, changes in D2 mice are accelerated relative to B6 mice. Moreover, gene expression differences appear to be involved in the strain-specific changes of lung mechanic properties.     

Induction of mouse oocyte maturation in vivo by perturbants of purine metabolism

Previous studies have suggested a critical role for purines in the maintenance of mouse oocytes in meiotic arrest. If so, then disrupting specific purine metabolic pathways in vivo might induce the resumption of oocyte maturation. To test this hypothesis, immature mice were primed with pregnant mare's serum gonadotropin and 24 h later received, by i.p. injection, one of several drugs that inhibit specific enzymes in the purine metabolic pathways. Cumulus cell-enclosed oocytes were isolated from the ovaries at varying times after drug treatment and assessed for germinal vesicle breakdown (GVBD). The inosine monophosphate dehydrogenase inhibitors, mycophenolic acid (MA) and bredinin (Br), each induced GVBD in a dose-dependent fashion, Br being the more effective agent. When the kinetics of oocyte maturation were examined, 71% of the oocytes from MA-treated mice had undergone GVBD 21-22 h after drug administration. Moreover, 100% GVBD was observed in oocytes from Br-treated mice after 6 h. The action of these drugs appeared to be a direct one and not mediated through stimulation of pituitary gonadotropin release or atresia. Azaserine, an inhibitor of de novo purine synthesis, also induced GVBD in a dose-dependent manner. However, sodium hadacidin and dl-alanosine, inhibitors of adenylosuccinate synthetase, failed to elicit a maturational response in oocytes in vivo. These data support an essential role for guanyl and/or xanthyl derivatives in the maintenance of meiotic arrest in vivo.     

Variation in ten lysosomal hydrolase enzyme activities in inbred mouse strains

Activities of 10 lysosomal hydrolase enzymes (beta-hexosaminidase, beta-galactosidase, alpha-galactosidase, alpha-mannosidase, beta-mannosidase, alpha-L-fucosidase, beta-glucuronidase, alpha-glucosidase, alpha-N-acetylgalactosaminidase, and acid phosphatase) were determined in eight organs (brain, liver, kidney, spleen, heart, skeletal muscle, lung, and testis) in males and females of six inbred mouse strains (C57BL/6J, C3H/HeJ, DBA/2J, BALB/cJ, P/J, and 129/J). Examples of enzyme-specific variation, organ-specific variation, and enzyme- and organ-specific variation were found. New enzyme-specific variants with the features of systemic regulators for alpha-L-fucosidase and beta-mannosidase were found. Known variants were detected. Organ-specific variants had some of the properties expected for a new class of genes affecting multiple enzymes: organ-specific regulators.     

Cranial bone morphometric study among mouse strains

Background  

Little is known about the molecular mechanism which regulates how the whole cranium is shaped. Mouse models currently available for genetic research include several hundreds of unique inbred strains and genetically engineered mutants.     

Difference in response to mouse hepatitis virus among susceptible mouse strains.

After intraperitoneal inoculation with a high-virulent mouse hepatitis virus (MHV) a significant difference was seen in survival time between DDD and CDF1 (BALB/c X DDD) mice, while 50% lethal doses were not significantly different. With 3 X 10(3) PFU of the virus CDF1 and DDD mice died in 45 and 120 hr, respectively, on the average. This difference of susceptibility between DDD and CDF1 mice was first demonstrable at the age of 1 week and was more pronounced at the age of 4 weeks but showed no dependence of the sex. Virus titers ran 2 to 3 log higher in the liver and blood of CDF1 than in those of DDD mice, while being only 1 log higher in the spleen. At an early stage of infection viral antigen was demonstrable by immunofluorescence in sinusoidal lining cells of the liver more prominently in VDF1 than in DDD mice. Interferon production occurring in parallel with virus growth was significantly higher in CDF1 than in DDD mice. In DDD mice, liver lesions were rather focal with some accumulation of round cells, while they were confluent with poor cellular response in CDF1 mice. Viral growth in cultured peritoneal macrophages from CDF1 mice was 1 log higher than in those from DDD mice. The results suggest that the divergence in response to MHV among susceptible mice greatly depends upon the susceptibility of macrophages and reticuloendothelial cells which constitute primary targets of the virus.     

Genetic control of mammalian meiotic recombination. I. Variation in exchange frequencies among males from inbred mouse strains

Genetic background effects on the frequency of meiotic recombination have long been suspected in mice but never demonstrated in a systematic manner, especially in inbred strains. We used a recently described immunostaining technique to assess meiotic exchange patterns in male mice. We found that among four different inbred strains--CAST/Ei, A/J, C57BL/6, and SPRET/Ei--the mean number of meiotic exchanges per cell and, thus, the recombination rates in these genetic backgrounds were significantly different. These frequencies ranged from a low of 21.5 exchanges in CAST/Ei to a high of 24.9 in SPRET/Ei. We also found that, as expected, these crossover events were nonrandomly distributed and displayed positive interference. However, we found no evidence for significant differences in the patterns of crossover positioning between strains with different exchange frequencies. From our observations of >10,000 autosomal synaptonemal complexes, we conclude that achiasmate bivalents arise in the male mouse at a frequency of 0.1%. Thus, special mechanisms that segregate achiasmate chromosomes are unlikely to be an important component of mammalian male meiosis.     

Influence of mouse age and erythrocyte age on glutathione metabolism.

In order to determine whether the biological age of a mouse influences erythrocyte metabolism and erythrocyte aging in vivo, blood samples were collected from male C57/BL6J mice of different biological ages ranging from mature (10 months) to "very old" (37 months). In the very old mouse, compared with the mature mouse, the erythrocyte survival time was decreased, erythrocyte densities were increased, the concentrations of total free thiol and reduced glutathione, and glutathione reductase activity were decreased. Erythrocytes were separated into different density (age) groups by phthalate ester two-phase centrifugation or by albumin density-gradient centrifugation. The density-age relationship of erythrocytes was established by pulse-labelling with 59Fe in vivo and by subsequent determinations of specific radioactivity of erythrocyte fractions of different densities prepared during a chase period of 60 days. The age of erythrocytes in mice of all ages was directly related to density. Also, in older erythrocytes compared with younger erythrocytes, decreased concentrations of total free thiol and reduced glutathione, and decreased glutathione reductase activity were observed. These were the lowest in the old erythrocytes of very old mice. These results in aging erythrocytes from aging mice suggest that the glutathione status the erythrocyte may be an index of aging, not only of the cell but also of the organism.     

Variation of virulence and other properties among Sendai virus strains

The virulence of five Sendai virus strains (MN, Z, KN, Mol, and Hm) isolated from laboratory rodents was compared, using 3-week-old female Jcl-ICR mice. The virulence of the strains was Mol, MN, KN, Z, and Hm in decreasing order. The 50% lethal dose and 50% lung consolidation inducing dose of the highest virulent strain differed by the order of more than 10(3) and 10(6), respectively, from those of the lowest virulent one. Other properties such as the growth rate in LLC-MK2 cells, neuraminidase activities, and molecular weights of structural proteins also differed among the virus strains. These results indicate that Sendai virus prevailing in laboratory rodents is not homogenous with respect to virulence and some other properties.     

Regulation of purine metabolism in lymphocytes

Three general questions regarding nucleosides and lymphocytes are discussed: (a) Why are so many measurements being made of adenosine deaminase activity, what do the results mean, and why is there still disagreement about some of the conclusions; (b) what do we understand about nucleosides and lymphocyte death; and (c) to what extent do we really understand nucleoside and nucleotide metabolism in lymphocytes? Experimental studies show that treatment of mice with deoxycoformycin, to produce accumulation of deoxyadenosine, leads to rapid thymus involution, elevated dATP concentrations in thymus and liver, and inhibition of adenosylhomocysteine hydrolase in these tissues. Deoxyguanosine inhibits the growth of mouse lymphoma L5178Y cells, and this toxicity is prevented by deoxycytidine plus adenine. In cells treated with deoxyguanosine, concentrations of both GTP and dGTP are elevated, and this is not affected by deoxycytidine. Adenine, however, reduces GTP concentrations to normal, and prevents most of the elevation in dGTP concentrations. Contrary to previous belief, it has been demonstrated that lymphocytes and nucleated bone marrow cells will synthesize purine nucleotides de novo if incubated in an appropriate medium; carbon dioxide is particularly important for this process.     

Naturally occurring variation in cardiovascular traits among inbred mouse strains

The objective of this study was to characterize genetic variation in complex cardiovascular traits in two commonly used inbred mouse strains. We performed echocardiography, graded treadmill exercise, tail cuff plethysmography, and telemetry (heart rate, activity, temperature) in age- ( approximately 9 weeks) and sex-matched A/J and C57BL/6J (B6) inbred mice. B6 mice had significantly larger end-diastolic dimension (3.31+/-0.42 mm versus 2.83+/-0.31 mm) and left ventricle mass (46.2+/-14.1 versus 32.7+/-11.5 g) than A/J mice. This relative hypertrophy was eccentric (relative wall thickness ratios: 0.30+/-0.01 versus 0.32+/-0.01) and was not associated with a difference in systolic blood pressure (122.0+/-13.2 versus 123.1+/-20.8 mmHg). Left ventricle fractional shortening (39.1+/-6.2 versus 47.1+/-6.9%) and heart rate (433+/-55 versus 524+/-45 beats per minute) were significantly lower in B6 versus A/J, respectively, resulting in similar resting echocardiographic cardiac indices (0.58+/-0.19 versus 0.50+/-0.17 ml/min/g). Maximum exercise time on a treadmill was significantly greater in B6 than in A/J mice (9.6+/-3.4 versus 4.4+/-1.9 minutes). Telemetry showed that body temperature was generally greater and heart rate lower in B6 than A/J; the relation with activity was more complex. These data suggest that relative to A/J, B6 mice have a phenotype characteristic of the "athlete's heart," that is, eccentric, physiologic hypertrophy, slower heart rates, and increased exercise endurance. This systematic characterization of functionally related cardiovascular traits in A/J and C57BL/6J mice revealed numerous differences whose genetic bases can be dissected with recombinant inbred, recombinant congenic, and chromosome substitution strains.     

Dextran sulfate-induced peritoneal lysophospholipase activity varies among mouse strains

Lysophospholipase (LPL) activity resulting from the intraperitoneal injection of dextran sulfate (DS) was studied in different mouse strains. AKR/J and BALB/cByJ mouse strains showed decreased LPL levels when a low molecular weight DS was injected but increased LPL activity when high molecular weight DS was injected intraperitoneally. C57BL/6 mice had increased LPL activity with low molecular weight DS but decreased LPL activity with high molecular weight DS. All three mouse strains showed increased peritoneal-cell changes when injected with DS of a molecular weight of 79,000.This work was supported in part by Grants 80-12-215 and 81-04-008 from the American Osteopathic Association.