Expression of C-type oncornavirus proteins in tumors of CC57BR mice]

Murine endogenous oncornavirus (C-type) genome expression was investigated in methylcholanthrene-induced (MC-induced) tumours of low-leukemic CC57BR mice by means of the radioimmunodiffusion method, using the precipitating test-systems. The gs-1 antigen of murine C-type viral p30 protein and Gross leukemia virus type-specific antigen (AGLV) served as viral genome markers. The gs-1 antigen was found in the primary and continuous MC-induced sarcomas, whereas AGLV appeared only during the tumour passage. A distinct association was revealed between the quantity of p30 protein (gs-1 antigen titre) and the presence of AGLV. Simultaneously with the appearance of AGLV the gs-1 titre increased markedly and the AGLV disappearance was always accompanied by a decrease of the gs-1 titre. The data presented suggest a coordinated expression of the two investigated proteins of murine C-type endogenous oncornaviruses in the chemically-induced tumours of CC57BR mice.     

Expression of CYP1A in liver of A/Sn and CC57BR mice differing in sensitivity to hepatocarcinogenesis induced by o-aminoazotoluene

The induction of P450 cytochromes Cyp1a1 and Cyp1a2 in the liver of male mice differing in sensitivity to the carcinogenic effect of o-aminoazotoluene (OAT) has been studied. The level of Cyp1a1 and Cyp1a2 mRNA was assayed by quantitative competitive polymerase chain reaction (PCR). In both OAT-treated strains, the level of Cyp1a1 mRNA increased more than 1000-fold, while the amount of Cyp1a2 mRNA increased only two- or threefold. Interstrain differences in the Cyp1a mRNA level were revealed. The level of Cyp1a1 mRNA in liver of OAT-induced A/Sn mice was three times higher than in CC57BR mice. The amount of Cyp1a2 mRNA in control and OAT-treated mice was 7 and 13 times higher, respectively, than in CC57BR mice. The enzyme activities of cytochromes P450 1a were assayed. An increase in Cyp1a1 mRNA level in OAT-treated mice correlated with an enhancement of the benzo[a]pyrene hydrolase and 7-ethoxyresofurin o-deethylase activities; the correlation between the level of Cyp1a2 mRNA and 7-ethoxyresofurin o-demethylase activity was much less pronounced. Interstrain variation in Cyp1a1 and Cyp1a2 activities was also shown at the enzyme activity level. We suppose that quantitative differences in the Cyp1a2 mRNA level play a key role in OAT-induced hepatocarcinogenesis.     

Cardiovascular responses to caloric restriction and thermoneutrality in C57BL/6J mice

We utilized variations in caloric availability and ambient temperature (T(a)) to examine interrelationships between energy expenditure and cardiovascular function in mice. Male C57BL/6J mice (n = 6) were implanted with telemetry devices and housed in metabolic chambers for measurement of mean arterial pressure (MAP), heart rate (HR), O(2) consumption (VO(2)), and locomotor activity. Fasting (T(a) = 23 degrees C), initiated at the onset of the dark phase, resulted in large and transient depressions in MAP, HR, VO(2), and locomotor activity that occurred during hours 6-17, which suggests torporlike episodes. Food restriction (14 days, 60% of baseline intake) at T(a) = 23 degrees C resulted in progressive reductions in MAP and HR across days that were coupled with an increasing occurrence of episodic torporlike reductions in HR (<300 beats/min) and VO(2) (<1.0 ml/min). Exposure to thermoneutrality (T(a) = 30 degrees C, n = 6) reduced baseline light-period MAP (-14 +/- 2 mmHg) and HR (-184 +/- 12 beats/min). Caloric restriction at thermoneutrality produced further reductions in MAP and HR, but indications of torporlike episodes were absent. The results reveal that mice exhibit robust cardiovascular responses to both acute and chronic negative energy balance. Furthermore, we conclude that T(a) is a very important consideration when assessing cardiovascular function in mice.     

NPY ablation in C57BL/6 mice leads to mild obesity and to an impaired refeeding response to fasting

Neuropeptide Y (NPY) is an orexigenic (appetite-stimulating) peptide that plays an important role in regulating energy balance. When administered directly into the central nervous system, animals exhibit an immediate increase in feeding behavior, and repetitive injections or chronic infusions lead to obesity. Surprisingly, initial studies of Npy(-/-) mice on a mixed genetic background did not reveal deficits in energy balance, with the exception of an attenuation in obesity seen in ob/ob mice in which the NPY gene was also deleted. Here, we show that, on a C57BL/6 background, NPY ablation is associated with an increase in body weight and adiposity and a significant defect in refeeding after a fast. This impaired refeeding response in Npy(-/-) mice resulted in a deficit in weight gain in these animals after 24 h of refeeding. These data indicate that genetic background must be taken into account when the biological role of NPY is evaluated. When examined on a C57BL/6 background, NPY is important for the normal refeeding response after starvation, and its absence promotes mild obesity.     

Estrogen and progesterone affect responses to malaria infection in female C57BL/6 mice

Background: Previous data from our laboratory suggest that gonadally intact C57BL/6 male mice are more likely than their female counterparts to die from Plasmodium chabaudi infection, to recover more slowly from weight loss and hematocrit loss, and to have reduced interferon-γ (IFN-γ) and interleukin-10 (IL-10) responses. Removal of the ovaries, and hence, the primary production of sex steroids in females, reverses these differences.Objective: We hypothesized that sex differences in response to P chabaudi may be mediated by differential synthesis of IFN-γ and IL-10 that is influenced by estrogen, progesterone, or both.Methods: C57BL/6 female mice (n = 200; n = 10/time point/treatment/experiment) were ovariectomized and implanted with a 21-day controlled-release pellet containing either 0.1 mg of 17β-estradiol (E₂), 10 mg of progesterone (P₄), 0.1 mg of E₂ plus 10 mg of P₄, or cholesterol (placebo). Females were inoculated with 10⁶P chabaudi-infected erythrocytes. Body mass, body temperature, hematocrit, parasitemia, cytokine production, and antibody responses were monitored 0, 3, 5, 7, 10, 14, and 21 days postinoculation.Results: Administration of E₂, either alone or in combination with P₄, mitigated infection-induced weight loss, hematocrit loss, and hypothermia, compared with females receiving placebo pellets (P < 0.05 in each case). Hormone treatment did not affect levels of parasitemia. Females administered E₂ alone or in combination with P₄ produced 4 to 7 times higher IFN-γ and IL-10 during peak parasitemia than did females implanted with pellets containing either P₄ alone or placebo (P < 0.05 in each case). Exposure to E₂, either alone or in combination with P₄, increased anti-P chabaudi immunoglobulin G (IgG1) responses and the ratio of IgG1 to IgG2c (P < 0.05 in each case).Conclusion: This animal study suggests that physiological levels of estrogen, rather than progesterone, enhance immunity and, possibly, protect females from disease symptoms during malaria infection.     

Effects of dietary fat on cholesterol movement between tissues in CBA/J and C57BR/cdJ mice.

Differences in dietary fats cause differences in cholesterol metabolism in mice. CBA/J mice are resistant to diet-induced hypercholesterolemia and atherosclerosis; they adjust hepatic hydroxymethyl-glutaryl-CoA reductase activity (HMGR) to maintain homeostasis; C57BR/cdJ mice are susceptible, but young animals are thought to maintain homeostasis by changing fecal excretion of sterols. Compartmental modelling of movement of [4-14C]cholesterol was used to analyze movement of cholesterol between serum and liver, heart, and carcass in mice fed 40 en% fat, polyunsaturated to saturated fatty acid ratio (P/S) = 0.24 (US74) or 30 en% fat, P/S = 1 (MOD). Dietary effects were quite pronounced, while strain effects were more subdued. The C57/cdJ animals appear to regulate the overall cholesterol balance by reducing synthesis, as do the CBA/J animals, even though synthesis is not reduced to the same degree as in the CBA/J animals. Both diet and strain influence the whole-animal turnover rate, with slower turnover occurring for C57BR/cdJ animals and animals fed the US74 diet.     

Immune responses to the pertussis toxin in Balb/c and C57B1/6 mice

Abstract Immunization of Balb/c and C57B1/6 mice with the pertussis toxin (Ptx), purified from the culture supernatant of Bordetella pertussis (the whooping cough bacillus) resulted in different immune reactions in these genetically different strains of mice. Antibody responses to Ptx were detected only in Balb/c, whereas both Balb/c and C57B1/6 produced anti-Ptx antibodies when immunized with detoxified Ptx. Also, delayed-type hypersensitivity reactions differ strongly according to the use of Ptx or detoxified Ptx as eliciting antigen.     

Gurmarin suppression of licking responses to sweetener-quinine mixtures in C57BL mice

Gurmarin (Gur) is a peptide that selectively suppresses responses of the chorda tympani nerve to sweet substances in rats and mice. In the present study, we examined the effect of Gur on behavioral responses to sweet substances in C57BL mice. To accomplish this, we developed a new short-term lick test and measured numbers of licks for 10 s for sweet substances mixed with quinine hydrochloride (QHCl) in water-deprived mice. Numbers of licks for sucrose mixed with 1 or 3 mM QHCl increased with increasing concentration of sucrose from 0.01 to 1.0 M. Oral infusion with 30 micro g/ml Gur produced significant decreases in responses to concentration series for sucrose mixed with 3 mM QHCl, whereas no such effect by Gur was observed in responses to QHCl alone or QHCl-mixed HCl, NaCl or monosodium glutamate. The Gur suppression of QHCl-mixed sucrose responses, which otherwise lasted for 2-3 h, rapidly returned to approximately 80% of control levels after oral infusion with beta-cyclodextrin. These results are comparable to neural data previously found in chorda tympani responses, and thereby provide further evidence for Gur as a sweet response inhibitor in C57BL mice. In the other aspect, our newly developed short-term test can also provide a tool for measurements of taste-guided behavioral responses to sweeteners.     

Alternate day fasting impacts the brain insulin-signaling pathway of young adult male C57BL/6 mice

Dietary restriction (DR) has recognized health benefits that may extend to brain. We examined how DR affects bioenergetics-relevant enzymes and signaling pathways in the brains of C57BL/6 mice. Five-month-old male mice were placed in ad libitum or one of two repeated fasting and refeeding (RFR) groups, an alternate day (intermittent fed; IF) or alternate day plus antioxidants (blueberry, pomegranate, and green tea extracts) (IF + AO) fed group. During the 24-h fast blood glucose levels initially fell but stabilized within 6 h of starting the fast, thus avoiding frank hypoglycemia. DR in general appeared to enhance insulin sensitivity. After six weeks brain AKT and glycogen synthase kinase 3 beta phosphorylation were lower in the RFR mice, suggesting RFR reduced brain insulin-signaling pathway activity. Pathways that mediate mitochondrial biogenesis were not activated; AMP kinase phosphorylation, silent information regulator 2 phosphorylation, peroxisomal proliferator-activated receptor-gamma coactivator 1 alpha levels, and cytochrome oxidase subunit 4 levels did not change. ATP levels also did not decline, which suggests the RFR protocols did not directly impact brain bioenergetics. Antioxidant supplementation did not affect the brain parameters we evaluated. Our data indicate in young adult male C57BL/6 mice, RFR primarily affects brain energy metabolism by reducing brain insulin signaling, which potentially results indirectly as a consequence of reduced peripheral insulin production.     

Immune responses against allogeneic and syngeneic tumors in aged C57BL/6 mice

Aged C57BL/6 (B6) mice could reject allogeneic BALB/c RL male 1 tumor as efficiently as young B6 mice. However, in vitro analysis showed impaired generation of cytotoxic T cell response in aged B6 mice against allogeneic tumor. The reaction could be augmented by the addition of recombinant interleukin-2 (rIL-2). Enzyme-linked immunospots (ELISPOT) produced by CD8+ T cells purified from spleen cells showed no reduction in aged mice. The findings suggested that the number of CD8+ T cells capable of reacting against allogeneic H-2 antigens was similar in young and aged B6 mice. Low cytotoxic T lymphocyte (CTL) responsiveness in aged B6 mice appeared to have resulted from low responsiveness of CD4+ T cells producing IL-2. Although CTL generation was apparently impaired, strong multiple antigenicity of allogeneic tumor evoked a rejection response in aged B6 mice. On the other hand, no rejection response was observed against syngeneic EL4 tumor in aged B6 mice even after depletion of CD4+ CD25+ immunoregulatory cells. Depletion of CD4+ CD25+ cells caused rejection of EL4 tumor in young B6 mice. The findings suggested that aged B6 mice were incapable of inducing effector cells against weak tumor antigens. Only marginal CTL response and small number of ELISPOTs were generated in young but not aged B6 mice against EL4. Addition of rIL-2 to the culture augmented EL4 killing and ELISPOTs in spleen cells from young and aged B6 mice.     

Whole nerve chorda tympani responses to sweeteners in C57BL/6ByJ and 129P3/J mice

The C57BL/6ByJ (B6) strain of mice exhibits higher preferences than does the 129P3/J (129) strain for a variety of sweet tasting compounds. We measured gustatory afferent responses of the whole chorda tympani nerve in these two strains using a broad array of sweeteners and other taste stimuli. Neural responses were greater in B6 than in 129 mice to the sugars sucrose and maltose, the polyol D-sorbitol and the non-caloric sweeteners Na saccharin, acesulfame-K, SC-45647 and sucralose. Lower neural response thresholds were also observed in the B6 strain for most of these stimuli. The strains did not differ in their neural responses to amino acids that are thought to taste sweet to mice, with the exception of L-proline, which evoked larger responses in the B6 strain. Aspartame and thaumatin, which taste sweet to humans but are not strongly preferred by B6 or 129 mice, did not evoke neural responses that exceeded threshold in either strain. The strains generally did not differ in their neural responses to NaCl, quinine and HCl. Thus, variation between the B6 and 129 strains in the peripheral gustatory system may contribute to differences in their consumption of many sweeteners.     

Gustatory neural responses to umami taste stimuli in C57BL/6ByJ and 129P3/J mice

In long-term two-bottle tests, mice from the C57BL/6ByJ (B6) strain drink more monosodium L-glutamate (MSG) and inosine-5'-monophosphate (IMP) compared with mice from the 129P3/J (129) strain. The goal of this study was to assess the role of afferent gustatory input in these strain differences. We measured integrated responses of the mouse chorda tympani and glossopharyngeal nerves to lingual application of compounds that evoke umami taste in humans: MSG, monoammonium L-glutamate (NH(4) glutamate), IMP and guanosine-5'-monophosphate (GMP) and also to other taste stimuli. Chorda tympani responses to MSG and NH(4) glutamate were similar in B6 and 129 mice. Chorda tympani responses to IMP and GMP were lower in B6 than in 129 mice. Responses to umami stimuli in the glossopharyngeal nerve did not differ between the B6 and 129 strains. Responses to MSG, IMP and GMP were not affected by sodium present in these compounds because B6 and 129 mice had similar neural taste responses to NaCl. This study has demonstrated that the increased ingestive responses to the umami stimuli in B6 mice are accompanied by either unchanged or decreased neural responses to these stimuli. Lack of support for the role of the chorda tympani or glossopharyngeal nerves in the enhanced consumption of MSG and IMP by B6 mice suggests that it is due to some other factors. Although results of our previous study suggest that postingestive effects of MSG can affect its intake, contribution of other gustatory components (e.g. greater superficial petrosal nerve or central gustatory processing) to the strain differences in consumption of umami compounds also cannot be excluded. Strain differences in gustatory neural responses to nucleotides but not glutamate suggest that these compounds may activate distinct taste transduction mechanisms.     

Thiophosphamide-induced chromosome aberrations in embryonal liver and bone marrow cells of A/He and C57BL/L mice]

Chromosomal aberrations were studied in cells of embryonic liver and bone marrow of A/He and C57BL/6 mice following mutagenic treatment by the alkylating agent thiophosphamide in g1-S periods of the cell cycle. Higher sensitivity of chromosomes to aberration induction was found in A/He mice.     

Genetic analysis of expulsion of adult Trichinella spiralis in NFS, C3H/He, and B10.BR mice

The genetics of T. spiralis rejection from the intestine was examined in inbred mice belonging to three phenotypic categories of expulsion: strong (NFS), intermediate (C3H), and weak (B10.BR). Experiments used various worm doses to analyze the day of worm rejection, defined as the day at which 98% expulsion of the infectious dose occurred. The F1 of NFS (strong) x B10.BR (weak) was a strong responder and the F1 of the cross C3H (intermediate) x B10.BR (weak) was intermediate. Analysis of time of rejection among offspring of the (NFS/B10.BR) x B10.BR backcross showed three segregating phenotypic categories which occurred in a ratio of 1:2:1 strong:intermediate:weak. Segregation analysis of C3H/B10.BR intercross (F2) mice produced a ratio of 3:1, intermediate:weak. The backcross C3H/B10.BR to the C3H parent produced 100% intermediate offspring and the backcross to the B10.BR parent segregated in a 1:1 ratio of intermediate:weak. Taken together the results of both sets of crosses demonstrated that strong responsiveness was a consequence of the additive effects of two dominant genes; either gene by itself conferred intermediate responsiveness. The additive nature of these dominant genes suggested that two distinct processes each lead to the expression of worm expulsion that is phenotypically intermediate and kinetically identical.     

Substrain specific behavioral responses in male C57BL/6N and C57BL/6J mice to a shortened 21-hour day and high-fat diet

ABSTRACT

Altered circadian rhythms have negative consequences on health and behavior. Emerging evidence suggests genetics influences the physiological and behavioral responses to circadian disruption. We investigated the effects of a 21 h day (T = 21 cycle), with high-fat diet consumption, on locomotor activity, explorative behaviors, and health in male C57BL/6J and C57BL/6N mice. Mice were exposed to either a T = 24 or T = 21 cycle and given standard rodent chow (RC) or a 60% high-fat diet (HFD) followed by behavioral assays and physiological measures. We uncovered numerous strain differences within the behavioral and physiological assays, mainly that C57BL/6J mice exhibit reduced susceptibility to the obesogenic effects of (HFD) and anxiety-like behavior as well as increased circadian and novelty-induced locomotor activity compared to C57BL/6N mice. There were also substrain-specific differences in behavioral responses to the T = 21 cycle, including exploratory behaviors and circadian locomotor activity. Under the 21-h day, mice consuming RC displayed entrainment, while mice exposed to HFD exhibited a lengthening of activity rhythms. In the open-field and light-dark box, mice exposed to the T = 21 cycle had increased novelty-induced locomotor activity with no further effects of diet, suggesting daylength may affect mood-related behaviors. These results indicate that different circadian cycles impact metabolic and behavioral responses depending on genetic background, and despite circadian entrainment.