Influence of aging on intracellular free calcium and proliferation of mouse T-cell subsets from various lymphoid organs.

The influence of aging on T-cell activation and proliferation was examined in lymphocytes derived from peripheral blood, spleen, and lymph nodes of WBB6F1 C57B1/6J x WB/Re) mice. Following activation with anti-CD3 monoclonal antibodies, the greatest age-related changes were seen in CD4+ cells derived from spleens of 27- to 30-month-old mice. These CD4+ lymphocytes showed reduced [Ca2+]i signaling and decreased proliferation in the presence of exogenous interleukin 2. CD8+ cells from spleens of old animals showed reduced [Ca2+]i but not altered proliferation. Both CD4+ and CD8+ cells derived from peripheral blood of old mice showed decreased peak [Ca2+]i, but no defect in cell proliferation. In contrast, age-related deficits in either [Ca2+]i or proliferation were not observed in CD4+ and CD8+ cells from lymph nodes. Additionally, the percentage of CD4+ cells was decreased in all lymphoid organs from old mice, while the percentage of CD8+ cells was similar in lymphoid organs of old and young mice. Old mice had a significant increase in expression of Pgp-1 in CD4+ cells from spleen and peripheral blood and CD8+ cells derived from lymph node. Our studies indicate that there are differential effects of aging in T lymphocytes derived from different lymphoid organs in mice. Among the cell sources and subsets examined, the age-related changes noted in CD4+ cells from mouse peripheral blood were the most similar to those previously observed in the corresponding peripheral blood lymphocyte subset in humans.     

Reduced proliferation in T lymphocytes in aged humans is predominantly in the CD8+ subset, and is unrelated to defects in transmembrane signaling which are predominantly in the CD4+ subset

Peripheral blood lymphocytes (PBL) from elderly donors have a reduced proliferative response to phytohemagglutinin (PHA) and anti-CD3 monoclonal antibodies (mAb) compared to those from young donors. To examine whether this is due to intrinsic deficiencies in proliferative potential of T-cell subsets, we compared the growth of unsorted PBL vs sorted CD4+ or CD8+ CD11- cells after anti-CD3 mAb or PHA stimulation. Unsorted PBL of elderly donors (greater than 65 years) showed a significant decrease in proliferation compared to young donors (20-30 years) when stimulated with anti-CD3 mAb or PHA. Sorted CD4+ and CD8+ cells were grown in culture in the absence of accessory cells under optimized growth conditions (CD28 mAb, interleukin 2 and beta-mercaptoethanol present). CD4+ cells from elderly donors showed no reduced growth after anti-CD3 mAb stimulation and only slightly decreased growth after stimulation with PHA. CD8+ CD11- cells from elderly donors, however, showed a 20-30% reduction in the proportion of cells proliferating in response to the mitogens and up to 40% reduction in the rate of cell-cycle progression of the responding cells. We examined whether this reduced proliferation is related to decreased efficiency of signal transduction by comparing this to the mobilization of intracellular free calcium ([Ca2+]i) and calcium channel activity after stimulation with anti-CD3 mAb or PHA. [Ca2+]i was measured in CD4 and CD8 subsets of young and elderly donors using a flow cytometric assay with the dye indo-1. Compared to cells from young donors, CD4+ cells from elderly donors showed a [Ca2+]i response which was up to 26% lower after stimulation with CD3 and 10% lower after stimulation with PHA. This appeared to be related to decreased calcium channel activity in elderly donors, rather than mobilization of intracellular Ca2+ stores. CD8+ cells from elderly donors, however, had a slightly, but significantly, greater [Ca2+]i response to CD3 mAb and PHA than did cells from young donors. Since the age-dependent defect in proliferation is mainly in CD8+ cells, but the [Ca2+]i decline is predominantly in the CD4+ subset, these results suggest that the reduced proliferation of T cells from older donors is not related to decreased efficiency of transmembrane signal transduction.     

Effects of dietary calcium on adipocyte lipid metabolism and body weight regulation in energy-restricted aP2-agouti transgenic mice.

We have demonstrated previously a regulatory role for intracellular Ca2+ ([Ca2+]i) in adipocyte lipogenesis and lipolysis and have recently reported that 1,25-(OH)2-D increases adipocyte [Ca2+]i, which causes increased lipogenesis and decreased lipolysis. We have now tested the hypothesis that suppressing 1,25-(OH)2-D by increasing dietary calcium will suppress adipocyte [Ca2+]i, thereby facilitating weight loss by stimulating lipolysis and inhibiting lipogenesis in calorically (Kcal)-restricted (70% of ad lib) aP2-agouti transgenic (aP2-a) mice. Mice (aP2-a) exhibiting a pattern of obesity gene expression similar to humans were fed a low-Ca (0.4%)/high-fat/high-sucrose diet for six weeks, resulting in a 27% and twofold increase in body weight and total fat pad mass, respectively, with a twofold increase in adipocyte [Ca2+]i pad lib or Kcal-restricted (70% of ad lib) on this diet either unsupplemented (basal) or with 25% or 50% of the protein replaced by non-fat dry milk (medium or high) dairy or supplemented with CaCO3 to 1.2% Ca for six weeks. Adipocyte [Ca2+]i was unaffected by Kcal restriction but was reduced markedly by all three high Ca diets (290 vs. 130 nM, p2+]i and thereby reduce energy storage and increase thermogenesis during Kcal restriction.     

Effects of caloric restriction on cell proliferation in several tissues in mice: role of intermittent feeding

Reduced cell proliferation may mediate anticarcinogenic effects of caloric restriction (CR). Using heavy water (2H2O) labeling, we investigated the cell proliferation response to CR in detail, including time course, effect of refeeding, and role of intermittent feeding with 5% CR. In the time-course study, 8-wk-old female C57BL/6J mice were placed on a 33% CR regimen (fed 3 times/wk) for varying durations. Compared with responses in controls fed ad libitum (AL), proliferation rates of keratinocytes, mammary epithelial cells, and T cells were markedly reduced within 2 wk of CR. In mice fed 95% ad libitum (C95, fed 3 times/wk), cell proliferation was also reduced in all tissues so that differences from 33% CR were only significant at 1 mo. In the refeeding study, mice were refed a C95 diet for varying durations after 1 mo of 33% CR. Cell proliferation rebounded to a suprabasal rate in all tissues after 2 wk of refeeding and then normalized after 2 mo, although the C95 group again exhibited lower cell proliferation than the AL group. The role of intermittent feeding was studied by comparing 33% CR and C95 animals (both fed intermittently) with animals fed isocalorically either daily or continuously by pellet dispenser. Intermittent feeding had no additive effect on 33% CR but reduced cell proliferation in all tissues at the 95% caloric intake level. In summary, the CR effect on cell proliferation is potent, rapid, and reversible in several tissues, and an intermittent feeding pattern reproduces much of the effect in the absence of substantial CR.     

Testicular regression in response to food restriction and short photoperiod in white-footed mice (Peromyscus leucopus) is mediated by apoptosis

Short day lengths or reduced food availability are salient cues for small mammals that breed seasonally. Photoperiod-mediated gonadal regression in white-footed mice (Peromyscus leucopus) is a slow, orderly process that involves testicular apoptosis. Testicular regression in response to restricted caloric intake is relatively rapid, and it is generally reversed quickly by ad libitum (ad lib) feeding. To determine the contribution of apoptotic cell death during food restriction, and to examine possible interactions with photoperiod, mice housed in long (16L:8D) or short (8L:16D) photoperiods were fed either ad lib or 70% of their average ad lib intake. Testes were removed at 2, 4, 6, or 8 wk of experimental treatment. Apoptotic activity was determined by in situ TUNEL labeling and assessment of DNA laddering. Significant (P < 0.05) gonadal regression in response to short days was first detected at 8 weeks in mice fed ad lib. Food-restricted, long-day mice also showed significant testicular regression at 8 wk. Combined exposure to short day lengths and food restriction resulted in significant testicular regression at 6 wk (P < 0.05). TUNEL labeling was slightly, though significantly, elevated in germ cells at 2 and 4 wk in long-day food-restricted mice (P < 0.05). TUNEL labeling was also elevated in short-day food-restricted males at these early times but then increased nearly 5-fold at 6 and 8 wk in these mice (P < 0.001). DNA laddering confirmed elevated apoptosis. Overall apoptotic activity negatively correlated with paired testis mass, plasma testosterone, and spermatogenic index measurements in both ad lib and food-restricted males. Few histological markers of necrotic cell death were observed in any group. Taken together, these results suggest that testicular regression in response to limited caloric intake or short days is mediated by apoptosis.     

Caloric restriction maintains OX40 agonist-mediated tumor immunity and CD4 T cell priming during aging

Immune responses wane during aging, posing challenges to the potential effectiveness of cancer immunotherapies. We previously demonstrated that in the context of a promising immunotherapeutic, OX40 agonist (αOX40), older animals exhibited impaired anti-tumor immune responses and diminished CD4 T cell effector differentiation. In this study, we hypothesized that tumor immune responses could be maintained during aging through caloric restriction (CR) or dietary supplementation with resveratrol (RES), a CR mimetic. Mice were placed on either a calorically restricted diet or a RES-formulated diet starting between 4 and 6 months of age and continued until mice reached 12 months of age. Tumor immune responses were assessed after challenging with either sarcoma or breast tumor cells followed by αOX40 treatment. Our results show that CR, but not RES, maintained OX40-mediated anti-tumor immunity. In addition, CR fully sustained antigen-specific CD4 T cell priming in aged hosts (12 months old), whereas tumor-specific CD8 T cell priming was not fully maintained compared to young reference animals (2 months old). Thus, CR appears to maintain immunological fitness of the CD4 T cell priming environment during aging, which is critical for optimal OX40-mediated responses.     

Murine lymphocytes exhibit heterogeneity in their proliferative responsiveness to calcium ionophore.

The calcium ionophore, A23187, when used alone was found to induce proliferation of murine T cells, at concentrations of 0.5-1 mM. This response required the presence of syngeneic splenic adherant cells (SAC) as a source of accessory cells. Interestingly, only CD4+ T cells but not CD8+ T cells or B cells responded to the calcium ionophore by proliferation. The inability of CD8+ T cells or B cells to respond was not related to decreased elevation in the intracellular ionized calcium [Ca2+]i concentration induced by the ionophore, because activated CD4+ T, CD8+ T and B cells all exhibited similar elevation in [Ca2+]i. The inability of CD8+ T cells to respond to calcium ionophore was probably due to insufficient production of autocrine growth factors, such as IL-2, inasmuch as the addition of exogenous IL-2 could completely restore the CD8+ T cell responsiveness. Also, exogenous rIL-1 could partially restore purified T cell response to calcium ionophore, whereas, rIL-6 failed to do so. IL-2, but not IL-4, acted as an autocrine growth factor for T cells responding to the calcium ionophore in the presence of SAC, since, antibodies against IL-2 or IL-2 receptor (IL-2R) but not against IL-4, could inhibit the T cell proliferation. Furthermore, exogenous rIL-2 but not rIL-4 supported the proliferation of T cells to calcium ionophore in the absence of accessory cells. Our results suggest that murine lymphocytes exhibit heterogeneity in their proliferative responsiveness to calcium ionophore and that this may not depend on the early activation signal such as the elevation in [Ca2+]i) induced by the ionophore but may depend on subsequent signals which regulate endogenous growth factor production.     

Effect of dietary restriction on the degradation of proteins in senescent mouse liver parenchymal cells in culture

We previously reported that the half-life of protein degradation in cells from old mice is about 50% longer than that in cells from young or middle-aged ones. In the present study we investigated the degradation rate of microinjected proteins (horseradish peroxidase (HRP) and ovalbumin (OVA] and pulse-labeled proteins in hepatocytes from dietary-restricted old mice. Dietary restriction was initiated when mice were 23 months of age and performed in two steps (first 80% and then 60% of the ad libitum intake), the total period being 70 days. Hepatocytes were isolated from mice fed a restricted diet and fed ad libitum. The half-lives of HRP, OVA, and pulse-labelled proteins in the hepatocytes from mice fed a restricted diet were about 40% shorter than those in the cells from mice fed ad libitum. These values were close to those in the cells of young animals. These results are discussed in relation to our previous findings that a similar regimen reduces the percentage of heat-labile enzymes accumulated in tissues of aged animals.     

Patterns of costimulation of T cell clones by cross-linking CD3, CD4/CD8, and class I MHC molecules

The ability of mAb to class I MHC molecules, CD3, or CD4/CD8 to stimulate human T cell clones alone or in combination was examined. Cross-linking each of these surface Ag with appropriate mAb and goat anti-mouse Ig (GaMIg) resulted in a unique pattern of increase in intracellular free calcium ([Ca2+]i) and different degrees of functional activation. Cross-linking class I MHC molecules provided the most effective stimulus of IL-2 production and proliferation. Cross-linking more than one surface Ag induced a compound calcium signal with characteristics of each individual response. Cross-linking CD3 + HLA-A,B,C caused a rapid and prolonged increase in [Ca2+]i and synergistically increased IL-2 production and proliferation of all clones. Cross-linking CD3 + CD4/CD8 also generated a compound calcium signal and increased IL-2 production and DNA synthesis. Purposeful inclusion of CD3 was not required for costimulation as cross-linking HLA-A,B,C + CD4/CD8 also increased [Ca2+]i, IL-2 production, and proliferation. Cross-linking three surface Ag, CD3 + HLA-A,B,C + CD4/CD8, resulted in the greatest initial and sustained [Ca2+]i, IL-2 production, and DNA synthesis. Although there was a tendency for the various stimuli to increase both [Ca2+]i and functional responsiveness, neither the magnitude nor duration of the increased [Ca2+]i correlated with the amount of IL-2 produced or the ultimate proliferative response. To determine whether costimulation required that the various surface molecules were cross-linked together, experiments were carried out using isotype specific secondary antibodies. Augmentation of [Ca2+]i and costimulation of functional responses were noted when class I MHC molecules were cross-linked and CD3 was bound, but not cross-linked. Similarly, costimulation through CD3 and CD4/CD8 was observed when CD4/CD8 was cross-linked and the CD3 complex was engaged by an anti-CD3 mAb which was not further cross-linked. In contrast, costimulation by class I MHC molecules and CD4/CD8 was only observed when these molecules were cross-linked together. These data demonstrate that cross-linking class I MHC determinants or CD4/CD8 provides a direct signal to T cell clones that can be enhanced when CD3 is independently engaged. The results also indicate that T cell clones can be stimulated without engaging CD3 by the combination of signals delivered via class I MHC molecules and CD4/CD8, but only when these determinants were cross-linked together. These studies have demonstrated that these cell surface molecules differ in their capacity to deliver activation signals to T cell clones and also exhibit unique patterns of positive cooperativity in signaling potential.     

Role of the CD22 human B cell antigen in B cell triggering by anti-immunoglobulin

As B cells mature during ontogeny the CD22 human differentiation Ag is exported from the cytoplasm onto the membrane. Surface expression is lost in terminal differentiation and after activation. In tonsils, CD22 is expressed on the surface of 60 to 80% of the dense B cells. Some IgM+ dense cells, however, and buoyant in vivo activated B cells are CD22-. This differential expression of CD22 and the finding that an anti-CD22 mAb augmented anti-Ig induced B cell proliferation suggested that CD22 may play a role in B cell activation. In this study we have found that CD22+ but not CD22- B cells could be triggered by anti-IgM or anti-IgD to have increased free intracellular calcium ([Ca2+]i). The presence of CD22 rather than of IgD seems to determine the ability of B cells to respond to anti-Ig with a [Ca2+]i flux. Also the proliferative response to anti-Ig or anti-Ig + B cell growth factor was restricted to the CD22+ population. Anti-CD22 mAb, although not inducing [Ca2+]i on their own after binding to B cells, did augment [Ca2+]i fluxes by anti-Ig when cross-linked. Together these results suggest that CD22 may regulate triggering of B cells through surface Ig perhaps by acting as a "bridge" to transmit an early signal into the cytoplasm.     

Stress modulates calcium mobilization in immune cells

Both acute and chronic restraint stress modulated mitogen-induced increases in cytoplasmic free-calcium concentrations ([Ca2+]i) in mouse spleen cells. Dual-color analysis of lymphocyte subpopulations demonstrated that acute (2 hour) restraint stress suppressed mitogen-stimulated increases in [Ca2+]i in CD4+ T cells, but enhanced [Ca2+]i in CD8+ T cells. Chronic restraint stress (2 hours daily for up to 21 days) resulted in a significant suppression of mitogen-stimulated increases in [Ca2+]i in CD4+ T cells at 3 and 7 days, but not at 21 days. CD8+ T cells were unaffected by chronic stress. Chronic stress (for 7 days) had a modest suppressive effect on mitogen-induced Ca2+ responses in B cells. Within T lymphocyte subpopulations, both acute and chronic stress predominantly affected CD4+ T cells, which may induce a functional reversal of the CD4/CD8 ratios in vivo. Such a reversal could result in suppression of a variety of immune responses such as lymphocyte proliferation and antigen-specific antibody production. These findings indicate that the inhibitory effects of stress on calcium mobilization in lymphocytes may be an early event mediating stress-induced immunosuppression.     

Influence of age,sex, and dietary restriction on intracellular free calcium responses of CD4+ lymphocytes in rhesus monkeys (Macaca mulatta)

The influence of aging and dietary restriction on increase in intracellular free calcium ([Ca²⁺]_i) of CD4⁺ lymphocytes from Macaca mulatta was examined after stimulation with anti-CD3 mAb. We used a flow cytometric assay with the dye indo-1 and either direct or reciprocal immunofluorescent staining to dientify CD4⁺ cells. After stimulation with anti-CD3 mAb, intracellular free calcium responses were reduced in CD4⁺ lymphocytes from old male and female ad libitum fed monkeys compared to young and adult male or female monkeys. Old female monkeys had significantly lower [Ca²⁺]_i than did old male monkeys. The reduced responses were in part related to a decreased percentage of responding cells. Dietary restrition of males over a four-year period did not alter [Ca²⁺]_i response compared to ad libitum fed male monkeys. Female monkeys of all ages (which were restricted only for four months) also had similar [Ca²⁺]_i responses to ad libitum fed controls. Our data suggest that age-related changes in [Ca²⁺]_i responses are similar between humans and M. mulatta, and that over these intervals, no effects of caloric restrictions can be detected. © 1995 Wiley-Liss, Inc.     

Brief refeeding restores reproductive readiness in food-restricted female musk shrews (Suncus murinus)

Food deprivation blocks sexual behavior and disrupts estrous cycles in mammals. We asked whether reduced copulatory behavior, produced by limited food intake, could be reversed by brief refeeding intervals in the female musk shrew. In Experiment 1, animals were food restricted to 60% of ad lib (FR), and an additional group of FR females were refed for 90 min prior to testing (RF). Refed and ad lib (AL) fed females were significantly more likely to mate than FR females. To test the hypothesis that food-induced restoration of copulatory behavior is not the result of changes in peripheral steroids, we repeated Experiment 1 using ovariectomized and testosterone-implanted females. The results from Experiment 2 were similar to those found in the first study. Next, a more severe refeeding schedule was employed; females were restricted to 50% of ad lib intake. Females in the RF and FR groups were significantly less likely than the AL animals to mate. In the last experiment, females were food restricted to 50% and longer refeeding intervals were employed. Four and one-half hours of food intake did not reinstate sexual behavior, but females refed for 12 h were as likely to mate as ad lib fed controls. We also did not detect any differences in plasma concentrations of testosterone and cortisol in AL, FR, and RF ovary-intact animals. These results define a nutritional threshold for copulatory behavior in the musk shrew. Since this species is highly sensitive to small alterations in food intake, it is a useful model for studies of interactions between metabolic fuels and behavior.     

A novel homodimeric molecule involved in human T cell activation

A mAb, 10D1, was obtained by fusing spleen cells from BALB/c mice immunized with a CD3/TCR- human T cell line, P12/ichikawa, to mouse myeloma cells, P3X63-Ag8-653. 10D1 mAb is specific for T cells in that it reacted with all the T cell lines tested, but not with B or myeloid cell lines. A small fraction of normal peripheral blood T cells, preferentially CD4+, was also reactive with 10D1 mAb. Biochemical studies revealed that 10D1 mAb recognizes a disulfide-linked homodimeric molecule composed of 90-kDa polypeptide. 10D1 mAb induced a substantial proliferation of peripheral blood T cells when cross-linked with goat anti-mouse Ig antibody. The elimination of CD4+ cells totally abrogated the proliferative response induced by 10D1 mAb, whereas the elimination of CD8+ cells rather enhanced it. The proliferative response of peripheral blood T cells induced by 10D1 mAb was almost completely inhibited after modulation of the CD3/TCR complex with anti-CD3 mAb. In addition, a prompt increase in intracellular [Ca2+] was observed in a CD3+ T cell line, Jurkat but not in its surface CD3- mutant when 10D1 mAb was added. These results indicate that the 10D1 molecule is involved in a novel pathway of human CD4+ T cell activation, which is associated with the CD3/TCR-mediated pathway.     

Chronic exercise lowers the defended body weight gain and adiposity in diet-induced obese rats

The effects of running wheel exercise and caloric restriction on the regulation of body weight, adiposity, and hypothalamic neuropeptide expression were compared in diet-induced obese male rats over 6 wk. Compared with sedentary controls, exercising rats had reduced body weight gain (24%), visceral (4 fat pads; 36%) and carcass (leptin; 35%) adiposity but not insulin levels. Hypothalamic arcuate nucleus (ARC) proopiomelanocortin (POMC) mRNA expression was 25% lower, but ARC neuropeptide Y (NPY), agouti- related peptide, dorsomedial nucleus (DMN) NPY, and paraventricular nucleus (PVN) corticotropin- releasing hormone (CRH) expression was comparable to controls. Sedentary rats calorically restricted to 85% of control body weight reduced their visceral adiposity (24%), leptin (64%), and insulin (21%) levels. ARC NPY (23%) and DMN NPY (60%) were increased, while ARC POMC (40%) and PVN CRH (14%) were decreased. Calorically restricted exercising rats an half as much as ad libitum-fed exercising rats and had less visceral obesity than comparably restricted sedentary rats. When sedentary restricted rats were refed after 4 wk, they increased intake and regained the weight gain and adiposity of sedentary controls. While refed exercising rats and sedentary rats ate comparable amounts, refed exercising rats regained weight and adiposity only to the level of ad libitum-fed exercising rats. Thus exercise lowers the defended level of weight gain and adiposity without a compensatory increase in intake and with a very different profile of hypothalamic neuropeptide expression from calorically restricted rats. This may be due to exercise-related factors other than plasma insulin and leptin.     

High accumulation of T regulatory cells prevents the activation of immune responses in aged animals

In our previous in vivo study we demonstrated that young BALB/c mice effectively rejected the BM-185 tumor cells expressing enhanced GFP (EGFP) as a surrogate tumor Ag. In contrast, old BALB/c mice succumbed to the BM-185-EGFP tumors, indicating that there is a deficiency in old animals preventing the rejection of immunogenic tumors. There is cumulative evidence indicating that regulatory T (T(reg)) cells control the activation of primary and memory T cell responses. However, very little is known about whether there is a relation between T(regs) and the lack of immune responses in the aged. We evaluated young and aged animals, and our results demonstrated that there are significantly more CD4+CD25+FoxP3+ and CD8+CD25+FoxP3+ T(regs) in the spleen and lymph nodes of old animals when compared with the young. Depletion of CD25+ cells with anti-CD25 mAb induces the rejection of BM-185-EGFP cells, restores antitumor T cell cytotoxic activity, and results in the generation of a protective memory response against the BM-185 wild-type tumors in old mice. Furthermore, vaccination with CpG-oligodeoxynucleotide decreases the number of T(reg) cells in old animals to the same levels as young mice, restoring the primary and memory antitumor immune responses against BM-185-EGFP tumors. Taken together, these results indicate that there is a direct correlation between the expansion of T(reg) cells and immune deficiency in the old, and that depletion of these cells might be critical for restoring immune responses in aged animals.     

Occurrence of mature B (IgM+, B220+) and T (CD3+) lymphocytes in scid mice

Scid mice with and without detectable serum Ig (scid Ig+ and scid Ig- mice, respectively) were examined for the presence of mature "leaky" lymphocytes by flow microfluorimetry with the use of antibodies to B (IgM, B220) and T (CD3, CD4, CD8) lymphocyte surface Ag. The data showed that leaky scid mice are more frequent than is evident from serum Ig analysis and that the incidence of detectable B and T cells increases with age. IgM+ B220+ cells were not detectable in young adult mice (3 mo old), but in old mice (greater than or equal to 1 yr old) they were routinely present in the peritoneal cavity though not in the spleen. Striking differences in the representation of T cell subsets were seen in the thymus of these two age groups. Most young adult mice contained CD3- populations of CD4/CD8 double positive cells, and in some cases, CD4 or CD8 single positive cells as well. By contrast, identifiable T lineage cells in old mice were all CD3+ and predominantly single positive for CD4 or CD8. Detectable peripheral T cell populations numbered less than 10(5) cells, and the representation of T subset markers (CD4, CD8) varied widely among individual mice; further, Southern blot analysis of TCR gene rearrangements in the DNA of polyclonally stimulated lymphoid cultures from these mice showed very restricted heterogeneity relative to that of cultures from normal mice. We conclude that most leaky mice contain very few T cell clones.     

Decreased fidelity of DNA polymerases and decreased DNA excision repair in aging mice: effects of caloric restriction.

Hepatic DNA polymerases from calorie restricted and ad libitum 26 month old C57BL/6 mice showed a decline in fidelity of nucleotide incorporation compared with weanling animals. Both alpha and beta polymerases from calorie restricted aged mice exhibited a higher level of fidelity than polymerases from ad libitum aged mice. UV-initiated unscheduled DNA synthesis was significantly higher in hepatocytes from weanling and 18 month old calorie restricted animals compared with cells from 18 month old ad libitum animals, while MMS-initiated unscheduled DNA synthesis did not differ significantly between cells from young and old or ad libitum and calorie restricted animals. These data suggest that calorie restriction could play a significant role in decreasing the age-related decline of cellular mechanisms expected to reduce the rate at which mutations accumulate during aging, and could potentially prolong the onset age of mutation-associated diseases of the elderly.     

Calorie restriction increases Fas/Fas-ligand expression and apoptosis in murine splenic lymphocytes.

One-month-old male ICR mice were fed a nutritionally adequate, semipurified diet, either ad libitum (AL) or calorie restricted (CR) (40% less food) for 6 months and were killed to obtain spleens. Flow cytometric analysis revealed increased proportions of both CD4+ and CD8+ T cells in CR-fed mice compared to AL-fed mice. The T cell subsets of CR-fed mice were also found to have higher levels of plasma membrane Fas receptor expression. Similarly, Fas-ligand (Fas-L) expression was higher in anti-CD3-stimulated CD4+ and CD8+ T cells. CR-fed mice also had increased numbers of annexin V-positive CD4+ and CD8+ T cells in stimulated splenic lymphocytes suggesting an increased potential for apoptosis. Fas and Fas-L gene expression in splenic lymphocytes, which correlated closely with the observed increased rate of apoptosis, was significantly increased in CR-fed mice compared to AL-fed mice. In conclusion, these results indicate that CR increases the expression of Fas and Fas-L which may contribute to the known beneficial effects of CR such as prolongation of life span by activating chronic physiologically mediated apoptosis.