Changes in suppressor, helper, and B-cell functions in aging mice

Mammary tumors suppress aging-induced neuroinflammation in female Balb/c mice

Neuroinflammation confers changes in brain function (i.e., behavior) that are hypothesized to be adaptive in the short-term, but detrimental (e.g., depression, anxiety) if they persist. Both peripheral tumor growth (outside of the brain) and natural aging independently cause neuroinflammation in rodents, which is corroborated by clinical studies. Mammary tumor effects on neuroinflammation and behavior, however, are typically studied in young rodents, whereas most breast cancer patients are middle-aged. Therefore, the existing literature likely underestimates the resulting neuroinflammation that may occur in clinical cancer populations. The present study tested the hypothesis that aging exacerbates mammary tumor-induced neuroinflammation in female mice. Aging (16 months and ovariectomized) increased body and spleen masses, whereas tumors grew faster and increased spleen mass in young mice (12 weeks) only. Tumors (IL-6, IL-10, TNFα, MCP-1, CXCL1, IP-10) and aging (IL-10, IFNγ) independently increased circulating inflammatory markers, although these variables were only significantly additive in one case (TNFα). In contrast to our prediction, the interaction between tumors and aging resulted in reduced mRNA and protein expression of select inflammatory markers in the hippocampus of tumor-bearing aged mice relative to aged controls. These results indicate that tumors reduce inflammatory activation in the brains of aged mice, a deficit that is likely disadvantageous. Further understanding of how aging and cancer interact to affect brain function is necessary to provide clinically-relevant results and identify mechanisms underlying persistent behavioral issues hampering adult cancer patients.

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Tumors grew more slowly in aged mice.

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Tumors and aging independently increased circulating inflammatory markers.

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Tumors reduced mRNA and protein expression of inflammatory markers in the hippocampus in aged mice.

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Reduced inflammatory activation in the brains of aged mice is likely not adaptive.

The immune system in the elderly: I. Specific humoral immunity

Profound and complex changes in the immune response occur during the aging process. Immunosenescence is reflected by a sum of disregulations of the immune system and its interaction with other systems. Many of the changes would appear to implicate age-related deficiencies of the immune responses. The term immunosenescence designates therefore a sort of deterioration of the immune function which is believed to manifest itself in the increased susceptibility to cancer, autoimmune disease, and infectious disease. Evidence has been accumulating from several studies which suggest an association between immune function and individual longevity. However, there are observations, especially in very old healthy people, that several immune functions are unexpectedly well preserved and substantially comparable to those observed in young subjects. These findings raise the question of whether the alterations that can be observed in the immune parameters of the elderly are a cause or a result of underlying disease processes. Moreover, studies on centenarians revealed a remodeling of the immune system rather than a deterioration, suggesting that the changes observed during immunosenescence do not correspond to immunodeficiency. The underlying mechanisms of these events are however still unclear. The purpose of the present review is to assess the status of research on the immunobiology of aging. In this first section, we focus attention on the B cell biology of aging. In clinical practice, the changes in humoral immune responsiveness and antibody-mediated defense mechanisms could greatly influence the incidence and outcome of bacterial infections and autoimmune diseases as well as the response to vaccines.

Aging and lymphocyte subsets in the spleen and peripheral blood of the Sprague-Dawley rat

This study was undertaken to determine the effects of aging on lymphocyte subsets in the peripheral blood and spleens of Sprague-Dawley rats. Rats aged 3,13 and 26 months were used in the study. Analyses of dual labeled lymphocytes from the 26 month animals show decreases in the numbers of lymphocytes due to decreased cellularity (spleen) or reduced lymphocyte percentages within the total white blood cell population (peripheral blood). In the spleens and blood of the oldest rats, there were reduced numbers of Total T, T helper/amplifier (Th/a), virgin Th and natural killer (NK) cells. Other changes were observed in the spleen but not peripheral blood. The numbers of T cytotoxic/suppressor cells (Tc/s) B cells, "autoimmune" B cells and NK cells were reduced in the spleen but remained within normal limits in peripheral blood. The data show aging exerts different effects on the peripheral blood and splenic compartments of the immune system. These differences may have teleological significance in relation to immune responses to xenobiotics and neoplastic cells.

Human B cell proliferative responses during aging. Reduced RNA synthesis and DNA replication after signal transduction by surface immunoglobulins compared to B cell antigenic determinants CD20 and CD40

Age-related reductions in the DNA replication of human peripheral blood B cells have been reported after stimulation by cross-linking surface immunoglobulins (sIg) with the polyclonal activator Staphylococcus aureus Cowan I (SAC). However, little is known about the mechanisms of these age-related impairments. To examine whether these impairments represented defects unique to sIg mediated signalling, B cells from elderly humans were stimulated with SAC, immobilized anti-IgM and with monoclonal antibodies (mAbs) specific for B cell CD20 and CD40 determinants. Regardless of the stimuli or combinations of stimuli, the proliferative responses of B cells from elderly subjects remained 50% or less of the values observed for B cells from young subjects. Also, the failure to fully restore the age-related impairments of B cells could not be attributed to an absolute lack of potentially reactive cells. Supplementation of anti-IgM stimulated B cells from elderly subjects with IL-2, IL-4 or B cell growth factor (BCGF) revealed that BCGF was able to improve the reduced responses to levels approximating B cells of young subjects. The age-related defects were not restricted to B cell DNA replication because reductions in G1 progression of stimulated B cells from elderly subjects were directly demonstrated by decreased [3H]uridine incorporation into de novo RNA synthesis. However, the age-related impairments in RNA synthesis were less severe than those in DNA replication consistent with progressively greater reductions in the abilities of B cells to traverse the entire cell cycle. Other results showed that the reduced DNA replication of B cells from elderly subjects to immobilized anti-IgM with and without IL-2 did not represent a premature exit of B cells from DNA replication and accelerated maturation into antibody producing cells. Thus, these studies demonstrate that age-related impairments exist in activation signals mediated by several types of human B cell determinants and that abnormalities can be detected during pre-S phase events.

The repertoire diversity and magnitude of antibody responses to bacterial antigens in aged mice: I. Age-associated changes in antibody responses differ according to the mouse strain

Aging influences the host immune responses in various ways. In aging mice we have studied the antibody responses to two unrelated bacterial antigens. Streptococcus pneumoniae R36a vaccine (Pn) and TNP coupled to Brucella abortus (TNP-BA). Aged animals (20-24 months old) of the C57BL/6 strain had markedly reduced numbers of IgM antibody plaque-forming cells (PFC) to Pn as compared to young/adult mice (2-3 months old). In contrast, the anti-Pn IgM PFC responses of aged BALB/c mice were consistently higher than they were in the young/adult mice. The increased anti-Pn responses were not due to a nonspecific immunostimulation, because the responses of aged BALB/c mice to TNP-BA were lower as compared to the adults. However, the aged BALB/c mice responded relatively poorly to Pn challenge, and their IgG responses (as determined by ELISA plaque assay) demonstrated a very high individual variability. The clonotypic diversity of anti-Pn response in young BALB/c and C57BL/6 is limited, such that the majority of PFC produce antibody that express all idiotopes (Id) of the T15 immunoglobulin encoded in the VH-S107/Vk22 genes. In contrast, the PFC from aged mice are diverse, expressing incomplete T15 Id or none at all, suggesting that the antibodies are encoded by altered T15 genes and by different, non-T15 genes. Our data demonstrate that the age-related changes in the magnitude of antibody response to certain antigens are influenced by the host genetic make-up, and that the changes in magnitude and diversity of antibody response may be unrelated to each other.

Immunotoxicity of alcohol in young and old mice. II. Impaired T cell proliferation and T cell-dependent antibody responses of young and old mice fed ethanol-containing liquid diet

The effect of extended ethanol consumption of young and old BALB/c mice on the proliferative response to Concanavalin A (Con A) and T cell-dependent antibody response of their spleen cells to sheep red blood cell (RBC) stimulation was determined. Splenic cells of young (3 months) and old (25 months) BALB/c mice, fed with one of three different diets (ethanol, maltose-substitute and standard mouse chow), were first cultured with Con A to assess T cell proliferation and production of interleukin 2 (IL2). Then, Con A-activated T blast cells from young and old mice were assessed for their proliferative responding capacity to exogenous human recombinant IL2 and crude rat IL2 supernatant. Finally, splenic cells of young and old mice were assessed for their ability to generate plaque-forming cells in response to sheep RBC. The results revealed that both T cell mitogenesis and IL2-dependent proliferation of T blast cells from young and old ethanol diet-fed mice were remarkably diminished as compared to that of young and old maltose-substituted diet (isocaloric control) fed mice, respectively. The ability of T cells from both young and old ethanol diet-fed mice to produce IL2, however, was not affected. Finally, the ability of young and old ethanol diet-fed mice to mount a primary antibody response to SRBC was also significantly reduced. These results taken together demonstrate for the first time that both T cell proliferative activity and T cell-dependent antibody response of young and old ethanol diet-fed mice are impaired; however, with respect to age, a differential effect of immunosuppression of ethanol was not noted.

The effect of long-term caloric restriction on function of T-cell subsets in old mice

The effect of caloric restriction (from weaning to old age) on CD3-stimulated CD4+ and CD8+ lymphocyte proliferation and calcium mobilization was examined. Young ad libitum (ad lib) fed, old ad lib fed, old calorically restricted, and old calorically restricted mice which were fed ad lib during the last 6 weeks of their life (restricted/refed) were compared in both BDF1 [(C57BL/6 x DBA/2)F1] and C57BL/6 mice. Proliferation of CD4+ cells was lower in old ad lib animals than in young animals; this difference was not seen in CD8+ cells. Those CD4+ cells which did proliferate in old ad lib animals underwent similar cell cycle progression as young cells. In calorically restricted and calorically restricted/refed animals, CD4+ cell proliferation was similar to the young animals, and CD8+ cells showed a higher proliferative capacity than cells from either young or old ad lib mice. Differences in proliferative capacity were not correlated with alterations in transmembrane signaling efficiency as peak [Ca2+]i was reduced in both T-cell subsets in all groups of old mice relative to young mice. Additionally, reduced [Ca2+]i was observed in the CD8+ subset for which there was no deficit in proliferation, and the enhanced proliferation seen in old restricted and old restricted/refed mice did not manifest as increased [Ca2+]i mobilization. The percentage of CD4+ cells from both mouse strains was reduced in all groups of old mice compared with young mice, while the percentage of CD8+ cells was generally similar in young and all groups of old mice. Our studies would suggest that lifelong caloric restriction of mice prevents the age-associated decrease in T-cell proliferative capacity but that the enhanced proliferation of these cells is not due to increased efficiency of transmembrane signaling.

The effect of aging on the induction of humoral and cellular immunity and tolerance in two long-lived mouse strains

Aging is a complex process that adversely affects most if not all components of the immune system. In this report, two long-lived mouse strains have been compared in ability to generate both antigen-specific immunity and tolerance. Although CBA/CaJ mice produced high levels of antibody following injection of aqueous preparations of aggregated human gamma-globulin (AHGG), C57BL/6 mice made only meager antibody responses to such preparations. Age dramatically affects the humoral anti-HGG response to aqueous AHGG in both strains, but the meager response of young C57BL/6 mice was at insignificant levels in aged C57BL/6 mice. Conversely, both mouse strains generated good responses following injection of HGG in complete Freund's adjuvant at both the T and B cell level as evidenced by in vitro antigen-specific T cell proliferation and anti-HGG antibody production. Aged mice of both strains showed a marked decrease in the production of serum anti-HGG antibody in comparison to young mice. Although the antigen-specific T cell proliferative response was significantly decreased in aged CBA/CaJ mice, such proliferation was not affected in aged mice of the C57BL/6 strain. Removal of CD8+ cells from lymph node T cells of either young or aged C57BL/6 mice did not increase the antigen-specific proliferative response, suggesting that loss of CD8+ suppressors during the aging process is not responsible for the high level of antigen-specific T cell proliferation in aged C57BL/6 mice. Tolerance to HGG was readily induced in both young and aged C57BL/6 and CBA/CaJ mice although aged mice demonstrate a modest resistance to tolerance induction when compared to their young counterparts. This resistance was observed in both antibody production and antigen-specific T cell proliferation.

A decreased functional capacity of CD4+ T cells underlies the impaired DTH reactivity in old mice

The data presented in this paper show that the in vivo delayed-type-hypersensitivity (DTH) reaction to both H-2 and non-H-2 alloantigens declines with increasing age. It is also shown that cells generated in vitro are capable to transfer DTH to young naive syngeneic recipients. Using this in vitro system it could be demonstrated that cells from old CBA/Rij mice induced lower DTH responses than cells from young CBA/Rij mice. Depletion experiments with the effector T cell population showed that the DTH effector phase is mediated by CD4+ T cells. Lower responses in old mice were not due to increased CD8+ suppressor T cell activity, since after removal of the CD8+ T cells old CD4+ cells were still less effective in the generation of DTH effector T cells than young CD4+ cells. Addition of IL-2 containing supernatant to in vitro cultures did not improve the subsequent DTH response. From these data it can be concluded that the reduced DTH responses in old mice are not solely due to CD8+ suppressor cell activity and/or lack of IL-2, but that rather intrinsic defects of the CD4+ T cell population appear to play a major role in the impaired DTH reactivity during ageing.

Immunotoxicity of alcohol in young and old mice. I. In vitro suppressive effects of ethanol on the activities of T and B immune cells of aging mice

A murine aging model was employed to assess effects of ethanol exposure on the T-cell proliferative response to mitogenic stimulation and on the T cell-dependent primary antibody response to sheep red blood cells (RBC) in vitro. Splenic cells from young (3-5 months) and old (28-32 months) BALB/c mice were first assessed for their ability to produce interleukin (IL) 2 and proliferate in response to mitogenic stimulation in the presence of various doses of ethanol. Then, splenic T blast cells from young and old mice, generated by Con A-activation, were assessed for their IL2-dependent proliferative capacity in the presence of various doses of ethanol. Finally, splenic cells of young and old mice were assessed for their ability to generate plaque-forming cells (PFC) in response to sheep RBC in the presence of various doses of ethanol. The results revealed that ethanol has a much greater suppressive effect on old than young splenic T cells (10-15 times), as judged by their ability to proliferate in response to mitogenic stimulation. However, the magnitude of the difference in the suppressive effect is less when the cells are cycling (2 times). Furthermore, ethanol had only a minimal suppressive effect on IL2 production by T cells of both young and old mice, even at the concentration of 100 mM. These findings would suggest that the ethanol-mediated suppression of T cell proliferation of both young and old mice is more likely due to an impairment of metabolic event(s) associated with or subsequent to the interaction of IL2 and IL2 receptor leading to cellular replication.(ABSTRACT TRUNCATED AT 250 WORDS)

Phenotypic and functional properties of B lymphocytes from aged mice

Phenotypic and functional properties of B lymphocytes from individual young and old mice of different inbred strains were studied. B lymphocyte subpopulations defined by the ratios of the densities of cell surface IgM and IgD were found to be altered with age. However, such alterations in B cell subsets were found only in 30-40% of the old mice. B cell mitogenic responses to anti-mu and anti-Lyb2 antibodies were decreased in a majority of DBA/2 mice. Proliferative responses to LPS and anti-mu were reduced only in a minority of CBA/Ca mice but there was a very good correlation in the responsiveness of the old mice to LPS and anti-mu. The anomalous properties of the individual old mice of these inbred strains may be due to a heterogeneity in the effects of aging or due to environmental influences.

Analysis of the age-related decline in alloreactivity of CD4+ and CD8+ T cells in CBA/RIJ mice

CD4+ T cells from healthy old CBA/Rij mice were studied for their ability to respond to alloantigens by IL-2 production and proliferation. IL-2 production by these purified cells in response to BALB/c spleen cells was about 4 times lower than the IL-2 production (50 U/ml) by CD4+ T cells from young mice. After stimulation with concanavalin A only a two-fold difference in IL-2 production was found. The extent of proliferation by CD4+ T cells from old mice in response to allogeneic cells was at least 4 times lower than that by the cells from young mice. This difference was not influenced by the addition of IL-2 containing conditioned medium (CM). Proliferative responses by CD8+ T cells were only found after the addition of CM and then the response by cells from old mice was 2-10 times lower than the response by cells from young mice. Limiting dilution analysis of the separate T cell subpopulations showed that these low responses to alloantigens by cells from old mice were only in part due to a decline in the frequency of antigen-specific CD4+ or CD8+ T cells. As far as old CD8+ T cells were concerned, an additional explanation for the low responsiveness was found in a diminished expression of the IL-2 receptor (IL-2R) alpha-chain. However, CD4+ T cells from old mice expressed normal levels of IL-2R alpha-chain. The observation that proliferative responses by CD4+ T cells may be low, despite a normal frequency of antigen-specific cells, an apparently normal IL-2R expression and despite the presence of exogenous IL-2, indicates that CD4+ T cells from old mice are not only impaired in their ability to produce IL-2, but are also impaired in their ability to handle the IL-2 signal.

Age-related changes within a suppressor T cell circuit

The effects of aging on cellular and molecular components of the 4-hydroxy-3-nitrophenyl acetyl-specific suppressor T (Ts) cell circuit were analyzed in vitro using inducer (Ts1), transducer (Ts2), and effector (Ts3) cells and activating factors (TsF1 and TsF2) derived from young or old mice. The activation of Ts2 cells by TsF1 and of Ts3 cells by TsF2 was found age-restricted, suggesting a loss of Ts2 and Ts3 cell subsets in old mice. However, the activation of Ts3 cells by small amounts of TsF2 is more efficient when both are derived from old rather than from young mice while the same level of maximum suppression is attained. Higher affinity of the interactions involved in Ts cell activation may compensate for loss of Ts cell subsets in old mice. No age restriction was found for antigen presentation to Ts1 cells and for the interaction between Ts3 cells and target B cells. Thus, the effects of aging on immunosuppression result from changes within the Ts cell circuit.

Deterioration of cellular immunity during aging. The relationship between age-dependent impairment of delayed-type hypersensitivity reactivity, interleukin-2 production capacity, and frequency of Thy-1+,Lyt-2- cells in C57BL/Ka and CBA/Rij mice

The effect of aging on the delayed-type hypersensitivity (DTH) to sheep red blood cells (SRBC) in vivo and the interleukin-2 (IL-2) production capacity in vitro by spleen cells from young (17 weeks) and old (125 weeks) CBA/Rij and C57BL/Ka mice were investigated. For both CBA/Rij and C57BL/Ka mice an age-related decline in the DTH response to SRBC and the IL-2 production capacity was observed. Both parameters are mediated by Thy-1+,Lyt-2- spleen cells. For both mouse strains the proportion of Thy-1+,Lyt-2- spleen cells declined less strongly with aging than the DTH reactivity and the IL-2 production capacity. From this it was concluded that not only a quantitative but also a qualitative decrease of T-cell function occurs during senescence. It was also investigated whether the proportion of Thy-1+,Lyt-2- peripheral blood lymphocytes can be used as a predictive value with regard to the decline of DTH with aging of the corresponding mouse. This was indeed found to be the case in CBA/Rij mice, but not in C57BL mice.

Epidermal Langerhans cell density and contact sensitivity in young and aged BALB/c mice

The loss of tissue and organ function with age may depend on the inability of old cells to carry out specialized functions. Like other systems in the body, the immune system deteriorates with age. Over the past 10 years it has become clear that the skin can play an active role in immunological processes. In this report we evaluated changes in murine cutaneous immunity with age. Studies in humans had shown a decreased Langerhans cell density with age, but it is difficult to control for the effect of ultraviolet light in human studies. Since ultraviolet light has a significant effect on Langerhans cells, we chose to evaluate the effect of age on Langerhans cell density using inbred mice not exposed to ultraviolet light. Cutaneous immunity was examined phenotypically by studying Langerhans cell density and functionally by studying allergic contact sensitivity. Langerhans cell density was assessed in epidermal sheets prepared from ear skin of mice and examined by ATPase histochemistry and fluoresceinated anti-Ia staining. With both methods, aged (18 months old) mice had approximately two-thirds the number of Langerhans cells that young (10-12 weeks old) animals did. Allergic contact sensitivity response to trinitrochlorobenzene (TNCB) was compared between aged and young animals. Although the aged animals demonstrated increased variability in their responsiveness, there was no overall difference in this example of cutaneous immunoreactivity between the two age groups.

Age related differences in immunocompetence and incidence of mammary adenocarcinoma in murine mammary tumor virus-infected C3H/Bi mice

In breeder C3H/Bi female mice, infected neonatally by murine mammary tumor virus (MTV), the incidence of spontaneous mammary tumors is greater than 95% between 5 and 9 months of age. In young (2-3 months) female the probability for developing a tumor in the next month is negligible, higher than 80% in mice of middle age (5-6 months) but lower than 4% in aged (10-12 months) females. The age-related changes of some immune functions of spleen cells from these tumor free female mice have been evaluated. While the proliferative capacity of cells to Phytohemagglutinin (PHA) increases, the T cell-dependent antibody response against sheep red blood cells (SRBC) and the antibody-dependent cellular cytotoxicity (ADCC) are significantly decreased in 5-6-month-old mice as compared to the young (2-3 months) female mice. The antibody response against SRBC and the mitogenic response to PHA decline markedly in 10-12-month-old mice but the ADCC increases in this group of mice. In addition, assays with monoclonal anti-Lyt-1 and anti-Lyt-2 antibodies indicate that percentage of Lyt 1- 2+ cells (suppressor and cytotoxic T cells) is lower in 10-12-month-old female as compared to 5-6-month-old animals. These results show that the immune alterations observed in 10-12-month-old C3H/Bi mice are not closely associated with an increase in incidence of spontaneous tumors and suggest that a high non-T killer cell activity could protect some of these older C3H/Bi female mice against mammary tumor development.

Deficient tumor-specific immunity in old mice: in vivo mediation by suppressor cells, and correction of the defect by interleukin 2 supplementation in vitro but not in vivo

The capacity of old (18-24 months) C57BL/6 mice to develop an immune reaction against MC-B6-1 fibrosarcoma cells was studied using in vivo adoptive transfer experiments (Winn assay) and in vitro T cell-mediated cytotoxicity test. Anti-tumor immunity was found to decline with age, as indicated by a decreased anti-tumor growth T cell activity. A suppressive activity was also found present in the splenic T cell population of old mice which can inhibit the in vivo generation of immune T cells in young mice. These suppressors, or their precursors, were resistant to cyclophosphamide treatment and were effective only when administered 3 days before the immunization of young mice. These mice developed immune T cells perfectly when the suppressors were administered 3 days after immunization, indicating that suppressors may act at an early phase of T cell activation. The protective activity of T cells in vivo correlated well with the in vitro T cell cytotoxicity for MC-B6-1 tumor cells, as both were depressed in old mice. Exogenous interleukin 2 (IL 2) addition during the 4-day culture period partially restored the low cytotoxic activity of old immunized lymphocytes, suggesting that specific clones were present but that a lack of IL 2 limited their expansion. However, in vivo supplementation with IL 2 administered after immunization did not increase the protection mediated by old immunized T cells but, rather, increased the suppression. This work demonstrates the presence of a T cell suppressive activity in the spleen of old mice but also indicates that precursors of cytotoxic cells are generated by the immunization. It seems that in vitro IL 2 addition increases cytotoxic cells while in vivo IL 2 administration amplifies the development of suppressor cells generated during immunization of aged mice.

T cell involvement in the decrease of antigen-responsive B cells in aged mice

The role of T cells in the reduced frequency of splenic B cells specific for several antigens in aged mice was studied by assessing B cell responsiveness in (a) aged nude mice and (b) irradiated young mice repopulated with splenic B cells or with Ig- bone marrow cells from young mice and T cells from aged vs. young mice. Using the fragment culture technique to assess B cells specific for 2,4-dinitrophenyl (DNP) and for (4-hydroxy-3,5-dinitrophenyl) acetyl, we found that the frequency of responsive splenic B cells in aged BALB/c nude mice was very similar to that of young nude mice. In addition, we found that in chimeric mice constructed with either bone marrow or splenic B cells from young mice and T cells from aged mice the frequency of DNP-specific splenic B cells was significantly lower than that in control chimeras constructed with T cells from young mice. These results indicate that T cells from aged mice can down regulate B cell responsiveness and that a mature, naive B cell may be its possible target. The results of both experimental approaches are consistent with a role for T cells in the regulation of responsive B cells in aging.

Age-related changes in the relative numbers of Thy-1- and Lyt-2-bearing peripheral blood lymphocytes in mice: a longitudinal approach

Longitudinal and cross-sectional analyses of Lyt-2+ and Thy-1+ cell populations in the peripheral blood of aging male CBA and C57BL mice revealed that the relative number of Thy-1+, Lyt-2+ cells in the peripheral blood of both mouse strains remained relatively constant during the entire lifespan. The proportion of Thy-1+, Lyt-2- cells decreases with age, which indicates that major changes in the T-cell compartment with age must be attributed to the Lyt-2- helper compartment. For individual CBA mice, a direct relation between the relative number of Thy-1+, Lyt-2- cells at a certain age and the time remaining to live is demonstrated. The changes in the proportion of Lyt-2+ of total Thy-1+ cells in CBA mice show a regular pattern of slow increase with age followed by a rapid increase phase preceding the death of the animal. In C57BL mice, the development of the proportion of Lyt-2+ T cells with age showed various patterns. Rapid changes both positive and negative in these mice seem to be indicative of approaching death. The predictive value of Lyt-2+/Thy-1+ ratios at a given age for the remaining lifespan of individual mice is discussed.

Effects of long-term treatment of mice with anti-I-J monoclonal antibody and dialyzable leukocyte extract on immune function and lifespan

In 1969 Walford hypothesized that age-related dysfunctions of the immune system may be involved in the pathogenesis of the lesions and disease of aging. Studies were initiated to test whether immunologic interventions intended to maintain the integrity of the immune system would delay the onset of diseases of aging and prolong lifespan. Adult BC3F1 mice were treated with anti-I-J monoclonal antibody, with human dialyzable leukocyte extract, or with saline once a week for one year. Spleen cells from the mice were then assayed for suppressor, T-helper and B-cell activity. Treatment with dialyzable leukocyte extract decreased the elevated nonspecific suppressor activity. Mice treated with anti-I-J antibody had elevated T-helper cell activity. In another experiment, mice were treated weekly with anti-I-J antibody, dialyzable leukocyte extract, or saline from 18 months of age until natural death. The mice were immunized with avian gammaglobulin at 27 and again at 29 months of age. Both types of immunologic intervention resulted in a greater secondary antibody response than that of the saline-treated control mice. Mice treated with anti-I-J antibody survived longer than did mice of the other two groups. There was a correlation between the magnitude of the secondary response of individual mice and their lifespan. The results provide support for the immunologic theory of aging.

Repopulation of lymph nodes and spleen in thymus chimeras after lethal irradiation and bone marrow transplantation: dependence on the age of the thymus

CAP and Lewis rats were thymectomized and received a syngeneic thymus graft followed by lethal irradiation and syngeneic bone marrow transplantation. In three groups (A: recipient 15 months old, thymus graft 3 months old; B: recipient 3 months old, thymus graft 15 months old; C: recipient and thymus graft both 3 months old), we performed an immunohistologic analysis of the splenic white and red pulp and the paracortical zone of the lymph nodes. The repopulation of these regions was demonstrated with monoclonal antibodies that react with Thy-1 positive cells, peripheral T cells, T helper cells, and T non-helper cells. In the splenic red pulp, more Thy-1 positive lymphocytes were found in group B than in group C. The proportion of T lymphocytes and T helper lymphocytes in the region of the periarteriolar lymphocyte sheath of the splenic white pulp was higher when a young thymus was transplanted (groups A and C) than when an old one was (group B). In contrast, in the splenic red pulp, more T lymphocytes were found in group A than in groups B and C. In the paracortical zone of the lymph nodes, this was demonstrable only for group C versus group B. The proportion of T non-helper lymphocytes in the region of the splenic red pulp was higher in group B than in group C. These results indicate that the repopulation of lymph nodes and spleen after transplantation of an old thymus is delayed, quantitatively reduced, and qualitatively different (more T non-helper lymphocytes).

Deficiency in suppressor T cell activity in aged animals. Reconstitution of this activity by interleukin 2

Spleen cells derived from aged (30 mo) C57Bl/6 mice are shown to be deficient in the ability to generate suppressor cell activity in vitro. The addition of IL-2 to cultures containing aged cells restores this function to a large extent.

Cytofluorographic analysis of pokeweed mitogen-stimulated human peripheral blood cells in culture: age-related characteristics

By use of monoclonal antibodies and flow cytometry techniques, peripheral blood mononuclear cells from young (20-30 years) and elderly (70+ years) subjects were analyzed before and after culture with pokeweed mitogen to gain insight into the cellular interactions responsible for the decreased B cell response observed in culture samples from the elderly. Data analysis of surface immunoglobulin-positive cells demonstrated no difference in the percentage of B cells in the elderly, while both plaque-forming cell and intracytoplasmic immunoglobulin assays showed significantly reduced B cell maturation (P = less than 0.01) compared with young controls. The B cell defect was shown to be functional and not a result of failure to proliferate and survive during incubation. Surface marker analysis of T cell subpopulations demonstrated a definite shift (P = less than 0.01) in the helper/suppressor T cell ratio in cultured samples from the elderly group (3.9) compared with young subjects (1.2). In addition to the absolute increase in the helper T cell population, forward-angle light scatter analysis demonstrated that, compared with young controls, a greater portion of the helper T cell population in the elderly subjects had characteristics of activated, blast-sized cells. The data reported in this study suggest that in the elderly group there is a functional immunoregulatory imbalance in the helper T cell subset.