Age-related impairment of early and late events of signal transduction in mouse immune cells

Genetic deletion of TNFR2 augments inflammatory response and blunts satellite-cell-mediated recovery response in a hind limb ischemia model

We have previously shown that TNF-tumor necrosis factor receptor-2/p75 (TNFR2/p75) signaling plays a critical role in ischemia-induced neovascularization in skeletal muscle and heart tissues. To determine the role of TNF-TNFR2/p75 signaling in ischemia-induced inflammation and muscle regeneration, we subjected wild-type (WT) and TNFR2/p75 knockout (p75KO) mice to hind limb ischemia (HLI) surgery. Ischemia induced significant and long-lasting inflammation associated with considerable decrease in satellite-cell activation in p75KO muscle tissue up to 10 d after HLI surgery. To determine the possible additive negative roles of tissue aging and the absence of TNFR2/p75, either in the tissue or in the bone marrow (BM), we generated 2 chimeric BM transplantation (BMT) models where both young green fluorescent protein (GFP)-positive p75KO and WT BM-derived cells were transplanted into adult p75KO mice. HLI surgery was performed 1 mo after BMT, after confirming complete engraftment of the recipient BM with GFP donor cells. In adult p75KO with the WT-BMT, proliferative (Ki67(+)) cells were detected only by d 28 and were exclusively GFP(+), suggesting significantly delayed contribution of young WT-BM cell to adult p75KO ischemic tissue recovery. No GFP(+) young p75KO BM cells survived in adult p75KO tissue, signifying the additive negative roles of tissue aging combined with decreased/absent TNFR2/p75 signaling in postischemic recovery.

Mesenchymal stromal cells from donors varying widely in age are of equal cellular fitness after in vitro expansion under hypoxic conditions

BACKGROUND AIMS

Mesenchymal stromal cells (MSC) are gaining in popularity as an experimental therapy for a number of conditions that often require expansion ex vivo prior to use. Data comparing clinical-grade MSC from various ages of donors are scant. We hypothesized that MSC from older donors may display differences in cellular fitness when expanded for clinical use.

METHODS

We evaluated the expression of several markers of aging, oxidative stress and growth kinetics, and telomere length, in MSC obtained from a wide age range (8 months to 58 years).

RESULTS

To evaluate cellular fitness we compared MSC expanded from younger (8 months-6 years) versus older (38-58 years) donors in terms of selected cell-surface markers, lipofuscin, migration ability, telomere length and expression of iNOS, PGE₂, p16INK and SOD. Results did not differ between these groups. Neither SOD activity (0.025 versus 0.028 U/mL) nor death after oxidative challenge was significantly different (1% versus 1.5%, P = 0.14). We did find that, although MSC from older individuals produced slightly fewer cells over a 28-day culture period and had a slightly longer doubling time (54 h versus 42 hr, a satisfactory clinical product could still be obtained regardless of age cohort.

CONCLUSIONS

Collectively, these data show that MSC can be expanded without significant alterations in expansile properties or obvious changes in parameters associated with senescence. Because cellular fitness was equivalent in these cohorts, MSC from donors up to age 58 years can be used as a source of cells for cellular therapy.

Influence of age on behavioral, immune and endocrine responses to the T-cell superantigen staphylococcal enterotoxin A

Aged subjects are more vulnerable to administration of the endotoxin lipopolysaccharide, but research on age-associated sensitivity to other immune stimulants has been limited. The current study examined the effects of administering the superantigen, staphylococcal enterotoxin A (SEA), to young (4-month-old) and aged (20-month-old) male C57BL/6J mice on consumption of a novel liquid, cytokine production, corticosterone levels, and expression of central mRNA levels of cytokines and corticotropin-releasing hormone. SEA produced exaggerated hypophagia in aged mice, as they showed decreased consumption that persisted for 24 h. SEA increased hypothalamic mRNA levels of interleukin-1beta in the aged, but not the young, mice 2 h after administration. No differences in cytokine expression were observed 24 h after SEA. Both age groups showed increased plasma corticosterone levels 2 h after SEA administration. However, 24 h after SEA exposure the aged, but not the young, mice showed an augmented corticosterone response to the consumption test. Collectively, these data show that aging may exacerbate the behavioral and neuroinflammatory response to superantigen exposure. Further, the present study suggests that immune activation may result in delayed alterations in stress-induced corticosterone production in aged subjects.

Aging affects initiation and continuation of T cell proliferation

Aging is associated with a decline in immune responses, particularly within the T cell compartment. While the expansion of specific T cells in response to virus infections is consistently decreased in aged mice, the differences in T cell activation between young and aged mice as demonstrated in each round of proliferation remain poorly defined. In the present study, we utilized the T cell mitogen, ConA, to explore if fewer T cells of aged mice initiate proliferation upon mitogen stimulation or if similar numbers of T cells of aged mice begin proliferation but undergo fewer rounds of division. We also examined whether these age-associated changes in proliferation are reflected by differences in T cell activation by comparing activation markers (CD25, CD69, CD44, and CD62L) on T cells of young and aged mice at each round of proliferation. Not only was the kinetics of the expression of these markers greatly different between young and aged mice on the entire CD8 T cell population, but also at each round of proliferation. Our results demonstrate that a larger percentage of CD8 T cells of aged mice do not proliferate at all upon stimulation. Of the CD8 T cells of aged mice that do proliferate, a larger percentage start later and stop sooner. These results suggest that multiple levels of alteration may need to be considered when trying to maximize the immune response of aged individuals.

A paradox of immunodeficiency and inflammation in human aging: lessons learned from apoptosis

Aging is associated with a paradox of immunodeficiency and inflammation (an evidence of hyperactive immune system). Apoptosis is associated with cellular depletion and suppression of inflammatory response. In this brief review, we will present evidence for the role of increased apoptosis in immunodeficiency and paradoxical increased inflammation associated with human aging. In particular, a role of apoptotic cells in failure to generate anti-inflammatory responses and directly activating inflammatory responses will be discussed.

Aging Is Associated With Increased T-Cell Chemokine Expression in C57Bl/6 Mice

To better understand the contribution of the chemokine system in immune senescence, we determined the aging effect on CD4+ and CD8+ T-cell chemokine expression by microarray screening and ribonuclease protection assays. Compared with young C57BL/6 mice, freshly isolated CD4+ cells from aged mice express increased level of interferon-gamma-inducible protein 10 (IP-10), macrophage inflammatory protein (MIP)-1alpha, MIP-1beta, regulated upon activation, normal T-cell expressed and secreted (RANTES), and lymphotactin (Ltn). T-cell receptor (TCR)/coreceptor stimulation up-regulates MIP-1alpha, MIP-1beta, and Ltn, and down-regulates IP-10 and RANTES expression in CD4+ T cells. A similar increase in chemokine expression was demonstrated in the CD8+ T cell. Enzyme-linked immunosorbent assays confirmed increased T-cell chemokine protein production in old CD4+ and CD8+ T cells. Finally, supernatant of cultured T cells from old animals caused an enhanced leukocyte chemotaxis response compared with that from young animals, suggesting that the age-related difference in T-cell chemokine expression has an important functional consequence.

T cell chemokine receptor expression in aging

Changes in chemokine receptor expression are important in determining T cell migration and the subsequent immune response. To better understand the contribution of the chemokine system in immune senescence we determined the effect of aging on CD4(+) T cell chemokine receptor function using microarray, RNase protection assays, Western blot, and in vitro chemokine transmigration assays. Freshly isolated CD4(+) cells from aged (20-22 mo) mice were found to express a higher level of CCR1, 2, 4, 5, 6, and 8 and CXCR2-5, and a lower level of CCR7 and 9 than those from young (3-4 mo) animals. Caloric restriction partially or completely restored the aging effects on CCR1, 7, and 8 and CXCR2, 4, and 5. The aging-associated differences in chemokine receptor expression cannot be adequately explained by the age-associated shift in the naive/memory or Th1/Th2 profile. CD4(+) cells from aged animals have increased chemotactic response to stromal cell-derived factor-1 and macrophage-inflammatory protein-1alpha, suggesting that the observed chemokine receptor changes have important functional consequences. We propose that the aging-associated changes in T cell chemokine receptor expression may contribute to the different clinical outcome in T cell chemokine receptor-dependent diseases in the elderly.

The effect of aging on immune responses

Although vaccine manufacturers make no specific recommendations regarding the vaccination of older horses and ponies, the similarities in age-induced immunologic changes between human beings and equids suggests that similar vaccination recommendations should be followed. The need for vaccination of the older horse depends, of course, on the relative risk of exposure for the individual horse. Particular care should be taken when using attenuated vaccine products because these live agents may pose a unique risk to the older individual. Immunization with inactivated agent vaccines is likely to be safer. In general, annual vaccination against equine influenza virus infection, tetanus, rabies, and encephalomyelitis viruses is warranted.

Tumor necrosis factor-alpha-induced apoptosis in T cells from aged humans: a role of TNFR-I and downstream signaling molecules

Tumor necrosis factor-alpha (TNF-alpha) induces apoptosis predominantly via TNF-receptor I (TNF-RI). We have examined the molecular and biochemical pathways of TNF-alpha-induced apoptosis in T cells from aged and young subjects. Aged subjects show absolute lymphopenia and decreased numbers of both CD4+ and CD8+ T cells. T cells from aged subjects show increased sensitivity to TNF-alpha-induced apoptosis that is associated with increased expression of TNF-RI and decreased expression of TNF-RII in both CD4+ and CD8+ T cells. Agonistic TNF-RI also induced greater apoptosis in T cells from aged subjects as compared to young subjects, suggesting that increased TNF-alpha-induced apoptosis in aging is predominantly mediated via TNF-RI. There was an increased expression of FADD and increased activation of caspase 8 and caspase 3 in lymphocytes from aged humans as compared to young subjects. A role of impaired TNF-RII-mediated signaling in increased apoptosis in aged subjects is also discussed.

Immunological adjuvants efficiently induce antigen-specific T cell responses in old mice: implications for vaccine adjuvant development in aged individuals

The morbidity and mortality of infectious diseases are significantly increased in aged humans. Hence, vaccination has been suggested as a means to reduce or prevent the impact of infections on old individuals. However, it has remained unresolved whether or not standard vaccine adjuvants such as aluminum hydroxide (Alum) are similarly efficacious in old individuals, as compared to young adults. Here, we have investigated the effects of prototypic immunological adjuvants, complete Freund's adjuvant (CFA), incomplete Freund's adjuvant (IFA), or Alum on HEL-specific T cell responses in young adult and old mice. We report that independent of the adjuvant used, the induced T cell responses to the prototypic protein antigen hen eggwhite lysozyme (HEL) were similar in young adult and old mice in terms of cytokine production, T cell frequencies, determinant specificity, and T cell repertoire. The results suggest that vaccine adjuvants developed in young adults should be equally effective in inducing T cell immunity in old individuals.

Molecular steps of cell suicide: an insight into immune senescence

The cellular and molecular basis of immune senescence is unclear. A number of mechanisms have been proposed. In this issue of the Journal of Clinical Immunology, some of the mechanisms for various immunologic abnormalities in aging are presented. In this article, various molecular steps of both death receptor and mitochondrial pathways of apoptosis in general are reviewed. In particular, the role of apoptosis in T-cell immune senescence is discussed.

Efficacy of cancer gene therapy in aging: adenocarcinoma cells engineered to release IL-2 are rejected but do not induce tumor specific immune memory in old mice

Numerous studies have demonstrated the efficacy of cytokine gene-engineered tumor cells to induce tumor rejection and specific memory acquisition into syngeneic immunocompetent mice by activation of host-dependent antitumor responses. A progressive immune dysfunction, mainly involving thymus-dependent specific immunity, occurs during aging. In this study we evaluated whether the injection of IL-2 gene-transfected tumor cells in old mice causes an immune activation which results in tumor rejection and induction of specific immune memory as occurs in young animals. Young and old mice were inoculated with syngeneic parental mammary adenocarcinoma cells (TS/A p.c.) or with TS/A cells engineered to release IL-2 (TS/A-IL2). Three clones of TS/A-IL-2 cells were used producing low (30 U, B1.30), intermediate (3600 U, B6.3600), or high (6000 U, B4.6000) IL-2. While the B1.30 clone grew in 100% of mice, the B6.3600 and B4.6000 clones were promptly rejected in both young and old animals. In young mice, rejection was associated with a large neutrophil and macrophage infiltration, with a minor number of CD4+ and CD8+ lymphocytes. In old mice, neutrophils and macrophages were the main cells involved in tumor rejection whereas both CD4+ and CD8+ lymphocytes were scarcely present in tumoral infiltrate. A lower number of apoptotic tumor cells was found in TS/A-IL2-challenged old mice in comparison with young animals. To test whether the injection of TS/A-IL2 cells induced a specific immune memory, mice with no tumors after the challenge with B6.3600 and B4.6000 clones received a lethal challenge of TS/A p.c. 90% and 30% of young mice previously injected with B4.6000 or B6.3600 clones, respectively, rejected TS/A p.c. In old mice, B4.6000 cells did not confer protection, whereas only 10% of mice which received B6.3600 cells were able to reject TS/A p.c. Neither the graft of a young thymus or the adoptive transfer of young T lymphocytes to old mice induced specific immune memory for TS/A p.c. in old animals. These data suggest the necessity to refine antitumor vaccination procedures in aging.

Age-related decline in activation of calcium/calmodulin-dependent phosphatase calcineurin and kinase CaMK-IV in rat T cells

We have previously shown that the DNA binding activity of the transcription factor NFAT which plays a predominant role in IL-2 transcription decreases with age. Because the transactivation (dephosphorylation and nuclear translocation) of the NFAT-c (cytoplasmic component of the NFAT complex) is mediated by the calcium/calmodulin-dependent phosphatase, calcineurin (CaN), and because Ca2+/calmodulin-dependent kinases (CaMK-II and IV/Gr) have been shown to play a critical role in calcium signaling in T cells, it was of interest to determine what effect aging has on the activation and the levels of these calcium regulating enzymes. The induction of calcineurin phosphatase activity, and CaMK-II and IV/Gr activities, were studied in splenic T cells isolated from Fischer 344 rats at 6, 15, and 24 months of age. In addition, the changes in the protein levels of these enzymes were measured by Western blot. The calcineurin phosphatase activity and CaMK-II and IV kinase activities were at a maximum after the cells were incubated with anti-CD3 antibody for 5-10 minutes. The induction of calcineurin activity by anti-CD3 and by calcium ionophore (A23187) declined 65 and 55%, respectively, between 6 and 24 months of age. The induction of CaMK-IV activity, but not CaMK-II activity by anti-CD3, was significantly less (by 54%) in T cells from old rats compared to T cells from young rats. The decline in the activation of these enzymes with age was not associated with changes in their corresponding protein levels. These results demonstrate that alterations in calcineurin phosphatase activity and CaMK-IV activity may contribute to the well-documented age-related decline in T cell function.

Cluster formation by protein kinase Ctheta during murine T cell activation: effect of age

Protein kinase Ctheta; (PKCtheta;) is thought to play an important role in T cell activation, in that exposure of cloned T cells to antigen-presenting cells bearing agonist peptides, but not antagonist peptides, leads to clustering of PKCtheta; molecules in the section of the T cell plasma membrane that is in contact with the APCs. To see whether aging affects this PKCtheta; clustering reaction in mouse T lymphocytes, we used immunofluorescence staining and confocal microscopy to observe the localization of PKCtheta; in CD4 and CD8 T lymphocytes activated by coincubation with anti-CD3 hybridoma cells. Aging led to a twofold decline in the proportion of both CD4 and CD8 T cells in which PKCtheta; underwent cluster formation. This decrease with age was not due to differences in the number of cell conjugates formed, nor to kinetic differences of PKCtheta; clustering, nor to the accumulation of memory T cells in old mice. There were no effects of aging on the levels or kinase activity of PKCtheta; in murine T cells. Our data suggest alterations in the upstream signals that regulate PKCtheta; translocation.

Signal pathway of mitogen-induced Ca2+-activated K+ currents in young and aged T-cell clones of C57BL/6 mice

Signal transduction pathways of mitogenic plant lectin, concanavalin A (Con A)- and ionomycin (INM)-induced (Ca2+-dependent K+ currents (I(Con A) and I(INM)) have been compared in young and aged T-cell clones by using the nystatin perforated patch-clamp whole-cell recording technique. In young T-cell clones, Con A evoked a long-lasting outward current which is mediated by the activation of the Ca2+-dependent K+ channels. The Ca2+ ionophore, INM, evoked a short-lasting Ca2+-dependent outward K+ current (I(INM)). The protein tyrosine kinase (PTK) inhibitor, herbimycin A (3 x 10(-6) M), but not the G protein blocker, pertussis toxin (PTX, 500 ng ml(-1)), completely prevented the I(Con A), but did not affect the I(INM). In aged T-cell clones, Con A fails to evoke any current response, while INM evokes an outward current which is comparable to that in a young T-cell clone. It is concluded that PTK, but not PTX-sensitive G proteins, plays a critical role in mediation of the signal transduction from Con A stimulation to activation of the Ca2+-dependent K+ channels, and that an impairment of the early signal pathway, perhaps the PTK, might be involved in the mechanism of the age-related decline of the proliferative response of T-lymphocytes to mitogenic stimulation.

Melatonin: immune modulation of spleen cells in young, middle-aged and senescent mice

We examined the effects of melatonin on the immune response in aged mice in an in vitro model system. Spleen cells were removed from 2 month old, 11 month old, and 19 month old C57/BL6 male mice and incubated with melatonin concentrations ranging from 50 to 5000 ng melatonin/ml. All age groups demonstrated increased ability to proliferation in response to mitogenic stimulation when melatonin and mitogen were added at the same time, and we demonstrated that 11 month old and 19 month old mice exhibited a greater increase in proliferation response than the young 2 month old mice. We further examined whether this increased responsiveness was due to increased levels of IL-2 and found that while there was a significant age-dependent difference in the levels of IL-2 in the different age groups, melatonin had no effect on IL-2 levels in any age groups despite the fact that proliferation increased in all groups. The underlying mechanism of melatonin action is being investigated further.

Altered expression and function of P-glycoprotein (170 kDa), encoded by the MDR 1 gene, in T cell subsets from aging humans

Aging is associated with progressive T cell-mediated immune deficiency, increased frequency of infections, and autoimmune phenomena. P-glycoprotein (P-gP), a 170-kDa glycoprotein, is a member of a superfamily of ATP-binding cassette transport proteins that has been shown to express on cells of the immune system and suggested to play a role in secretion of certain cytokines and cytotoxic molecules. Because aging is associated with altered secretion of cytokines, in this investigation we examined the expression and function of P-gP in CD4+ and CD8+ T cells and their "memory" and "naïve" subpopulations in peripheral blood from healthy aging and young subjects. P-glycoprotein expression was analyzed at the protein levels by dual- or triple-color flow cytometric analysis, using monoclonal antibodies against P-gP (MRK16), and at the mRNA level by quantitative reverse-transcriptase polymerase chain reaction. The efflux function of P-gP was measured by intracellular accumulation of rhodamine-123 (Rh123; a substrate for P-gP) in the presence or absence of cyclosporin A (which binds to P-gP and inhibits its efflux function). The data show increased expression of P-gP at both the protein and the mRNA levels in aging lymphocytes. Increased P-gP expression, at the protein level, was also observed in naïve cell subpopulations from aging CD4+ and CD8+ T cell subsets compared to those from young controls. An increase in P-gP function, as measured by the ability of T cell subsets to efflux Rh123, was observed in aging CD4+ and CD8+ T cell subsets and their naïve and memory subpopulations. These data suggest that altered P-gP expression and function in aging may play a role in changes in immune response, including cytokine secretion, associated with human aging.

The effect of age on the expression of interleukin-2

Interleukin-2 (IL-2) is a growth promoting cytokine that has received a great deal of attention over the past decade with respect to aging and cancer. It is produced primarily by helper T cells and regulates the growth and function of various cells that are involved in cellular and humoral immunity. The expression of IL-2 has been found to decrease with age in humans and rodents. The decline in IL-2 production has been shown to parallel the age-related decrease in immunologic function. Several studies indicate that treatment of lymphocytes from old subjects with exogenous IL-2 or infusion of IL-2 into old animals partially or completely restores some of the immune functions that decline with age. The age-related decline in IL-2 production has been shown to arise from a decline in IL-2 transcription, and a recent study suggests that the transcription factor NFAT (nuclear factor of activated T cells) may play a role in the decline in IL-2 transcription.

Age-related tyrosine-specific protein phosphorylation defect in human T lymphocytes activated through CD3, CD4, CD8 or the IL-2 receptor

Although transmembrane signaling defect has been recognized as one of the major functional alterations involved in immune senescence, its biochemical nature as well as its precise molecular localization are still unknown. The available data indicate that an early step in the signaling cascade may be affected during the aging process. Because protein tyrosine kinases (PTK) are ubiquitously implicated in the initiation of physiological signals, they appear as prime candidates for age-related changes. The present investigation examined the effect of age on the activity of PTK associated with CD3, CD4, CD8 or the IL-2 receptor (IL-2R) in human T lymphocytes. By comparison with cells derived from young individuals, anti-CD3-activated T lymphocytes from elderly donors were more susceptible to herbimycin A, a PTK inhibitor known to prevent signal transduction by the T cell antigen receptor. This increased sensitivity of cells from senescent organisms to PTK inhibitors is most likely related to a lesser PTK activity since a significant decrease in the tyrosine phosphorylation of particular endogenous substrates was observed as a consequence of either CD3, CD4, CD8 or IL-2R activation. However, no age-related difference in tyrosine phosphorylation could be demonstrated when T cells were activated by pervanadate, a pharmacological activator of PTK. These results suggest that the intrinsic activity of the enzymes is preserved and that the age-associated defect in PTK activation occurs as a consequence of an upstream biochemical alteration. The defect in PTK activation could be the primary cause for the dysfunction of various components of the signaling cascade observed during the course of aging.

Prevention of age-related T cell apoptosis defect in CD2-fas-transgenic mice

T cell dysfunction and thymic involution are major immunologic abnormalities associated with aging. Fas (CD95) is a bifunctional molecule that is critical for apoptosis and stimulation during T cell development, but the role of Fas during aging has not been determined. Fas expression and function on T cells from old (22-26-mo-old) mice was compared with young (2-mo-old) mice and old CD2-fas-transgenic mice. Fas expression and ligand-induced apoptosis were decreased on T cells from old mice compared with young mice. This correlated with an age-related increase in CD44+Fas- T cells. There was a marked decrease in the proliferation of T cells from old mice after anti-CD3 stimulation compared with young mice. Anti-CD3-stimulated T cells from young mice exhibited increased production of interleukin (IL)-2 and decreased production of interferon-gamma and IL-10 compared with old mice. There was an age-related decrease in the total thymocyte count from 127 +/- 10 cells in young mice compared with 26 +/- 8 x 10(6) in old mice. In 26-mo-old CD2-fas-transgenic mice, Fas and CD44 expression, Fas-induced apoptosis, T cell proliferation, and cytokine production were comparable to that of the young mice. These results suggest that T cell senescence with age is associated with defective apoptosis, and that the CD2-fas transgene allows maintenance of Fas apoptosis function and T cell function in aged mice comparable to that of young mice.