Characteristics and maintenance of CD8+ T-cell clones found in old mice

TCR Vβ repertoire in an Italian longeval population including centenarians

During the last years, the hypothesis that aging and diseases are two distinct phenomena, and that successful aging is possible for most humans, has been put forward. We studied the TCR Vβ repertoire of T lymphocytes of healthy longevals and centenarians as crossing point of genetic predisposition and environmental effects to longevity, using the Spectra-typing method. TCR Vβ1, Vβ8, and Vβ20 were found to be expanded in the longeval population, compared with the younger control population. This repertoire can have been shaped by the selective action of particular HLA alleles, or by the clonal expansion of specific T cell clones, able to modulate the immune response to endogenous and exogenous antigens. Moreover, the skewed Vβ usage and the clonal expansion seem to be the effects of physiological changes occurring with aging and not pathological signs of malignity.

Early dysregulation of the memory CD8+ T cell repertoire leads to compromised immune responses to secondary viral infection in the aged

BACKGROUND

Virus-specific memory CD8+ T cells persist long after infection is resolved and are important for mediating recall responses to secondary infection. Although the number of memory T cells remains relatively constant over time, little is known about the overall stability of the memory T cell pool, particularly with respect to T cell clonal diversity. In this study we developed a novel assay to measure the composition of the memory T cell pool in large cohorts of mice over time following respiratory virus infection.

RESULTS

We find that the clonal composition of the virus-specific memory CD8+ T cell pool begins to change within months of the initial infection. These early clonal perturbations eventually result in large clonal expansions that have been associated with ageing.

CONCLUSIONS

Maintenance of clonal diversity is important for effective long-term memory responses and dysregulation of the memory response begins early after infection.

Increasing T-cell age reduces effector activity but preserves proliferative capacity in a murine allogeneic major histocompatibility complex-mismatched bone marrow transplant model

Aging of T cells is characterized by a series of alterations in surface antigen expression and a concomitant decline in functional activity in many assays. We have extended this analysis by comparing the ability of T cells from mice of different ages to cause graft-versus-host disease (GVHD) by using a parent into F(1) model (C57BL/6 T cells into C57BL/6 x C3H host animals). Young (3-5 months), adult (12-14 months), or old (19-24 months) T cells were introduced into irradiated F(1) hosts. Animals that had undergone transplantation were assessed for clinical and pathologic evidence of GVHD and for survival. At a given T-cell dose (2 x 10(6) cells), there was a T-cell (donor) age-dependent decline in severity of GVHD, with all recipients of young T cells succumbing to lethal GVHD, 75% of recipients of adult T cells succumbing, and no deaths occurring among recipients of old T cells. In vivo CD4 T-cell expansion was greater for young than old T-cell groups after transplantation, whereas old CD8 cells showed enhanced in vivo expansion compared with young cells. Among CD4 and CD8 cells, the T-cell receptor repertoire, surface antigen expression on activated cells, and homing receptor function were similar for all ages after expansion in vivo. The progeny of old T cells reisolated after transplantation expressed type 1 cytokines (interferon-gamma and tumor necrosis factor-alpha) at a lower frequency than young cells and had decreased cytolytic function against H-2(k)-bearing target cells. This provides a partial explanation for the decreased GVHD. Carboxyfluorescein diacetate succinimidyl ester labeling of transplanted cells showed comparable rates of proliferation when comparing GVHD-competent (12 months) and GVHD-incompetent (19 months) T cells in both syngeneic and F(1) host animals. We suggest that the lack of effector activity demonstrated by old T cells in vivo is a reflection of a cell-autonomous defect downstream of signals required for antigen-driven proliferation.

Age-related CD8 T cell clonal expansions constrict CD8 T cell repertoire and have the potential to impair immune defense

Peripheral T cell diversity is virtually constant in the young, but is invariably reduced in aged mice and humans. CD8+ T cell clonal expansions (TCE) are the most drastic manifestation of, and possible contributors to, this reduced diversity. We show that the presence of TCE results in reduced CD8+, but not CD4+, T cell diversity, and in functional inability to mobilize parts of the CD8+ T cell repertoire affected by TCE. In the model of herpes simplex virus (HSV)-1 infection of B6 mice, >90% of the responding CD8+ T cells use Vbeta10 or Vbeta8 and are directed against a single glycoprotein B (gB498-505) epitope, gB-8p. We found that old animals bearing CD8+ TCE within Vbeta10 or Vbeta8 families failed to mount an effective immune response against HSV-1, as judged by reduced numbers of peptide-major histocompatibility complex tetramer+ CD8 T cells and an absence of antiviral lytic function. Furthermore, Vbeta8 TCE experimentally introduced into young mice resulted in lower resistance to viral challenge, whereas Vbeta5+ TCE induced in a similar fashion did not impact viral resistance. These results demonstrate that age-related TCE functionally impair the efficacy of antiviral CD8+ T cell immunity in an antigen-specific manner, strongly suggesting that TCE are not the mere manifestation of, but are also a contributing factor to, the immunodeficiency of senescence.

Operationally tolerant and minimally immunosuppressed kidney recipients display strongly altered blood T-cell clonal regulation

Most kidney transplant recipients who discontinue immunosuppression reject their graft. Nevertheless, a small number do not, suggesting that allogeneic tolerance state (referred to operational tolerance) is achievable in humans. So far, however, the rarity of such patients has limited their study. Because operational tolerance could be linked to anergy, ignorance or to an active regulatory mechanism, we analyzed the blood T-cell repertoire usage of these patients. We report on comparison of T-cell selection in drug-free operationally tolerant kidney recipients (or with minimal immunosuppression), recipients with stable graft function, chronic rejection and healthy individuals. The blood T cells of operationally tolerant patients display two major characteristics: an unexpected strongly altered T-cell receptor (TCR) Vbeta usage and high TCR transcript accumulation in selected T cells. The cytokine transcriptional patterns of sorted T cells with altered TCR usage show no accumulation of cytokine transcripts (IL10, IL2, IL13, IFN-gamma), suggesting a state of hyporesponsiveness in these patients. Identification of such a potential surrogate pattern of operational tolerance in transplant recipients under life-long immunosuppression may provide a new basis and rationale for exploration of tolerance state. However, these data obtained in a limited number of patients require further confirmation on larger series.

Essential roles of CD8+CD122+ regulatory T cells in the maintenance of T cell homeostasis

Regulation of immune system is of paramount importance to prevent immune attacks against self-components. Mice deficient in the interleukin (IL)-2/IL-15 receptor β chain, CD122, are model animals of such immune attacks and characteristically have a high number of abnormally activated T cells. Here, we show that the transfer of CD8⁺CD122⁺ cells into CD122-deficient neonates totally prevented the development of abnormal T cells. Furthermore, recombination activating gene–2^−/− mice that received wild-type mice–derived CD8⁺CD122⁻ cells died within 10 wk after cell transfer, indicating that normal CD8⁺CD122⁻ cells become dangerously activated T cells in the absence of CD8⁺CD122⁺ T cells. CD8⁺CD122⁺ cells could control activated CD8⁺ or CD4⁺ T cells both in vivo and in vitro. Our results indicate that the CD8⁺CD122⁺ population includes naturally occurring CD8⁺ regulatory T cells that control potentially dangerous T cells.

Long-term therapy with recombinant human erythropoietin increases CD8+ T-cell apoptosis in haemodialysis patients

BACKGROUND

We intended to assess the intensity of apoptosis in the CD4+ and CD8+ T-lymphocytes of haemodialysis (HD) patients on recombinant human erythropoietin (rHuEpo).

METHODS

The expression of Fas, tumour necrosis factor-alpha receptors (TNFRI and TNFRII) and the CD28 molecule on lymphocytes was evaluated in 15 HD patients before and during treatment with rHuEpo. In cultures of peripheral blood mononuclear cells (PBMCs) stimulated with rHuEpo, phytohaemagglutinin and camptothecin, our measures of apoptosis were the percentages of cells with subdiploid DNA content and of annexin V-stained cells. Results, Therapy with rHuEpo did not affect CD4+ T cells but decreased the percentage of CD8+ T cells in peripheral blood. The intensity of apoptosis in both CD4+ and CD8+ T cells at baseline was lower in HD patients than in healthy volunteers, and increased in those treated with rHuEpo. In vitro, rHuEpo did not induce apoptosis in PBMCs. The percentage of CD8+Fas+ T cells was constant, while that of CD8+TNFRI+ cells declined during follow-up. There was an increase in the percentage of CD28+ T cells, mainly in the CD8+ compartment, as early as 1 month after the introduction of rHuEpo.

CONCLUSIONS

Treatment with rHupo caused a decline of CD8+ T cells in HD patients, which most probably was mediated via the TNFRI-related apoptotic pathway and was independent of Fas expression. Apoptosis in vitro was not directly influenced by rHuEpo, suggesting that the process in vivo was only initiated by rHuEpo supplementation.

Antigen-independent expansion of CD28hi CD8 cells from aged mice: cytokine requirements and signal transduction pathways

Memory CD8+ T cells from old mice can proliferate in nonirradiated recipients. Transfer of labeled cells from aged donors into young recipients showed that proliferation of aged donor CD8 cells requires host cells that can both respond to interferon-gamma and produce interleukin-15. Reisolation of transferred CD8 cells from host mice showed that LAT (linker for activated T cells) translocation to the immunological synapse, and translocation of NF (nuclear factor)-kappaB to the nucleus were diminished in recovered CD8 T cells from old donors, whether they had divided in vivo or not. Cells able to proliferate in vivo could be isolated based on their unusually high levels of CD28 expression, but were found not to differ from other aged CD8 cells in their low levels of LAT and protein kinase C-theta (PKC-theta) translocation to the immunological synapse. Thus in vivo proliferation of CD28hi CD8 cells from aged mice cannot be attributed to retention of T-cell receptor signaling.

A subset of CD8 memory T cells from old mice have high levels of CD28 and produce IFN-gamma

Using carboxyfluorescein diacetate succinimidyl ester (CFSE)-tagged cells to measure proliferation in vivo, we found that only memory CD8(+) cells from mice older than 18 months gave measurable levels of proliferation and that the proportion of memory CD8(+) T cells able to proliferate in a nonirradiated recipient increased with age. CD8 cells that had proliferated in vivo contained higher levels of CD28 when compared to CD8 cells that had not divided. Cells with high levels of CD28 were preferentially able to divide in nonirradiated recipients. Using ex vivo intracellular staining analysis, we determined that most of the CD8(+) T cells that were capable of dividing in vivo produced IFN-gamma after isolation from recipient mice or their original host. These studies thus document the presence in aged mice of a population of CD28(hi) CD8(+) cells whose ability to proliferate in vivo without antigenic stimulation and to produce IFN-gamma may be involved in immune regulation.

The growth of the very large CD8+ T cell clones in older mice is controlled by cytokines

Older humans and mice frequently contain very large clones of CD8(+) T cells. In mice these cells are phenotypically very similar to memory CD8(+) T cells. Like memory CD8(+) T cells, most members of the clones are in continuous slow division, apparently independently of Ag stimulation. Proliferation of the CD8(+) clonal T cells is inhibited in mice treated with Ab to the IL-2R beta-chain that blocks signaling by either IL-2 or IL-15. However, inhibition of IL-2 increases the numbers of dividing clonal cells. Therefore, like normal memory CD8(+) T cells, expansion of the clones is driven by IL-15 and inhibited by IL-2 and is probably limited by the amounts of IL-15 and IL-2 present in the host. Control by these two cytokines may account for the fact that, although the clones can be very large, they do not overwhelm or kill their hosts. Nevertheless the clonal cells compete successfully with normal memory CD8(+) T cells for growth. Perhaps the clonal cells use IL-15 more effectively or are more resistant to the inhibitory effects of IL-2. Thus they might affect the immune response of their hosts by competing for factors that stimulate and inhibit normal CD8(+) memory T cells.

Aging increases CD8 T cell apoptosis induced by hyperstimulation but decreases apoptosis induced by agonist withdrawal in mice

Apoptosis of T cells is thought to play a critical role in intrathymic T cell selection, in controlling the strength of the immune response to antigens, and in peripheral modulation of the T cell repertoire by influencing memory cell formation and survival. Peripheral T lymphocyte apoptosis or activation-induced cell death can be induced in vitro by repeated stimulation through the T cell receptor (TCR), and several groups have reported that aging increases the susceptibility of T cells to hyperstimulation-induced cell death in mice and humans. Alternately, apoptosis can also be induced in T cells by withdrawal of TCR stimulation from T cell blasts late in the activation process. This agonist withdrawal cell death, unlike apoptosis induced by repeated stimulation, is Fas- and TNFalpha-independent but is modulated by CD30 ligation. We show here that aging leads to an increase in susceptibility to apoptosis induced by repeated stimulation, but also to a decline in mouse CD8 T cell sensitivity to apoptosis induced by agonist withdrawal. Cell mixture experiments show that intercellular signals are required for the induction of apoptosis after agonist withdrawal and that the CD8 cells from aged mice can respond to these death-inducing signals but cannot produce them. A defect in this form of apoptosis after cessation of TCR signaling might contribute to the accumulation of functionally ineffective CD8 cells in aging mice.

CD8+ T-cell clones in old mice

Most old mice and human beings contain large clones of CD8+ alpha beta TCR+ T cells. In mice, clones bearing V beta 7 appear more frequently in animals infected with mouse hepatitis virus than in uninfected animals. This property is controlled by some non-MHC gene in the animals. The frequency of old mice containing such clones is affected by the origin of the animals. Although the clones are relatively anergic to acute stimuli in vitro, they can divide in vivo since in old animals they divide and turnover with about the same kinetics as other, non-clonally expanded CD8+ T cells. Moreover the clones expand slowly but inexorably after transfer into recipient animals. These data suggest that the CD8+ alpha beta TCR clones arise because they are specific for some exogenous or auto antigen to which the cells are continuously exposed in vivo.