NK phenotypic markers and IL2 response in NK cells from elderly people

Immunosenescence is a process that primarily affects the T cell compartment of the immune system, although age-associated immunological alterations have also been demonstrated in the NK cell phenotype and function. A significant expansion in the number of NK cells is found in aging. The NK cytotoxic capacity of total peripheral blood lymphocytes is also well preserved, not only in healthy elderly people but also in centenarians. However, NK cell killing of K562 is impaired when considered in a per-cell basis, and this defect is associated with defective signal transduction after activation more than a diminished conjugate formation or killing capacity. We have studied the phenotype of NK cells in elderly donors fulfilling the Senieur criteria. We have also studied the capacity of these cells to be activated by IL2 when different NK cell functions, other than cytotoxicity, are considered. Our results confirm the increased percentage of NK cells in the elderly due to the expansion of the CD56dim subset that also show an altered pattern of activation markers, whereas no differences were found in the CD56bright subset. The response of NK cells to IL2 was found to be impaired when proliferation, expression of CD69, and Ca2+ mobilization were considered, whereas TNF-alpha production was not significantly affected. These results suggest that human NK cells do not escape the aging process, although senescence have a differential effect on distinct NK cell biological functions, ranging from severe to negligible impairment, depending on the parameters considered.

NK and NK/T cells in human senescence

Natural killer (NK) cells are cytotoxic cells that play a critical role in the innate immune response against infections and tumors. Recent studies on NK cell biology have demonstrated that besides their cytotoxic function, NK cells express cytokine and chemokine receptors and also that they secrete other immunoregulatory cytokines and chemokines, supporting their relevance in the regulation of the immune response by promoting downstream adaptive, Th1 mediated, responses against infections. Immunosenescence is the deterioration of the immune response associated with aging. It is characterized mainly by a defective T cell response, but includes changes in the number and function of other cells of the innate immune system. Age-associated alterations in the number and function of NK cells have been reported. There is a general consensus that a progressive increase in the percentage of NK cells with a mature phenotype occurs in elderly donors associated with an impairment of their cytotoxic capacity when considered on a "per cell" basis. The response of NK cells from elderly individuals to IL-2 or other cytokines is also decreased in terms of proliferation, expression of CD69 and killing of NK-resistant cell lines. Furthermore early IFN-gamma and chemokine production in response to IL-2 or IL-12 is also decreased. However aging does not significantly alter other NK cell functions such as TNF-alpha production or perforin induction in response to IL-2. The percentage of T cells that co-express NK cell markers is also increased in aging. These results indicate that the increase in the number of "classical" mature NK and NK/T cells in aging is associated with a defective functional capacity of NK cells. Low NK cell number or function in elderly individuals is associated with increased mortality risk and increased incidence of severe infections, supporting the role of NK cells in the defense against infections in the elderly.

Increased expression of NK cell markers on T lymphocytes in aging and chronic activation of the immune system reflects the accumulation of effector/senescent T cells

In humans, CD56, CD161, CD16, CD94 or CD57 represent prototypic markers of NK cells, although they are also found on a subset of CD8+ T cells. We propose here that the expression of NK receptors on CD8+ T cells can be considered a marker of cytotoxic effector T cells that are expanded in vivo after antigenic activation leading to extensive proliferation. The persistence of antigen will lead to loss of co-stimulatory molecules, telomere shortening and defective IL-2 production, changes that define the state replicative senescence in T lymphocytes. The majority of these "effector/senescent" T lymphocytes are CD8+, CD45RA+, CD11a(bright), CD28-, CD27-, CD62L- and CCR7-. They are cytotoxic T cells with strong expression of intracytoplasmic perforin and granzyme, but with low proliferative capacity and defective IL-2 production. Many of these characteristics are shared by the recently defined "effector/memory" T cells, being mainly distinguished by the absence of CD45RA expression on the memory cells. The expression of NK receptor in these effector cells will probably contribute to the regulation of their cytotoxic function. Expansion of cells with these characteristics can be found not only in the elderly but also in other clinical conditions involving chronic activation of the immune system such as viral infections, rheumatic and autoimmune diseases or tumors. Another subset of T cells that expresses the NK receptors is the alpha-galactosyl-ceramide specific T cell subset defined by the expression of canonical Valpha24JalphaQ TCR, recognition of CD1d and secretion of high amounts of IL-4 and IFN-gamma. However, the changes observed in the expression of NK-R on T cells associated to immunosenescence can not be attributed to expansion of this particular T cell subset, although alterations in the number and function of these cells have been demonstrated in some autoimmune diseases.

CD69 is a stimulatory receptor for natural killer cell and its cytotoxic effect is blocked by CD94 inhibitory receptor

CD69 is a differentiation antigen expressed shortly after activation on T lymphocytes and other cells of haematopoietic origin, including natural killer (NK) cells. The function of CD69 on T lymphocytes acting as a costimulatory molecule in proliferation and lymphokine secretion is well established. NK cells express CD69 after activation by different stimuli such as phorbol 12-myristate 13-acetate (PMA), interleukin (IL)-2, IL-12, interferon-alpha (IFN-alpha) or anti-CD16 monoclonal antibodies (mAbs). However, although it has been shown that CD69 triggers NK-cell-mediated cytolytic activity, its effect on other NK-cell functions has not been studied. Furthermore, the possible interaction of CD69 triggering with other C-lectin type inhibitory receptors is not known. Thus, the objective of this work is to determine whether CD69-mediated NK cytotoxicity can be regulated by CD94 inhibitory receptor and the role of CD69 on other NK-cell functions different of cytotoxicity. The results show that CD69-mediated NK cytotoxicity can be abrogated by CD94 stimulation in NK cells expressing the CD94 inhibitory form of the receptor, indicating that CD94 regulates the cytotoxic events initiated by a wide variety of NK activatory receptors. We also show that anti-CD69 mAbs, not only triggered NK cytotoxicity, but also induce NK-cell proliferation, CD25 and intracellular adhesion molecule-1 (ICAM-1) expression, TNF-alpha production and Ca2+ mobilization in preactivated NK cells. These results suggest that CD69 plays a crucial role in NK-cell function contributing to sustain NK-cell activation, as it has been previously demonstrated in T cells.

Impact of aging on innate immunity

Immune responses in higher organisms are triggered by the recognition of a limited diversity of microbiological products by cells of the innate or "natural" immune system. As a result, in addition to the direct protective effect of natural immunity, antigen-presenting cells, particularly dendritic cells, are activated to process and present an enormous number of peptide antigens to the T lymphocytes of the adaptive immune system. These, together with the B lymphocytes, then mediate specific immune responses and maintain acquired immunological memory. The aging immune system is less well able to cope with infectious disease than the youthful immune system; this review will briefly consider what is known of the age-associated alterations in innate immunity, and how these may also impact on adaptive immunity.

Pretransplant interferon-γ secretion by CMV-specific CD8+ T cells informs the risk of CMV replication after transplantation

In this prospective study we analyzed pretransplant interferon-γ secretion by cytomegalovirus (CMV)-specific CD8+ T cells to assess its possible utility in determining the risk of CMV replication after solid organ transplantation. A total of 113 lung and kidney transplant patients were enrolled in the study but only 55 were evaluable. All CMV-seronegative recipients were pretransplant "nonreactive" (IFNγ <0.2 IU/mL) (11/11), whereas 30/44 (68.2%) CMV-seropositive (R+) recipients were "reactive" (IFNγ ≥0.2 IU/mL) and 14/44 (31.8%) were "nonreactive". In the R(+) "nonreactive" group, 7/14 (50%) developed posttransplant CMV replication, whereas the virus replicated only in 4/30 (13.3%) of the R(+) "reactive" patients (p = 0.021). According to the best multivariate model, pretransplant "nonreactive" recipients receiving an organ from a CMV-seropositive donor had a 10-fold increased risk of CMV replication compared to pretransplant "reactive" recipients (adjusted OR 10.49, 95% CI 1.88-58.46). This model displayed good discrimination ability (AUC 0.80) and calibration (Hosmer-Lemeshow test, p = 0.92). Negative and positive predictive values were 83.7% and 75%, respectively. The accuracy of the model was 82%. Therefore, assessment of interferon-γ secretion by cytomegalovirus (CMV)-specific CD8+ T cells prior to transplantation is useful in informing the risk of posttransplant CMV replication in solid organ transplant patients.

Natural killer cells in healthy aging

Immunosenescence is a process that affects all cell compartments of the immune system. Age-associated changes have been demonstrated not only on T lymphocytes but also in different aspects of the innate immunity including natural killer (NK) cells. A significant expansion in the percentage of NK cells showing a mature phenotype has been found in healthy elderly donors, and the NK-cytotoxic capacity of total peripheral blood lymphocytes is well preserved in these individuals. However, NK-cell killing of K562 is impaired when considered on a per-cell basis. Furthermore, NK cells from elderly people show a decreased proliferative response to interleukin 2 and a parallel impaired expression of the CD69 activation antigen. The response to interleukin 2 of NK cells from aged donors is also impaired in terms of their capacity to kill NK-resistant cell lines, but not when K562 killing, perforin synthesis, or tumor necrosis factor alpha production are considered. Therefore phenotypic and functional alterations can be shown in NK cells in healthy aging. These changes are compatible with the expansion of a mature NK subset.

The T cell in the ageing individual

Aged persons frequently manifest declining parameters of those immune functions which protect the young against disease. Longitudinal studies are beginning to show that number, type and function of T cells may be associated with longevity, morbidity and mortality in free-living elderly humans. Multi-faceted alterations in the ability of T cells from old donors to respond to stimulation are being dissected, and pathways which are compromized in the elderly compared to the young are being defined. Successful immune responses depend upon waves of rapid and extensive clonal expansion to combat primary infection, followed by death of most T cells, survival of memory cells and their later reactivation and further expansion. This implies that the finite replicative potential of T cells might impose a critical limiting factor on the maintenance of immune responses in the face of thymic involution and drastically reduced capacity to generate new naive T cells. This type of 'clonal exhaustion' can readily be studied in vitro using human T cell clones and the findings can be applied to the in vivo situation. Understanding the processes of replicative senescence in such in vitro models may shed light not only on some of the underlying mechanisms of immunosenescence but also in situations of chronic antigenic stimulation in vivo. Moreover, it might begin to indicate how the system could be manipulated on the one hand to prevent or reverse T cell senescence without nullifying the control mechanisms of tumor suppression, and on the other hand, to reconstitute possibly faulty suppression, for example in autoimmune disease.

T cells and aging (update february 1999)

Deterioration of the immune system with aging ("immunosenescence") is believed to contribute to morbidity and mortality in man due to the greater incidence of infection, as well as possibly autoimmune phenomena and cancer in the aged. Dysregulation of T cell function is thought to play a critical part in these processes. Factors contributing to T cell immunosenescence may include a) stem cell defects, b) thymus involution, c) defects in antigen presenting cells (APC), d) aging of resting immune cells, e) disrupted activation pathways in immune cells, f) replicative senescence of clonally expanding cells. This review aims to consider the current state of knowledge on the scientific basis for and potential clinical relevance of those factors in immunosenescence.

Expression of killer inhibitory receptors on cytotoxic cells from HIV-1-infected individuals

Dysfunction of cytotoxic activity of T and natural killer (NK) lymphocytes is a main immunological feature in patients with AIDS, but its basis are not well understood. It has been recently described that T and NK cell-mediated cytotoxicity can be regulated by HLA killer inhibitory receptors (KIR). In this work, we have determined on cytotoxic T cells and NK cells from HIV-1-infected individuals the expression of the following KIR molecules: p58, p70, and ILT2 (immunoglobulin-like family KIR) as well as CD94 and NKG2A (C-lectin-type family KIR). With some exceptions, no significant changes were found on the expression of immunoglobulin-like KIR in either CD8+ or CD56+ cells. Interestingly, the percentages of CD8+ and CD56+ cells expressing CD94 were significantly increased in these individuals. We also show that, in vitro, IL-10 up-regulates CD94 expression on CD8+ and CD56+ cells obtained from normal individuals, suggesting that the augmented expression observed in HIV-infected individuals could be related to the high levels of IL-10 previously described in HIV-1-infected individuals.

Regulation of CD69 expression on human natural killer cells: differential involvement of protein kinase C and protein tyrosine kinases

Human peripheral blood natural killer (NK) cells (CD56+, CD16+, CD3 epsilon- lymphocytes) express CD69 after their stimulation by interleukin-2 (IL-2) or interferon-alpha (IFN-alpha). This activation antigen represents a triggering surface molecule in NK cell clones as its stimulation triggers the cytolytic machinery of these cells. However, the mechanisms regulating the expression of CD69 in NK cells are unknown despite the functional relevance of CD69 in NK cell activation. Thus, we have analyzed the role of protein kinase C (PKC) and protein tyrosine kinases (PTK) in the expression of CD69 on purified NK cells activated by IL-2, IFN-alpha, anti Fc gamma RIII (CD16) monoclonal antibodies or by K562 target cells. We found that CD69 is induced on NK cells not only by IL-2 and IFN-alpha but also by activation of the CD16 pathway, the interaction with NK target cells and the direct activation of PKC by phorbol 12-myristate 13-acetate (PMA), indicating that CD69 induction is associated to different NK activation pathways. The treatment with the PKC inhibitor staurosporine abolished the induction of CD69 induced by PMA or K562. However, it did not significantly affect CD69 induction by IL-2, IFN-alpha or CD16 cross-linking. This demonstrates that whereas PKC can play a central role in the regulation of CD69 expression in some instances (response to K562 cells or PMA), it does not participate in others (response to IL-2, IFN-alpha or anti CD16 monoclonal antibodies). On the other hand genistein, a competitive inhibitor of PTK enzymes, blocked the expression of CD69 induced by activation of NK cells via IL-2 or IFN-alpha receptors, CD16 and K562 receptor(s), indicating that stimulation of PTK is a common step in the signal transduction events leading to the induction of CD69 antigens after the activation of NK cells via these receptors.

Molecular and cellular basis of immunosenescence

Aged persons and most animals studied show a significant decline in the immune response primarily caused by changes in the T cell compartment. This decline in T cell function is due to a combination of factors: decreased production of new naive T cells by the involuting thymus; extensive antigen-induced activation leading to replicative senescence and clonal exhaustion of certain T cells; and postmitotic aging of resting T cells, a phenomenon also observed in other non-dividing cells such as neurons or muscle cells. The relative importance of these processes in the T cell defective immune response observed in aged humans and animals remains to be established although it is very likely that all of them participate in immunosenescence. The cellular, molecular biological basis and the clinical consequences of the defective immune response in aging were extensively discussed and reviewed at the 5th EUCAMBIS meeting. This paper summarizes the main presentations at the meeting. This special issue contains selected presentations from the congress, in the form of peer-reviewed full papers and the abstracts of two papers previously published in the journal.

Threonine 80 on HLA-B27 confers protection against lysis by a group of natural killer clones

Recognition of major histocompatibility complex (MHC) class I molecules on target cells by natural killer (NK) cells inhibits NK cell-mediated lysis. Although it is known that this inhibitory effect is regulated by MHC polymorphism, the precise structural determinants remain undefined. Based on the capacity of different HLA-C and HLA-B motifs specifically to inhibit cytotoxicity of some NK clones, three different NK cell specificities (NK1, NK2 and NK3) have been described. In this study, the recognition of HLA-B27 by NK clones has been analyzed using C1R cells transfected with different HLA-B27 subtypes as target cells. Cytotoxicity was inhibited by the HLA-B*2705, -B*2701 -B*2703, -B*2704 and -B*2706 alleles, but not by -B*2702. This subtype is distinguished from the other B27 subtypes by the presence of isoleucine instead of threonine at position 80. Direct involvement of this residue was assessed by showing that site-directed mutagenesis of Thr80 to Ile80 in HLA-B*2705 reverted the NK protective effect of HLA-B*2705. Based on these data, we suggest that Thr80 could act as a single residue conferring target cell protection from lysis by a group of NK clones, tentatively designated NK4.

T cells and aging

Deterioration of the immune system with aging ("immunosenescence") is believed to contribute to morbidity and mortality in man due to the greater incidence of infection, as well as possibly autoimmune phenomena and cancer in the aged. Dysregulation of T cell function is thought to play a critical part in these processes. Factors contributing to T cell immunosenescence may include a) stem cell defects, b) thymus involution, c) defects in antigen presenting cells (APC), d) aging of resting immune cells, e) disrupted activation pathways in immune cells, f) replicative senescence of clonally expanding cells. This review aims to consider the current state of knowledge on the scientific basis for and potential clinical relevance of those factors in immunosenescence.

Downregulation of Fc gamma receptor IIIA alpha (CD16-II) on natural killer cells induced by anti-CD16 mAb is independent of protein tyrosine kinases and protein kinase C

Downregulation of functionally relevant surface molecules has been shown to be a powerful regulatory mechanism of Ag surface expression that seems to be of general significance in vivo. CD16-II (Fc gamma RIIIA alpha) is the transmembrane form of the low-affinity receptor for IgG which is expressed on monocytes and NK cells. Occupancy of CD16-II receptor on NK cells induces expression of activation antigens, synthesis of cytokines, and lysis of antibody-coated target cells. Furthermore, after activation the receptor is downregulated from the cell surface. This downregulation could play a physiological role in the NK activation process via CD16 by releasing the antibody-coated target cell and halting signal transduction. The participation of PKC and PTKs in the activation of NK cells via CD16 is clearly established. Thus, we have considered of interest to study the mechanism of CD16-II downregulation in NK cells and the role played by these kinases in the process. The results show that 1,10-phenantroline, a specific inhibitor of Zn(2+)-dependent metalloproteases, inhibits CD16 downregulation induced by CD16 crosslinking, thus suggesting that this process requires the activation of a Zn2+ dependent metalloprotease as it occurs in PMA mediated CD16 downregulation by shedding. Our results also demonstrate that CD16-II downregulation induced by CD16 crosslinking is independent of PKC and PTK activation. In contrast other NK cell activities induced by CD16 crosslinking, such as the induction of activation markers or the production of TNF-alpha, were dependent of PTK activation. The fact that PKC inhibitor staurosporine blocks PMA- but not CD16-induced downregulation suggests that CD16 downregulation can be achieved via two different pathways: one that is PKC dependent and one that is not. The characterization of the Zn(2+)-dependent metalloproteases and the analysis of the regulatory mechanisms involved in its activation will be of interest in order to clarify the physiological relevance of CD16-II release from NK cells as part of the NK activation process.

Natural killer susceptibility is independent of HLA class I antigen expression on cell lines obtained from human solid tumors

The susceptibility to natural killer (NK) cell-mediated cytotoxicity of 20 cell lines obtained from human solid tumors and their class I histocompatibility antigen (HLA) levels were studied in an attempt to determine whether major histocompatibility complex (MHC) products expressed on cells derived from human solid tumors influence NK susceptibility. The effect of interferon-gamma (IFN-gamma) treatment on these elements was also analyzed. The MHC class I (HLA-ABC, HLA-A and HLA-B) antigen levels and degree of NK lysis were very heterogeneous and no correlation was found on comparison. After treatment with IFN-gamma a marked decrease in NK susceptibility was observed in all the cell lines, including the control line K-562. However, the level of HLA class I expression was not modified in any of the lines with the exception of the K-562, which increased. In some cell lines the expression of HLA class I-like antigens. CDla, b and c, was also measured before and after IFN treatment; however, no correlation was found between CD1 levels and NK susceptibility. Consequently, from our results it is possible to conclude that HLA class I antigens do not play a decisive role in NK susceptibility of cell lines derived from human solid tumors and to suggest that molecules which are not HLA class I antigens but IFN-gamma inducible may confer NK resistance to these lines.

Suicidal ideation in a community-derived sample of Spanish adolescents

INTRODUCTION

Suicide is a current public health problem and among the main causes of mortality in adolescents and young adults. The main goal of this study was to analyse suicidal ideation in a representative sample of Spanish adolescents. Specifically, the prevalence rates of suicide ideation, the psychometric properties of the Paykel Suicide Scale (PSS) scores, and the socio-emotional adjustment of adolescents at risk for suicide were analysed.

MATERIAL AND METHODS

The sample consisted of 1,664 participants (M=16.12 years, SD=1.36, range 14-19 years), selected by stratified sampling by clusters. The instruments used were the PSS, the Strengths and Difficulties Questionnaire, the Personal Wellbeing Index-School Children, and the Oviedo Infrequency Scale.

RESULTS

The results showed that 4.1% of the sample indicated that they had tried to commit suicide in the previous year. Statistically significant differences were found according to gender but not according to age in the PSS mean scores. The analysis of the internal structure of the PSS showed that the one-dimensional model presented excellent goodness of fit indexes. This model showed measurement invariance across gender. The reliability of the scores, estimated with ordinal alpha, was 0.93. Participants who reported suicide ideation showed poorer mental health status and lower life satisfaction compared to the non-suicide ideation group.

CONCLUSIONS

Suicidal ideation is present during adolescence and is associated with poor subjective well-being and increased emotional and behavioural problems. PSS seems to show adequate psychometric behaviour to assess suicidal ideation in adolescents. These findings have clear implications, both in health and education systems, to improve the promotion of emotional well-being and prevention of psychological and psychiatric problems in this sector of the population.

Factors related to the development of CMV-specific CD8+ T cell response in CMV-seropositive solid organ transplant candidates

This cross-sectional study analyzes factors associated with the development of CMV-specific CD8+ response, measured by IFNg production after cytomegalovirus (CMV) peptide stimulation, in CMV-seropositive solid organ transplantation candidates. A total of 114 candidates were enrolled, of whom 22.8% (26/114) were nonreactive (IFNγ < 0.2 IU/mL). Multivariate logistic regression analysis showed that age, HLA alleles and organ to be transplanted were associated with developing CMV-specific CD8+ immunity (reactive; IFNγ ≥ 0.2 IU/mL). The probability of being reactive was higher in candidates over 50 than in those under 50 (OR 6.33, 95%CI 1.93-20.74). Candidates with HLA-A1 and/or HLA-A2 alleles had a higher probability of being reactive than those with non-HLA-A1/non-HLA-A2 alleles (OR 10.97, 95%CI 3.36-35.83). Renal candidates had a higher probability of being reactive than lung (adjusted OR 8.85, 95%CI 2.24-34.92) and liver candidates (OR 4.87, 95%CI 1.12-21.19). The AUC of this model was 0.84 (p < 0.001). Positive and negative predictive values were 84.8% and 76.9%, respectively. In renal candidates longer dialysis was associated with an increased frequency of reactive individuals (p = 0.040). Therefore, although the assessment of CMV-specific CD8+ response is recommended in all R+ candidates, it is essential in those with a lower probability of being reactive, such as non-renal candidates, candidates under 50 or those with non-HLA-A1/non-HLA-A2 alleles.

Cellular redox status influences both cytotoxic and NF-kappa B activation in natural killer cells

The role of cellular redox status in both cytotoxic activity and NF-kappa B activation in natural killer (NK) cells was investigated. The results indicate that stimulation of NK cells, either freshly isolated from peripheral blood lymphocytes (PBL) or long-term cultured NK clones, with specific cell targets results in an increased binding activity of NF-kappa B and AP-1 transcription factors measured by gel retardation. Pretreatment of NK cells with the antioxidant pyrrolidine dithiocarbarmate (PDTC) leads to the inhibition of NF-kappa B activation but the AP-1 binding to DNA was superinduced. The inhibition of NF-kappa B by PDTC paralleled with an inhibition of spontaneous cytotoxicity mediated by NK cells. Moreover, the inhibitors of serine proteases, N-alpha-tosyl-L-lysine chloromethyl ketone and N-alpha-tosyl-L-phenylalanine chloromethyl ketone, also blocked the cytolytic activity of NK cells against the sensitive target K562. In contrast, NK activity was not affected by pretreatment of the effector cells with the proteasome inhibitor N-acetyl-leu-leu-norleucinal which selectively inhibits NF-kappa B activation. Altogether, these results support the hypothesis that the activation of NK cells involved transcriptional and post-transcriptional events, and that reactive intermediates may play an important role in the molecular processes related with the generation of a cytotoxic response by NK cells.

Longevity in vitro of human CD4+ T helper cell clones derived from young donors and elderly donors, or from progenitor cells: age-associated differences in cell surface molecule expression and cytokine secretion

The effectiveness of the adaptive immune system relies upon extensive proliferation of an initially small number of antigen-specific T cells. At the end of a successful response, the majority die by apoptosis and a small minority joins the memory cell pool. Upon re-challenge with antigen, these memory cells must again undergo clonal expansion in order to mediate an effective response. Thus, T cells are subjected to marked proliferative stress which may result in clonal exhaustion due to replicative senescence. In other systems made up of rapidly proliferating cells (e.g. in the gut) individual clones are identical and are replaced at the end of their lifespan by differentiation from a stem cell reservoir. However, because of the unique clonal distribution of antigen receptors on T cells, mere replacement with other T cells is not sufficient to maintain the integrity of the system. Moreover, the very source of new T cells decreases with age (due to thymic involution). Therefore, the adaptive immune system may be uniquely susceptible to the deleterious effects of replicative senescence. Particularly in humans, in vivo studies of the behaviour of individual T-cell clones in the body is difficult. However, T-cell longevity, measured as proliferative capacity in terms of population doublings, can be usefully modelled at the clonal level in vitro. This paper discusses the surprisingly little that is known about the average longevity, variation between clones, and the maximal longevity of human T cells under clonal culture conditions in vitro. From our own studies, we show that average lifespan of human T cells is as little as 17 PD; however, established clones reach 35 PD on average, with maximum longevity generally in the region of 60-80 PD, regardless of the source of the cloned cells. Expression of surface molecules in general did not differ strikingly between young and old donors, but the frequency of clones secreting IL-10, and the amount secreted per clone was higher in the elderly than in the young. Conversely, the frequency of clones secreting IL-6 and the amount secreted per clone was higher in the young.

Calcitriol effect on natural killer cells from hemodialyzed and normal subjects

Patients with chronic renal failure have a decreased secretion of calcitriol (CTR). They also show an impaired cellular immune response including a defective natural killer (NK) cell-mediated activity. The aim of this study was to analyze, in vivo and in vitro, the effect of CTR on NK cell cytotoxicity in healthy control subjects and in hemodialyzed (HD) patients. Our results show that HD patients had baseline-depressed NK cell activity when compared with controls (P < 0.001), which increased significantly after 1 month of oral CTR treatment (0.5 microgram/day) (P < 0.001). Calcitriol treatment also induced a significant increase in CTR serum levels (P < 0.001) and a significant decrease (P < 0.001) in total parathyroid hormone (PTH). In vitro CTR treatment (10(-7) M) of peripheral blood mononuclear cells (PBMC) increased NK cell-mediated cytotoxicity after 24 hours of incubation with a maximum at 48 hours (P < 0.001). In vitro CTR treatment at doses of 10(-11) and 10(-9) M did not significantly increase NK cytotoxic activity. The enhanced NK activity after CTR treatment was not the consequence of increased numbers of CD56 positive cells, nor to lymphocyte activation, as tested by the expression of the interleukin 2 receptor p55 alpha chain (CD25) on their surface. In vitro treatment of PBMC from HD patients with CTR (10(-7) M, during 48 hours) also induced a strong increase in NK cell cytotoxicity (P < 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)