Depressive symptoms post hip fracture in older adults are associated with phenotypic and functional alterations in T cells

Background

Ageing is accompanied by reduced immunity, termed immunesenescence. The immune system does not act in isolation and is sensitive to both psychological and physical stress. Hip fracture is a common physical stressor in older adults with a high incidence of new onset depression, which relates to poorer prognosis. We therefore set out to examine the possible synergistic effects of physical stress (hip fracture) and psychological stress (depressive symptoms) on the aged immune system.

Results

T cell phenotype and function was assessed in 101 hip fracture patients (81 female) 6 weeks after hip fracture and 43 healthy age-matched controls (26 female). 38 fracture patients had depressive symptoms at 6 weeks. T cell frequency (p?=?.01) and numbers (p?=?.003) were both lower in depressed hip fracture patients compared to healthy controls. The frequency of senescent CD28^-ve (p?=?.001), CD57^+ve (p?=?.001), KLRG1^+ve (p?=?.03) CD8 T cells, as well as senescent CD28^-ve CD4^+ve (p?=?.01) and CD57^+ve CD4^+ve (p?=?.003) T cells were higher in depressed hip fracture patients compared with healthy controls and the frequency of CD28^-ve CD8 T cells was also higher when compared to patients with hip fracture alone (p?=?.01). Additionally, activated CD69^+ve (p?=?.005) and HLADR^+ve (p?<?.001) CD8 T cells, were also higher in depressed hip fracture patients compared to healthy controls. On examining cytokine production by activated T cells, a significant increase in TNFα (p?=?.03) and IL6 (p?=?.04) production was observed in CD4 T cells from hip fracture patients with depressive symptoms compared to healthy controls.

Conclusions

As none of the patients in the study had a prior history of depression, our data suggest that the development of depressive symptoms in hip fracture patients is associated with altered T cell phenotype and increased pro-inflammatory function which is not seen in patients who do not develop depression after hip fracture. Treating depressive symptoms promptly in hip fracture patients may therefore improve immunity and outcomes in these patients.

     

An age‐related numerical and functional deficit in CD19+CD24hiCD38hi B cells is associated with an increase in systemic autoimmunity

Autoimmunity increases with aging indicative of reduced immune tolerance, but the mechanisms involved are poorly defined. In recent years, subsets of B cells with immunoregulatory properties have been identified in murine models of autoimmune disorders, and these cells downregulate immune responses via secretion of IL10. In humans, immature transitional B cells with a CD19⁺CD24^hiCD38^hi phenotype have been reported to regulate immune responses via IL10 production. We found the frequency and numbers of CD19⁺CD24^hiCD38^hi cells were reduced in the PBMC pool with age. IL10 expression and secretion following activation via either CD40, or Toll‐like receptors was also impaired in CD19⁺CD24^hiCD38^hi B cells from healthy older donors. When investigating the mechanisms involved, we found that CD19⁺CD24^hiCD38^hi B‐cell function was compromised by age‐related effects on both T cells and B cells: specifically, CD40 ligand expression was lower in CD4 T cells from older donors following CD3 stimulation, and signalling through CD40 was impaired in CD19⁺CD24^hiCD38^hi B cells from elders as evidenced by reduced phosphorylation (Y705) and activation of STAT3. However, there was no age‐associated change in expression of costimulatory molecules CD80 and CD86 on CD19⁺CD24^hiCD38^hi cells, suggesting IL10‐dependent immune suppression is impaired, but contact‐dependent suppressive capacity is intact with age. Finally, we found a negative correlation between CD19⁺CD24^hiCD38^hi B‐cell IL10 production and autoantibody (Rheumatoid factor) levels in older adults. We therefore propose that an age‐related decline in CD19⁺CD24^hiCD38^hi B cell number and function may contribute towards the increased autoimmunity and reduced immune tolerance seen with aging.     

NK-like T cells and plasma cytokines, but not anti-viral serology, define immune fingerprints of resilience and mild disability in exceptional aging

Exceptional aging has been defined as maintenance of physical and cognitive function beyond the median lifespan despite a history of diseases and/or concurrent subclinical conditions. Since immunity is vital to individual fitness, we examined immunologic fingerprint(s) of highly functional elders. Therefore, survivors of the Cardiovascular Health Study in Pittsburgh, Pennsylvania, USA were recruited (n = 140; mean age = 86 years) and underwent performance testing. Blood samples were collected and examined blindly for humoral factors and T cell phenotypes. Based on results of physical and cognitive performance testing, elders were classified as “impaired” or “unimpaired”, accuracy of group assignment was verified by discriminant function analysis. The two groups showed distinct immune profiles as determined by factor analysis. The dominant immune signature of impaired elders consisted of interferon (IFN)-γ, interleukin (IL)-6, tumor necrosis factor-α, and T cells expressing inhibitory natural killer-related receptors (NKR) CD158a, CD158e, and NKG2A. In contrast, the dominant signature of unimpaired elders consisted of IL-5, IL-12p70, and IL-13 with co-expression of IFN-γ, IL-4, and IL-17, and T cells expressing stimulatory NKRs CD56, CD16, and NKG2D. In logistic regression models, unimpaired phenotype was predicted independently by IL-5 and by CD4⁺CD28^nullCD56⁺CD57⁺ T cells. All elders had high antibody titers to common viruses including cytomegalovirus. In cellular bioassays, T cell receptor (TCR)-independent ligation of either CD56 or NKG2D elicited activation of T cells. Collectively, these data demonstrate the importance of immunological parameters in distinguishing between health phenotypes of older adults. NKR⁺ T cells and cytokine upregulation indicate a unique physiologic environment in old age. Correlation of particular NKR⁺ T cell subsets and IL-5 with unimpaired performance, and NKR-driven TCR-independent activation of T cells suggest novel immunopathway(s) that could be exploited to improve immunity in old age.     

Murine CD8+ recent thymic emigrants are alphaE integrin-positive and CC chemokine ligand 25 responsive

Recent thymic emigrants (RTE) are an important subpopulation of naive CD8+ T cells because of their ability to reconstitute a diverse immune system after periods of T cell depletion. In neonatal mice, the majority of peripheral T lymphocytes are RTE, cells that have recently left the thymus to populate the periphery. Postulating that these cells could have unique trafficking mechanisms, we compared adhesion molecule and chemokine receptor expression of neonatal RTE with mature adult lymphocytes. Neonatal CD8+ splenocytes uniformly express alpha(E) integrin and exhibit a high responsiveness to CC chemokine ligand (CCL25) (as compared with adult CD8+ splenocytes). Mature CD8+ thymocytes have a similar alpha(E) integrin(+) CCL25 responsive phenotype, as do adult CD8+ RTE identified by intrathymic FITC injection. With increasing age, the frequency of CD8+ alpha(E) integrin(+) splenocytes decreases, roughly correlating with thymic involution. Moreover, halting thymic output by thymectomy accelerates the age-dependent decline in peripheral CD8+ alpha(E) integrin(+) RTE phenotype cells. Low expression of CD44 distinguishes these CD8+ RTE from a population of memory phenotype alpha(E) integrin(+) CD8+ cells that are CD44(high). We conclude that CD8+ RTE have unique adhesive and chemotactic properties that distinguish them from naive CD8+ T cells. These properties may enable specialized microenvironmental and cell-cell interactions contributing to the fate of RTE in the periphery during the early post-thymic period. This phenotype will also facilitate the identification and isolation of RTE for further studies.     

Thymic involution,a co‐morbidity factor in amyotrophic lateral sclerosis

Amyotrophic lateral sclerosis (ALS) is a devastating disease, characterized by extremely rapid loss of motor neurons. Our studies over the last decade have established CD4⁺ T cells as important players in central nervous system maintenance and repair. Those results, together with recent findings that CD4⁺ T cells play a protective role in mouse models of ALS, led us to the current hypothesis that in ALS, a rapid T‐cell malfunction may develop in parallel to the motor neuron dysfunction. Here, we tested this hypothesis by assessing thymic function, which serves as a measure of peripheral T‐cell availability, in an animal model of ALS (mSOD1 [superoxide dismutase] mice; G93A) and in human patients. We found a significant reduction in thymic progenitor‐cell content, and abnormal thymic histology in 3–4‐month‐old mSOD1 mice. In ALS patients, we found a decline in thymic output, manifested in the reduction in blood levels of T‐cell receptor rearrangement excision circles, a non‐invasive measure of thymic function, and demonstrated a restricted T‐cell repertoire. The morbidity of the peripheral immune cells was also manifested in the increase of pro‐apoptotic BAX/BCXL2 expression ratio in peripheral blood mononuclear cells (PBMCs) of these patients. In addition, gene expression screening in the same PBMCs, revealed in the ALS patients a reduction in key genes known to be associated with T‐cell activity, including: CD80, CD86, IFNG and IL18. In light of the reported beneficial role of T cells in animal models of ALS, the present observation of thymic dysfunction, both in human patients and in an animal model, might be a co‐pathological factor in ALS, regardless of the disease aetiology. These findings may lead to the development of novel therapeutic approaches directed at overcoming the thymic defect and T‐cell deficiency.     

Age-Related Expansion of Tim-3 Expressing T Cells in Vertically HIV-1 Infected Children

As perinatally HIV-1-infected children grow into adolescents and young adults, they are increasingly burdened with the long-term consequences of chronic HIV-1 infection, with long-term morbidity due to inadequate immunity. In progressive HIV-1 infection in horizontally infected adults, inflammation, T cell activation, and perturbed T cell differentiation lead to an “immune exhaustion”, with decline in T cell effector functions. T effector cells develop an increased expression of CD57 and loss of CD28, with an increase in co-inhibitory receptors such as PD-1 and Tim-3. Very little is known about HIV-1 induced T cell dysfunction in vertical infection. In two perinatally antiretroviral drug treated HIV-1-infected groups with median ages of 11.2 yr and 18.5 yr, matched for viral load, we found no difference in the proportion of senescent CD28⁻CD57⁺CD8⁺ T cells between the groups. However, the frequency of Tim-3⁺CD8⁺ and Tim-3⁺CD4⁺ exhausted T cells, but not PD-1⁺ T cells, was significantly increased in the adolescents with longer duration of infection compared to the children with shorter duration of HIV-1 infection. PD-1⁺CD8⁺ T cells were directly associated with T cell immune activation in children. The frequency of Tim-3⁺CD8⁺ T cells positively correlated with HIV-1 plasma viral load in the adolescents but not in the children. These data suggest that Tim-3 upregulation was driven by both HIV-1 viral replication and increased age, whereas PD-1 expression is associated with immune activation. These findings also suggest that the Tim-3 immune exhaustion phenotype rather than PD-1 or senescent cells plays an important role in age-related T cell dysfunction in perinatal HIV-1 infection. Targeting Tim-3 may serve as a novel therapeutic approach to improve immune control of virus replication and mitigate age related T cell exhaustion.     

Interleukin‐38 protects against sepsis by augmenting immunosuppressive activity of CD4+CD25+ regulatory T cells

Naturally occurring CD4⁺CD25⁺ regulatory T cells (Tregs) are required to limit immune‐induced pathology and to maintain homeostasis during the early‐phase of sepsis. This study aimed to investigate the role of interleukin (IL)‐38, a newly described member of the IL‐1 cytokine family, in mediated immune response of CD4⁺CD25⁺ Tregs in sepsis. Here, we provide evidence that expressions of IL‐38 and its receptor were detected in murine CD4⁺CD25⁺ Tregs. Stimulation of CD4⁺CD25⁺ Tregs with LPS markedly up‐regulated the expression of IL‐38. Treatment with rmIL‐38 dramatically enhanced the immunosuppressive activity of CD4⁺CD25⁺ Tregs after LPS stimulation and in septic mice induced by CLP, resulting in amplification of helper T cell (Th) 2 response and reduction in the proliferation of effector T cells. These effects were robustly abrogated when anti–IL‐38 antibody was administered. Administration of rmIL‐38 improved the survival rate of CLP mice. In addition, CD4⁺CD25⁺ Tregs depletion before the onset of sepsis obviously abolished IL‐38–mediated protective response. These findings suggest that IL‐38 enhances the immunosuppressive activity of CD4⁺CD25⁺ Tregs, which might contribute to the improvement of host immune function and prognosis in the setting of sepsis.     

Reevaluation of T cell receptor excision circles as a measure of human recent thymic emigrants

The human thymus exports newly generated T cells to the periphery. As no markers have been identified for these recent thymic emigrants (RTE), it is presently impossible to measure human thymic output. T cell receptor excision circles (TREC) have been recently used to assess thymic output during both health and disease. Using a mathematical model, we quantify age-dependent changes both in the number of RTE generated per day and in TREC concentration during an 80-year lifespan. Through analyses, we demonstrate that RTE and peripheral T cell division have the same potential to affect TREC concentration at any age in healthy people. T cell death also influences TREC concentration, but to a lesser extent. During aging, our results indicate that thymic involution primarily induces an age-dependent decline in TREC concentrations within both CD4(+) and CD8(+) T cell populations. We further apply this model for studying TREC concentration during HIV-1 infection. Our analyses reveal that a decrease in thymic output is the major contributor to the decline in TREC concentration within CD4(+) T cells, whereas both increased peripheral T cell division and decreased thymic output induce the decline in TREC concentration within CD8(+) T cells. Therefore, we suggest that T cell turnover should be examined together with TREC concentration as a measure of RTE. If peripheral T cell division remains relatively unchanged, then TREC concentration indeed reflects thymic output.     

Human herpesvirus-6-specific interleukin 10-producing CD4+ T cells suppress the CD4+ T-cell response in infected individuals

Human herpesvirus‐6 (HHV‐6) infection normally persists for the lifetime of the host and may reactivate with immunosuppression. The mechanism behind HHV‐6 latent infection is still not fully understood. In this study, we observed that decreased proliferation of CD4⁺ T cells and PBMCs but not CD8⁺ T cells from HHV‐6‐infected individuals was stimulated with HHV‐6‐infected cell lysates. Moreover, HHV‐6‐stimulated CD4⁺ T cells from HHV‐6‐infected individuals have suppressive activity on naïve CD4⁺ T and CD8⁺ T cells from HHV‐6‐uninfected individuals. However, no increased proportion of CD4⁺ CD25⁺ Treg cells from HHV‐6‐infected individuals contributed to the suppressive activity of the HHV‐6‐stimulated CD4⁺ T cells from HHV‐6‐infected individuals. Transwell experiments, ELISA and anti‐IL‐10 antibody blocking experiment demonstrated that IL‐10 may be the suppressive cytokine required for suppressive activity of CD4⁺ T cells from HHV‐6‐infected individuals. Results of intracellular interleukin (IL)‐10 and IL‐4 further implicated the HHV‐6‐speciflc IL‐10‐producing CD4⁺ T cells in the suppressive activity of CD4⁺ T cells from HHV‐6‐infected individuals. Results of intracellular interferon (IFN)‐γ demonstrated a decreased frequency of HHV‐6‐speciflc IFN‐γ‐producing CD4⁺ T, but not CD8⁺ T cells in HHV‐6‐infected individuals, indicating that it was the CD4⁺ Th1 responses in HHV‐6‐infected individuals that were selectively impaired. Our findings indicated that HHV‐6‐specific IL‐10‐producing CD4⁺ T cells from HHV‐6‐infected individuals possess T regulatory type 1 cell activity: immunosuppression, high levels of IL‐10 production, with a few cells expressing IFN‐γ, but none expressing IL‐4. These cells may play an important role in latent HHV‐6 infection.     

Aged regulatory T cells protect from autoimmune inflammation despite reduced STAT3 activation and decreased constraint of IL-17 producing T cells

Regulatory T cells (Tregs) are specialized CD4⁺ T lymphocytes helping defend against autoimmunity and inflammation. Although age is associated with increased inflammation and autoimmunity, few reports address age effects of immune regulation or auto‐aggressive T cells. We show here that young and aged naïve CD4⁺ T cells are equivalently auto‐aggressive in vivo in T cell‐driven autoimmune colitis. Young and aged CD4⁺ Tregs equally suppressed age‐matched T cell proliferation in vitro and controlled clinical and pathologic T cell‐driven autoimmune colitis, suggesting equivalent regulatory function. However, whereas young and aged CD4⁺ Tregs suppressed interferon (IFN)‐γ⁺ T cells equivalently in this model, aged CD4⁺ Tregs unexpectedly failed to restrain interleukin (IL)‐17⁺ T cells. Nonetheless, young and aged CD4⁺ Tregs equally restrained IL‐17⁺ T cells in vivo during acute inflammation, suggesting a chronic inflammation‐related defect in aged CD4⁺ Tregs. In support, aged Tregs expressed reduced STAT3 activation, a defect associated with poor IL‐17‐producing T cell restraint. Aged naïve mice had markedly increased programmed death (PD)‐1⁺ T cells, but these exhibited no significant auto‐aggressive or regulatory functions in T cell‐driven colitis. Young CD8⁺ CD122^? T cells induce autoimmune bone marrow failure, but we show that aged CD8⁺ CD122^? T cells do not. These data demonstrate no apparent age‐related increase in auto‐aggressive T cell behavior, but disclose previously unrecognized functional defects in aged CD4⁺ Tregs during chronic inflammation. IL‐17 can be inflammatory and contributes to certain autoimmune disorders. Reduced aged Treg function during chronic inflammation and reduced IL‐17 restraint could contribute to age‐related inflammation or autoimmunity.     

What it takes to become an effector T cell: the process,the cells involved,and the mechanisms

When activated, CD4⁺ T cells differentiate into two major sub‐populations differing in their profiles of secreted cytokines. Type One, or TH1, cells secrete IL‐2, IFNγ, and TNFβ and mediate a cellular immune response. Type Two, or TH2, cells secrete IL‐4, IL‐5, IL‐6, IL‐10, and IL‐13 and potentiate a humoral response. The nature of any specific immune response depends on the interaction of antigen‐presenting cells and T cells. The role of antigen‐presenting cells is to respond to the nature of the immune challenge and signal differentiation of CD4⁺ T cells. A number of factors are involved in the effector phenotype of T cells—nature and affinity of antigen, co‐receptors signals, and cytokine environment. T‐cell differentiation is a complex process comprising four defined developmental stages: activation of particular cytokine genes, commitment of the cells, silencing of the opposing cytokine genes, and stabilization of the phenotype. In each of these stages, the cells respond to the products of many signaling cascades from many membrane‐bound receptors. The stages in development are mediated by different molecular mechanisms, involving control of gene expression and chromatin remodeling. This review centers on the factors, cellular interactions, and molecular mechanisms involved in the maturation of naïve CD4⁺ T lymphocytes into fully effector cells. © 2003 Wiley‐Liss, Inc.     

Characterization of the natural immune response of rhesus monkey CD4+ve T cells to the bacterial antigen streptolysin O (SLO)

Abstract: Rhesus monkeys show a high proliferative T cell response to the bacterial exotoxin SLO without prior immunization. The present study was undertaken to characterize this naturally present SLO-responsiveness with particular emphasis on CD4^+ve reactive T cells. It is demonstrated that the frequency of SLO-reactive cells in the circulation ranges between 1 in 75 and 1 in 610 CD4^+ve T cells as determined with limiting dilution analysis. It is also shown that induction of a good proliferative response requires Mhc-DR matching between T cell and the antigen presenting cells (APC). Stable and DR-restricted SLO-specific CD4^+ve T cell lines were generated from CD8 depleted peripheral blood mononuclear cells (PBMC). The SLO-reactive CD4^+ve cell lines are tentatively characterized as Thl-like based on the predominant production of interferon-gamma (IFN-γ) over IL-4, although this seems contradicted by the IL-4 dependent growth of the lines.     

Characterization of age‐associated exhausted CD8+ T cells defined by increased expression of Tim‐3 and PD‐1

Aging is accompanied by altered T‐cell responses that result in susceptibility to various diseases. Previous findings on the increased expression of inhibitory receptors, such as programmed cell death protein 1 (PD‐1), in the T cells of aged mice emphasize the importance of investigations into the relationship between T‐cell exhaustion and aging‐associated immune dysfunction. In this study, we demonstrate that T‐cell immunoglobulin mucin domain‐3 (Tim‐3), another exhaustion marker, is up‐regulated on aged T cells, especially CD8⁺ T cells. Tim‐3‐expressing cells also produced PD‐1, but Tim‐3⁺PD‐1⁺ CD8⁺ T cells had a distinct phenotype that included the expression of CD44 and CD62L, from Tim‐3^?PD‐1⁺ cells. Tim‐3⁺PD‐1⁺ CD8⁺ T cells showed more evident properties associated with exhaustion than Tim‐3^?PD‐1⁺ CD8⁺ T cells: an exhaustion‐related marker expression profile, proliferative defects following homeostatic or TCR stimulation, and altered production of cytokines. Interestingly, these cells produced a high level of IL‐10 and induced normal CD8⁺ T cells to produce IL‐10, which might contribute to immune dysregulation in aged mice. The generation of Tim‐3‐expressing CD8⁺ T cells in aged mice seems to be mediated by encounters with antigens but not by specific infection, based on their high expression of CD49d and their unbiased TCR Vβ usage. In conclusion, we found that a CD8⁺ T‐cell population with age‐associated exhaustion was distinguishable by its expression of Tim‐3. These results provide clues for understanding the alterations that occur in T‐cell populations with age and for improving dysfunctions related to the aging of the immune system.     

Immunosuppressive therapy influences the accelerated age-dependent T-helper cell differentiation in systemic lupus erythematosus remission patients

Background

CD4⁺ T cells are of great importance in the pathogenesis of systemic lupus erythematosus (SLE), as an imbalance between CD4⁺ regulatory T cells (Tregs) and CD4⁺ responder T cells (Tresps) causes flares of active disease in SLE patients. In this study, we aimed to find the role of aberrant Treg/Tresp cell differentiation for maintaining Treg/Tresp cell balance and Treg functionality.

Methods

To determine differences in the differentiation of Tregs/Tresps we calculated the percentages of CD45RA⁺CD31⁺ recent thymic emigrant (RTE) Tregs/Tresps and CD45RA⁺CD31^? mature naive (MN) Tregs/Tresps, as well as CD45RA^?CD31⁺ and CD45RA^?CD31^? memory Tregs/Tresps (CD31⁺ and CD31^? memory Tregs/Tresps) within the total Treg/Tresp pool of 78 SLE remission patients compared with 94 healthy controls of different ages. The proliferation capacity of each Treg/Tresp subset was determined by staining the cells with anti-Ki67 monoclonal antibodies. Differences in the autologous or allogeneic Treg function between SLE remission patients and healthy controls were determined using suppression assays.

Results

With age, we found an increased differentiation of RTE Tregs via CD31⁺ memory Tregs and of RTE Tresps via MN Tresps into CD31^? memory Tregs/Tresp in healthy volunteers. This opposite differentiation of RTE Tregs and Tresps was associated with an age-dependent increase in the suppressive activity of both naive and memory Tregs. SLE patients showed similar age-dependent Treg cell differentiation. However, in these patients RTE Tresps differentiated increasingly via CD31⁺ memory Tresps, whereby CD31^? memory Tresps arose that were much more difficult to inhibit for Tregs than those that emerged through differentiation via MN Tresps. Consequently, the increase in the suppressive activity of Tregs with age could not be maintained in SLE patients. Testing the Tregs of healthy volunteers and SLE patients with autologous and nonautologous Tresps revealed that the significantly decreased Treg function in SLE patients was not exclusively attributed to an age-dependent diminished sensitivity of the Tresps for Treg suppression. The immunosuppressive therapy reduced the accelerated age-dependent Tresp cell proliferation to normal levels, but simultaneously inhibited Treg cell proliferation below normal levels.

Conclusions

Our data reveal that the currently used immunosuppressive therapy has a favorable effect on the differentiation and proliferation of Tresps but has a rather unfavorable effect on the proliferation of Tregs. Newer substances with more specific effects on the immune system would be desirable.

     

Microparticle delivery of Interleukin-7 to boost T-cell proliferation and survival

In HIV infections, homoeostasis of T cells is dysregulated such that there is a depletion of CD4⁺ T cells and a progressive loss of naïve CD4⁺ and CD8⁺ T cells. Methodologies that can improve the function of some or all of these cells will likely enhance immune responsiveness in HIV infection. Interleukin‐7 (IL‐7) is a cytokine that has been shown to be critical in homeostatic expansion of naïve CD8⁺ and CD4⁺ cells in lymphopenic hosts, as well as regulating effector T cell to memory T‐cell transition and memory T‐cell homeostasis. In animal studies and clinical trials, repeated injections of IL‐7 are used to boost both CD4⁺ and CD8⁺ cell counts. Daily injections, however, are painful, inconvenient, and provide a frequent route for pathogen entry. We developed a poly (D ,L ‐lactide‐co‐glycolide; PLGA) microparticle controlled release system to administer IL‐7 in which a single injection of microparticles can provide therapeutic delivery of IL‐7. IL‐7 encapsulated PLGA microparticles were first synthesized using a water/organic/water double emulsion method, release from the particles was then optimized using in vitro release studies and therapeutic effectiveness was finally studied in animal studies. These PLGA microparticles showed effective delivery of IL‐7 for 1 week in vitro. These results were translated to in vivo delivery as well, which was followed for 9 days. Controlled release of IL‐7 in mice demonstrated biological activity in both CD4⁺ and CD8⁺ T cells in mice, which was consistent with previously reported results using daily injections. Biotechnol. Bioeng. 2012; 109:1835–1843. © 2012 Wiley Periodicals, Inc.     

Lymph nodes as barriers to T‐cell rejuvenation in aging mice and nonhuman primates

In youth, thymic involution curtails production of new naïve T cells, placing the onus of T‐cell maintenance upon secondary lymphoid organs (SLO). This peripheral maintenance preserves the size of the T‐cell pool for much of the lifespan, but wanes in the last third of life, leading to a dearth of naïve T cells in blood and SLO, and contributing to suboptimal immune defense. Both keratinocyte growth factor (KGF) and sex steroid ablation (SSA) have been shown to transiently increase the size and cellularity of the old thymus. It is less clear whether this increase can improve protection of old animals from infectious challenge. Here, we directly measured the extent to which thymic rejuvenation benefits the peripheral T‐cell compartment of old mice and nonhuman primates. Following treatment of old animals with either KGF or SSA, we observed robust rejuvenation of thymic size and cellularity, and, in a reporter mouse model, an increase in recent thymic emigrants (RTE) in the blood. However, few RTE were found in the spleen and even fewer in the lymph nodes, and SSA‐treated mice showed no improvement in immune defense against West Nile virus. In parallel, we found increased disorganization and fibrosis in old LN of both mice and nonhuman primates. These results suggest that SLO defects with aging can negate the effects of successful thymic rejuvenation in immune defense.     

Intrinsically de-sialylated CD103+ CD8 T cells mediate beneficial anti-glioma immune responses

Background

Cancer vaccines reproducibly cure laboratory animals and reveal encouraging trends in brain tumor (glioma) patients. Identifying parameters governing beneficial vaccine-induced responses may lead to the improvement of glioma immunotherapies. CD103⁺ CD8 T cells dominate post-vaccine responses in human glioma patients for unknown reasons, but may be related to recent thymic emigrant (RTE) status. Importantly, CD8 RTE metrics correlated with beneficial immune responses in vaccinated glioma patients.

Methods

We show by flow cytometry that murine and human CD103⁺ CD8 T cells respond better than their CD103^? counterparts to tumor peptide-MHC I (pMHC I) stimulation in vitro and to tumor antigens on gliomas in vivo.

Results

Glioma responsive T cells from mice and humans both exhibited intrinsic de-sialylation-affecting CD8 beta. Modulation of CD8 T cell sialic acid with neuraminidase and ST3Gal-II revealed de-sialylation was necessary and sufficient for promiscuous binding to and stimulation by tumor pMHC I. Moreover, de-sialylated status was required for adoptive CD8 T cells and lymphocytes to decrease GL26 glioma invasiveness and increase host survival in vivo. Finally, increased tumor ST3Gal-II expression correlated with clinical vaccine failure in a meta-analysis of high-grade glioma patients.

Conclusions

Taken together, these findings suggest that de-sialylation of CD8 is required for hyper-responsiveness and beneficial anti-glioma activity by CD8 T cells. Because CD8 de-sialylation can be induced with exogenous enzymes (and appears particularly scarce on human T cells), it represents a promising target for clinical glioma vaccine improvement.     

Are skin senescence and immunosenescence linked within individuals?

With advancing age, many organs exhibit functional deterioration. The age‐associated accumulation of senescent cells is believed to represent one factor contributing to this phenomenon. While senescent cells are found in several different organ systems, it is not known whether they arise independently in each organ system or whether their prevalence within an individual reflects that individual's intrinsic aging process. To address this question, we studied senescence in two different organ systems in humans, namely skin and T cells in 80 middle‐aged and older individuals from the Leiden Longevity Study. Epidermal p16INK4a positivity was associated with neither CD4⁺ nor CD8⁺ T‐cell immunosenescence phenotype composites (i.e., end‐stage differentiated/senescent T cells, including CD45RA⁺CCR7^‐CD28^‐CD27^‐CD57⁺KLRG1⁺ T cells). Dermal p16INK4a positivity was significantly associated with the CD4⁺, but not with the CD8⁺ immunosenescence composite. We therefore conclude that there is limited evidence for a link between skin senescence and immunosenescence within individuals.