Arne N. Akbar scite author profile

SummaryThe accumulation of CD28 − T cells, particularly within the CD8 subset, is one of the most prominent changes during T cell homeostasis and function associated with aging in human. CD28, a major costimulatory receptor, is responsible for the optimal antigen-mediated T cell activation, proliferation, and survival of T cells. CD28 − T cells exhibit reduced antigen receptor diversity, defective antigeninduced proliferation, and a shorter replicative lifespan while showing enhanced cytotoxicity and regulatory functions. Gene expression analyses reveal profound changes of CD28 − T cells in comparison to their CD28 + counterparts and support their functional differences. Here we review the recent advance of our understanding of CD28− T cells and their role in age-associated decline of immune function.

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Fibroblasts regulate the switch from acute resolving to chronic persistent inflammation

Buckley

Pilling

Lord

et al. 2001

Trends in Immunology

522

428

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Human anergic/suppressive CD4+CD25+ T cells: a highly differentiated and apoptosis-prone population

et al. 2001

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Anergic/suppressive CD4+CD25+ T cells exist in animal models but their presence has not yet been demonstrated in humans. We have identified and characterized a human CD4+CD25+ T cell subset, which constitutes 7–10 % of CD4+ T cells in peripheral blood and tonsil. These cells are a CD45RO+CD45RBlow highly differentiated primedT cell population that is anergic to stimulation. Depletion of this small subset from CD4+ T cells significantly enhances proliferation by threefold in the remaining CD4+CD25– T cells, while the addition of isolated CD4+CD25+ T cells to CD4+CD25– T cells significantly inhibits proliferative activity. Blocking experiments suggest that suppression is not mediated via IL‐4, IL‐10 or TGF‐β and is cell‐contact dependent. Isolated CD4+CD25+ T cells are susceptible to apoptosis that is associated with low Bcl‐2 expression, but this death can be prevented by IL‐2 or fibroblast‐secreted IFN‐β. However, the anergic/suppressive state of these cells is maintained after cytokine rescue. These human regulatory cells are therefore a naturally occurring, highly suppressive, apoptosis‐prone population which are at a late stage of differentiation. Further studies into their role in normal and pathological situations in humans are clearly essential.

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Human immunosenescence: is it infectious?

Pawelec

Akbar

Caruso

et al. 2005

Immunological Reviews

371

314

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Morbidity and mortality due to infectious disease is greater in the elderly than in the young, at least partly because of age-associated decreased immune competence, which renders individuals more susceptible to pathogens. This susceptibility is particularly evident for novel infectious agents such as in severe acute respiratory syndrome but is also all too apparent for common pathogens such as influenza. Many years ago, it was noted that the elderly possessed oligoclonal expansions of T cells, especially of CD8(+) cells. At the same time, it was established that cytomegalovirus (CMV) seropositivity was associated with many of the same phenotypic and functional alterations to T-cell immunity that were being reported as biomarkers associated with aging. It was discovered that CMV was the prime driving force behind most of the oligoclonal expansions and altered phenotypes and functions of CD8 cells. Independently, longitudinal studies of a free-living population of the very old in Sweden over the past decade have led to the emerging concept of an 'immune risk phenotype' (IRP), predicting mortality, which was itself found to be associated with CMV seropositivity. These findings support our hypothesis that the manner in which CMV and the host immune system interact is critical in determining the IRP and hence is predictive of mortality. In this sense, then, we suggest that immunosenescence is contagious.

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Activation of Resting Human Primary T Cells with Chimeric Receptors: Costimulation from CD28, Inducible Costimulator, CD134, and CD137 in Series with Signals from the TCRζ Chain

Akbar²,

2004

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Chimeric receptors that include CD28 signaling in series with TCRζ in the same receptor have been demonstrated to activate prestimulated human primary T cells more efficiently than a receptor providing TCRζ signaling alone. We examined whether this type of receptor can also activate resting human primary T cells, and whether molecules other than CD28 could be included in a single chimeric receptor in series with TCRζ to mediate the activation of resting human primary T cells. Human CD33-specific chimeric receptors were generated with CD28, inducible costimulator, CD134, or CD137 signaling regions in series with TCRζ signaling region and transfected by electroporation into resting human primary T cells. Their ability to mediate Ag-specific activation was analyzed in comparison with a receptor providing TCRζ signaling alone. Inclusion of any of the costimulatory signaling regions in series with TCRζ enhanced the level of specific Ag-induced IL-2, IFN-γ, TNF-α, and GM-CSF cytokine production and enabled resting primary T cells to survive and proliferate in response to Ag in the absence of any exogenous factors. Inclusion of CD28, inducible costimulator, or CD134 enhanced TCRζ-mediated, Ag-specific target cell lysis. Chimeric receptors providing B7 and TNFR family costimulatory signals in series with TCRζ in the same receptor can confer self-sufficient clonal expansion and enhanced effector function to resting human T cells. This type of chimeric receptor may now be used to discover the most potent combination of costimulatory signals that will improve current immunotherapeutic strategies.

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Senescent cells evade immune clearance via HLA-E-mediated NK and CD8+ T cell inhibition

et al. 2019

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Senescent cells accumulate in human tissues during ageing and contribute to age-related pathologies. The mechanisms responsible for their accumulation are unclear. Here we show that senescent dermal fibroblasts express the non-classical MHC molecule HLA-E, which interacts with the inhibitory receptor NKG2A expressed by NK and highly differentiated CD8 + T cells to inhibit immune responses against senescent cells. HLA-E expression is induced by senescence-associated secretary phenotype-related pro-inflammatory cytokines, and is regulated by p38 MAP kinase signalling in vitro. Consistently, HLA-E expression is increased on senescent cells in human skin sections from old individuals, when compared with those from young, and in human melanocytic nevi relative to normal skin. Lastly, blocking the interaction between HLA-E and NKG2A boosts immune responses against senescent cells in vitro. We thus propose that increased HLA-E expression contributes to persistence of senescent cells in tissues, thereby suggesting a new strategy for eliminating senescent cells during ageing.

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Cytomegalovirus-Specific CD4+ T Cells in Healthy Carriers Are Continuously Driven to Replicative Exhaustion

et al. 2005

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Repeated antigenic encounter drives proliferation and differentiation of memory T cell pools. An important question is whether certain specific T cells may be driven eventually to exhaustion in elderly individuals since the human life expectancy is increasing. We found that CMV-specific CD4+ T cells were significantly expanded in healthy young and old carriers compared with purified protein derivative-, varicella zoster virus-, EBV-, and HSV-specific populations. These CMV-specific CD4+ T cells exhibited a late differentiated phenotype since they were largely CD27 and CD28 negative and had shorter telomeres. Interestingly, in elderly CMV-seropositive subjects, CD4+ T cells of different specificities were significantly more differentiated than the same cells in CMV-seronegative individuals. This suggested the involvement of bystander-secreted, differentiation-inducing factors during CMV infection. One candidate was IFN-α, which induced loss of costimulatory receptors and inhibited telomerase in activated CD4+ T cells and was secreted at high levels by CMV-stimulated plasmacytoid dendritic cells (PDC). The CMV-specific CD4+ T cells in elderly subjects had severely restricted replicative capacity. This is the first description of a human memory T cell population that is susceptible to being lost through end-stage differentiation due to the combined effects of lifelong virus reactivation in the presence of bystander differentiation-inducing factors.

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RGD peptides induce apoptosis by direct caspase-3 activation

Buckley

Pilling

Henriquez

et al. 1999

Nature

393

254

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Synthetic peptides containing the arginine-glycine-aspartate (RGD) motif have been used extensively as inhibitors of integrin-ligand interactions in studies of cell adhesion, migration, growth and differentiation, because the RGD motif is an integrin-recognition motif found in many ligands. Here we report that RGD-containing peptides are able to directly induce apoptosis without any requirement for integrin-mediated cell clustering or signals. We show that RGD-containing peptides enter cells and directly induce autoprocessing and enzymatic activity of procaspase-3, a pro-apoptotic protein. Using the breast carcinoma cell line MCF-7, which has a functional deletion of the caspase-3 gene, we confirm that caspase-3 is required for RGD-mediated cell death. In addition to an RGD motif, pro-caspase-3 also contains a potential RGD-binding motif, aspartate-aspartate-methionine (DDM), near the site of processing to produce the p12 and p17 subunits. On the basis of the ability of RGD-DDX interactions to trigger integrin activation, we suggest that RGD peptides induce apoptosis by triggering conformational changes that promote pro-caspase-3 autoprocessing and activation. These findings provide an alternative molecular explanation for the potent proapoptotic properties of RGD peptides in models of angiogenesis, inflammation and cancer metastasis.

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Arne N. Akbar

CD28− T cells: their role in the age-associated decline of immune function

Fibroblasts regulate the switch from acute resolving to chronic persistent inflammation

Human anergic/suppressive CD4+CD25+ T cells: a highly differentiated and apoptosis-prone population

Human immunosenescence: is it infectious?

Activation of Resting Human Primary T Cells with Chimeric Receptors: Costimulation from CD28, Inducible Costimulator, CD134, and CD137 in Series with Signals from the TCRζ Chain

Senescent cells evade immune clearance via HLA-E-mediated NK and CD8+ T cell inhibition

Cytomegalovirus-Specific CD4+ T Cells in Healthy Carriers Are Continuously Driven to Replicative Exhaustion

RGD peptides induce apoptosis by direct caspase-3 activation

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