Granzyme B activity in target cells detects attack by cytotoxic lymphocytes.

Lymphocyte-mediated cytotoxicity via granule exocytosis operates by the perforin-mediated transfer of granzymes from CTLs and NK cells into target cells where caspase activation and other death pathways are triggered. Granzyme B (GzB) is a major cytotoxic effector in this pathway, and its fate in target cells has been studied by several groups using immunodetection. In this study, we have used a newly developed cell-permeable fluorogenic GzB substrate to measure this protease activity in three different living targets following contact with cytotoxic effectors.

Do cytotoxic lymphocytes kill via reactive oxygen species?

A paper by Martinvalet et al. (2005) in this issue of Immunity examines the mechanisms used by granzyme A to kill target cells after its cytoplasmic injection by cytotoxic lymphocytes. They show that this protease induces mitochondrial damage and generation of reactive oxygen species that are necessary for cell death.

Human CD8+ T cells store RANTES in a unique secretory compartment and release it rapidly after TcR stimulation.

The chemokine RANTES is secreted rapidly after activation of human CD8+ T cells, with a cycloheximide-resistant burst during the first hour. This pattern was observed in purified memory and effector phenotype CD8+ cells from blood as well as in blasts. In contrast, secretion of other chemokines and interferon-gamma by these cells was sensitive to cycloheximide and detectable only after a lag.

Perforin and the granule exocytosis cytotoxicity pathway.

Perforin defects have been identified in humans with familial hematophagocytic lymphohistiocytosis. The pathology of these patients has dramatically illustrated an under-appreciated role for perforin in the regulation of T-cell responses in vivo, and experimental studies are shedding light on the mechanisms involved. The detailed molecular mechanisms of perforin's mandatory role in the cytotoxic T lymphocyte (CTL)-mediated granule exocytosis death pathway and of granzyme entry into target cells remain unclear.

IL-15 is a growth factor and an activator of CD8 memory T cells.

Memory lymphocytes, arising from naïve lymphocytes after antigenic stimulation and being long-lived, are the cellular basis for immunological memory. Recent studies of CD8 T cells suggest that generation of CD8 memory T cells requires the engagement of T cell antigen receptors (TCR) with antigen, yet the maintenance of CD8 memory T cells appears to be dependent on cytokines, such as IL-15, independent of TCR. Although considerable progress has been made in understanding the molecular and cellular events of TCR-induced differentiation and proliferation in the past decade, less is known about the mechanisms of IL-15 action.

Surface cathepsin B protects cytotoxic lymphocytes from self-destruction after degranulation.

The granule exocytosis cytotoxicity pathway is the major molecular mechanism for cytotoxic T lymphocyte (CTL) and natural killer (NK) cytotoxicity, but the question of how these cytotoxic lymphocytes avoid self-destruction after secreting perforin has remained unresolved. We show that CTL and NK cells die within a few hours if they are triggered to degranulate in the presence of nontoxic thiol cathepsin protease inhibitors. The potent activity of the impermeant, highly cathepsin B-specific membrane inhibitors CA074 and NS-196 strongly implicates extracellular cathepsin B.

Regulation of leukemic cell adhesion, proliferation, and survival by beta-catenin.

In epithelial cells beta-catenin plays a critical role as a component of the cell-cell adhesion apparatus and as a coactivator of the TCF/LEF (T-cell transcription factor/lymphoid enhancer binding factor) family of transcription factors. Deregulation of beta-catenin has been implicated in the malignant transformation of cells of epithelial origin. However, a function for beta-catenin in hematologic malignancies has not been reported.

IL-15 mimics T cell receptor crosslinking in the induction of cellular proliferation, gene expression, and cytotoxicity in CD8+ memory T cells.

Generation of CD8(+) memory T cells requires antigenic stimulation through T cell receptor (TCR); however, maintenance of CD8(+) memory T cells seems to be mediated by cytokines, such as IL-15, in a TCR-independent manner. Compared with the TCR-induced activation, less is known about the mechanisms of IL-15 action. We report here a comparative and kinetic analysis of the responses of memory phenotype CD8(+) T cells to IL-15 or TCR (anti-CD3) stimulation in vitro.

Caspase 8 activity in membrane blebs after anti-Fas ligation.

Previous studies of thymocyte apoptosis using a series of cell-permeable fluorogenic peptide substrates showed that Fas cross-linking triggered a caspase cascade in which cleavage of the IETDase (caspase 8-selective) substrate was the earliest caspase activity measured by flow cytometry. This result was expected in light of the abundant evidence for caspase 8 activation as an initiating event in the Fas death pathway. However, when apoptosis was induced by anti-Fas in CTL and the caspase cascade examined by this approach, IETDase activation followed increases in LEHDase, YVHDase, and VEIDase activities (selective for caspases 9, 1, and 6, respectively).

Defective granule exocytosis in Rab27a-deficient lymphocytes from Ashen mice.

Because mutations in Rab27a have been linked to immune defects in humans, we have examined cytotoxic lymphocyte function in ashen mice, which contain a splicing mutation in Rab27a. Ashen cytotoxic T lymphocytes (CTLs) showed a >90% reduction in lytic activity on Fas-negative target cells compared with control C3H CTLs, and ashen natural killer cell activity was likewise diminished. Although their granule-mediated cytotoxicity pathway is profoundly defective, ashen CTLs displayed a normal FasL-Fas cytotoxicity pathway.

Beta-chemokines inhibit activation-induced death of lymphocytes from HIV-infected individuals.

The present study investigates the role of the HIV-suppressive beta-chemokines macrophage inflammatory protein (MIP)-1alpha, MIP-1 and RANTES in activation-induced cell death (AICD). A pool of these beta-chemokines reduced anti-CD3-induced apoptosis of T cell blasts from healthy blood donors in a dose-dependent manner. Although the pooled beta-chemokines were more effective, the inhibitory effect could also be mediated by each of the individual chemokines and was blocked by neutralizing anti-chemokine antibodies.

Assessment of caspase activities in intact apoptotic thymocytes using cell-permeable fluorogenic caspase substrates.

To detect caspase activities in intact apoptotic cells at the single cell level, cell-permeable fluorogenic caspase substrates were synthesized incorporating the optimal peptide recognition motifs for caspases 1, 3/7, 6, 8, and 9. Caspase activities were then assessed at various times after in vitro treatment of mouse thymocytes with dexamethasone or anti-Fas antibody. Dexamethasone induced the following order of appearance of caspase activities as judged by flow cytometry: LEHDase, WEHDase, VEIDase, IETDase, and DEVDase.

Posttranslational regulation of the retinoblastoma gene family member p107 by calpain protease.

The retinoblastoma protein plays a critical role in regulating the G1/S transition. Less is known about the function and regulation of the homologous pocket protein p107. Here we present evidence for the posttranslational regulation of p107 by the Ca2+-activated protease calpain.

Nitric oxide synthase plays a signaling role in TCR-triggered apoptotic death.

A functional role for stimulated nitric oxide (NO) production was tested in the TCR-triggered death of mature T lymphocytes. In purified peripheral human T cell blasts or the 2B4 murine T cell hybridoma, apoptotic cell death induced by immobilized anti-CD3 was blocked by inhibitors of NO synthase (NOS) in a stereospecific and concentration-dependent manner. This effect appeared to be selective since apoptotic death induced by anti-Fas Ab or the steroid dexamethasone was not affected by NOS inhibitors.

Inducible nonlymphoid expression of Fas ligand is responsible for superantigen-induced peripheral deletion of T cells.

Fas (CD95) and Fas ligand (FasL) play major roles in staphylococcal enterotoxin B (SEB)-induced peripheral deletion of Vbeta8+ T cells. We found that peripheral deletion was defective in radiation chimeras with non-functional tissue FasL, regardless of the FasL status of the bone marrow-derived cells. SEB induced a dramatic upregulation of FasL expression and function in nonlymphoid cells of liver and small intestine.

Supraoptimal peptide-major histocompatibility complex causes a decrease in bc1-2 levels and allows tumor necrosis factor alpha receptor II-mediated apoptosis of cytotoxic T lymphocytes.

Cytotoxic T lymphocytes (CTLs) are primary mediators of viral clearance, but high viral burden can result in deletion of antigen-specific CTLs. We previously reported a potential mechanism for this deletion: tumor necrosis factor (TNF)-alpha-mediated apoptosis resulting from stimulation with supraoptimal peptide-major histocompatibility complex. Here, we show that although death is mediated by TNF-alpha and its receptor (TNF-RII), surprisingly neither the antigen dose dependence of TNF-alpha production nor that of TNF-RII expression can account for the dose dependence of apoptosis.

Caspase dependence of target cell damage induced by cytotoxic lymphocytes.

Since the CTL secreted granule protease granzyme B can activate multiple target caspases, it has been proposed that this pathway is responsible for CTL-induced cytolysis of Fas-negative targets. However, target lysis via the granule exocytosis pathway is completely resistant to caspase inhibitors. To test the possibility that granzymes trigger a postcaspase cytoplasmic apoptotic pathway leading to lysis, we have examined the caspase dependence of several cytoplasmic changes associated with apoptotic death.

Regulation of cyclin D1 by calpain protease.

Cyclin D1, a critical positive regulator of G1 progression, has been implicated in the pathogenesis of certain cancers. Regulation of cyclin D1 occurs at the transcriptional and posttranscriptional level. Here we present evidence that cyclin D1 levels are regulated at the posttranscriptional level by the Ca2+-activated protease calpain.

Functional cleavage of the common cytokine receptor gamma chain (gammac) by calpain.

The small subunit of calpain, a calcium-dependent cysteine protease, was found to interact with the cytoplasmic domain of the common cytokine receptor gamma chain (gammac) in a yeast two-hybrid interaction trap assay. This interaction was functional as demonstrated by the ability of calpain to cleave in vitro-translated wild-type gammac, but not gammac containing a mutation in the PEST (proline, glutamate, serine, and threonine) sequence in its cytoplasmic domain, as well as by the ability of endogenous calpain to mediate cleavage of gammac in a calcium-dependent fashion. In T cell receptor-stimulated murine thymocytes, calpain inhibitors decreased cleavage of gammac.

Do CTL kill target cells by inducing apoptosis?

Inhibitors of ICE-family proteases (caspases) block many examples of apoptotic cell death in vivo and in vitro, including multiple apoptotic stimuli for T lymphocytes. We have tested whether cell death induced by cytotoxic T lymphocytes was also blocked by caspase inhibitors. We found that the rapid apoptotic target cell death induced by Fas ligand-bearing CTL using the target Fas death pathway was efficiently blocked by caspase inhibitors.