Karen A. Fortner

Apoptosis Regulators Fas and Bim Cooperate in Shutdown of Chronic Immune Responses and Prevention of Autoimmunity

Summary Apoptotic death of T lymphocytes is critical for shutdown of immune responses and hemopoietic cell homeostasis. Both death receptor (Fas) activation and mitochondrial apoptosis triggered by the BH3-only protein Bim have been implicated in the killing of antigen-stimulated T cells. We examined mice lacking the gene encoding Bim (Bcl2l11) and with the inactivating lpr mutation in the gene encoding Fas (Fas), designated Bcl2l11−/−Faslpr/lpr mice. Shutdown of an acute T cell response to herpes simplex virus involved only Bim with no contribution by Fas, whereas both pathways synergized in killing antigen-stimulated T cells in chronic infection with murine γ-herpesvirus. Bcl2l11−/−Faslpr/lpr mice developed remarkably enhanced and accelerated fatal lymphadenopathy and autoimmunity compared to mice lacking only one of these apoptosis inducers. These results identify critical overlapping roles for Fas and Bim in T cell death in immune response shutdown and prevention of immunopathology and thereby resolve a long-standing controversy.

The Caspase 8 Inhibitor c-FLIP L Modulates T-Cell Receptor-Induced Proliferation but Not Activation-Induced Cell Death of Lymphocytes

ABSTRACT The caspase 8 inhibitor c-FLIPL can act in vitro as a molecular switch between cell death and growth signals transmitted by the death receptor Fas (CD95). To elucidate its function in vivo, transgenic mice were generated that overexpress c-FLIPL in the T-cell compartment (c-FLIPL Tg mice). As anticipated, FasL-induced apoptosis was inhibited in T cells from the c-FLIPL Tg mice. In contrast, activation-induced cell death of T cells in c-FLIPL Tg mice was unaffected, suggesting that this deletion process can proceed in the absence of active caspase 8. Accordingly, c-FLIPL Tg mice differed from Fas-deficient mice by showing no accumulation of B220+ CD4− CD8− T cells. However, stimulation of T lymphocytes with suboptimal doses of anti-CD3 or antigen revealed increased proliferative responses in T cells from c-FLIPL Tg mice. Thus, a major role of c-FLIPL in vivo is the modulation of T-cell proliferation by decreasing the T-cell receptor signaling threshold.

Interaction cloning of Rabin3, a novel protein that associates with the Ras-like GTPase Rab3A.

Rab3A is a small, Ras-like GTPase expressed in neuroendocrine cells, in which it is associated with secretory vesicle membranes and regulates exocytosis. Using the yeast two-hybrid system, we have identified a rat brain cDNA encoding a novel 50-kDa protein, which we have named Rabin3, that interacts with Rab3A and Rab3D but not with other small GTPases (Rab3C, Rab2, Ran, or Ras). Several independent point mutations in the effector domain of Rab3A (F51L, V55E, and G56D) which do not alter nucleotide binding by the GTPase abolish the interaction with Rabin3, while another mutation (V52A) appears to increase the interaction. These results demonstrate that the interaction is highly specific. However, a glutathione S-transferase-Rabin3 fusion protein associates only weakly in vitro with recombinant Rab3A and possesses no detectable GTPase-activating protein or nucleotide exchange activity, and Rabin3 overexpressed in adrenal chromaffin cells has no observable effect on secretion. The protein possess a sequence characteristic of coiled-coil domains and a second small region with sequence similarity to a Saccharomyces cerevisiae protein, Sec2p, Sec2p is essential for constitutive secretion in yeast cells and interacts with Sec4p, a close relative of the Rab3A GTPase. Rabin3 mRNA and protein are widely expressed but are particularly abundant in testes.

Cellular FLIP long form augments caspase activity and death of T cells through heterodimerization with and activation of caspase-8

Caspase activity is required not only for the death of T cells, but also for their activation. A delicate balance of caspase activity is thus required during T cell activation at a level that will not drive cell death. How caspase activity is initiated and regulated during T cell activation is not known. One logical candidate for this process is cellular FLIP long form (c-FLIPL), because it can block caspase-8 recruitment after Fas (CD95) ligation as well as directly heterodimerize with and activate caspase-8. The current findings demonstrate that after T cell activation, caspase-8 and c-FLIPL associate in a complex enriched for active caspases. This occurs coincidently with the cleavage of two known caspase-8 substrates, c-FLIPL and receptor interacting protein 1. Caspase activity is higher in wild-type CD8+ than CD4+ effector T cells. Increased expression of c-FLIPL results in augmented caspase activity in resting and effector T cells to levels that provoke cell death, especially of the CD8 subset. c-FLIPL is thus not only an inhibitor of cell death by Fas, it can also act as a principal activator of caspases independently of Fas.

MCJ/DnaJC15, an Endogenous Mitochondrial Repressor of the Respiratory Chain That Controls Metabolic Alterations

ABSTRACT Mitochondria are the main engine that generates ATP through oxidative phosphorylation within the respiratory chain. Mitochondrial respiration is regulated according to the metabolic needs of cells and can be modulated in response to metabolic changes. Little is known about the mechanisms that regulate this process. Here, we identify MCJ/DnaJC15 as a distinct cochaperone that localizes at the mitochondrial inner membrane, where it interacts preferentially with complex I of the electron transfer chain. We show that MCJ impairs the formation of supercomplexes and functions as a negative regulator of the respiratory chain. The loss of MCJ leads to increased complex I activity, mitochondrial membrane potential, and ATP production. Although MCJ is dispensable for mitochondrial function under normal physiological conditions, MCJ deficiency affects the pathophysiology resulting from metabolic alterations. Thus, enhanced mitochondrial respiration in the absence of MCJ prevents the pathological accumulation of lipids in the liver in response to both fasting and a high-cholesterol diet. Impaired expression or loss of MCJ expression may therefore result in a “rapid” metabolism that mitigates the consequences of metabolic disorders.

The Death Receptor Fas (CD95/APO-1) Mediates the Deletion of T Lymphocytes Undergoing Homeostatic Proliferation

Murine T cells adoptively transferred into syngeneic lymphopenic recipients undergo proliferation. Despite continued cell division, this lymphopenia-induced or homeostatic proliferation of a limited number of transferred T cells does not fill the T cell compartment. The continued expansion of the transferred T cells, even after stable T cell numbers have been reached, suggests that active cell death prevents further increase in T cell number. In this study, we show that wild-type T cells undergoing homeostatic proliferation are sensitive to Fas-mediated cell death. In the absence of Fas, T cells accumulate to significantly higher levels after transfer into lymphopenic recipients. Fas is, thus, a principal regulator of the expansion of peripheral T cells in response to self-peptide/MHC during T cell homeostasis. As Fas-deficient lpr mice manifest no significant abnormalities in thymic negative selection or in foreign Ag-induced peripheral T cell deletion, their lymphadenopathy may result from unrestrained homeostatic proliferation.

Cellular FLIP Long Form-Transgenic Mice Manifest a Th2 Cytokine Bias and Enhanced Allergic Airway Inflammation

Cellular FLIP long form (c-FLIPL) is a caspase-defective homologue of caspase-8 that blocks apoptosis by death receptors. The expression of c-FLIPL in T cells can also augment extracellular signal-regulated kinase phosphorylation after TCR ligation via the association of c-FLIPL with Raf-1. This contributes to the hyperproliferative capacity of T cells from c-FLIPL-transgenic mice. In this study we show that activated CD4+ T cells from c-FLIPL-transgenic mice produce increased amounts of Th2 cytokines and decreased amounts of Th1 cytokines. This correlates with increased serum concentrations of the Th2-dependent IgG1 and IgE. The Th2 bias of c-FLIPL-transgenic CD4+ T cells parallels impaired NF-κB activity and increased levels of GATA-3, which contribute, respectively, to decreased IFN-γ and increased Th2 cytokines. The Th2 bias of c-FLIPL-transgenic mice extends to an enhanced sensitivity to OVA-induced asthma. Taken together, these results show that c-FLIPL can influence cytokine gene expression to promote Th2-driven allergic reaction, in addition to its traditional role of blocking caspase activation induced by death receptors.

Do T cells care about the mitogen-activated protein kinase signalling pathways?

Mitogen‐activated protein (MAP) kinases, which include the extracellular response kinases, p38 and c‐Jun amino terminal kinases (JNK), play a significant role in mediating signals triggered by cytokines, growth factors and environmental stress. The JNK and p38 MAP kinases have been involved in growth, differentiation and cell death in different cell types. In the present paper, we describe how the JNK and p38 MAP kinase signalling pathways are regulated and their role during thymocyte development and the activation and differentiation of T cells in the peripheral immune system. The results from these studies demonstrate that the JNK and p38 MAP kinase signalling pathways regulate different aspects of T‐cell mediated immune responses.

Activation of γδ T Cells by Borrelia burgdorferi Is Indirect via a TLR- and Caspase-Dependent Pathway

Activation of the innate immune system typically precedes engagement of adaptive immunity. Cells at the interface between these two arms of the immune response are thus critical to provide full engagement of host defense. Among the innate T cells at this interface are γδ T cells. γδ T cells contribute to the defense from a variety of infectious organisms, yet little is understood regarding how they are activated. We have previously observed that human γδ T cells of the Vδ1 subset accumulate in inflamed joints in Lyme arthritis and proliferate in response to stimulation with the causative spirochete, Borrelia burgdorferi. We now observe that murine γδ T cells are also activated by B. burgdorferi and that in both cases the activation is indirect via TLR stimulation on dendritic cells or monocytes. Furthermore, B. burgdorferi stimulation of monocytes via TLR, and secondary activation of γδ T cells, are both caspase-dependent.

The c-FLIPL cleavage product p43FLIP promotes activation of extracellular signal-regulated kinase (ERK), nuclear factor κB (NF-κB), and caspase-8 and T cell survival.

Background: c-FLIPL is a regulator of caspase-8 activity in T lymphocytes. Results: Caspase-8 activity is lost upon deletion of c-FLIPL. p43FLIP rescues caspase-8 activity through Raf1, TRAF2, and RIPK1 association, augmenting ERK and NF-κB pathways. Conclusion: The FLIPL cleavage product p43FLIP promotes activation of pathways involved with T cell growth. Significance: This study provides new insight into the regulation of caspase-8 activity by c-FLIP. Caspase-8 is now appreciated to govern both apoptosis following death receptor ligation and cell survival and growth via inhibition of the Ripoptosome. Cells must therefore carefully regulate the high level of caspase-8 activity during apoptosis versus the modest levels observed during cell growth. The caspase-8 paralogue c-FLIP is a good candidate for a molecular rheostat of caspase-8 activity. c-FLIP can inhibit death receptor-mediated apoptosis by competing with caspase-8 for recruitment to FADD. However, full-length c-FLIPL can also heterodimerize with caspase-8 independent of death receptor ligation and activate caspase-8 via an activation loop in the C terminus of c-FLIPL. This triggers cleavage of c-FLIPL at Asp-376 by caspase-8 to produce p43FLIP. The continued function of p43FLIP has, however, not been determined. We demonstrate that acute deletion of endogenous c-FLIP in murine effector T cells results in loss of caspase-8 activity and cell death. The lethality and caspase-8 activity can both be rescued by the transgenic expression of p43FLIP. Furthermore, p43FLIP associates with Raf1, TRAF2, and RIPK1, which augments ERK and NF-κB activation, IL-2 production, and T cell proliferation. Thus, not only is c-FLIP the initiator of caspase-8 activity during T cell activation, it is also an initial caspase-8 substrate, with cleaved p43FLIP serving to both stabilize caspase-8 activity and promote activation of pathways involved with T cell growth.