Roman Klemenz

The Alarmin Interleukin-33 Drives Protective Antiviral CD8+ T Cell Responses

Sound the Alarm When small protein fragments or nucleic acids derived from an invading pathogen are detected by pattern recognition receptors on immune cells, the innate immune response is triggered. This event activates cells of the adaptive immune system, and together, both responses clear the infection. Infections also induce the release of “danger-associated molecular patterns,” or alarmins, from the host as a result of tissue damage. Whether these are also important for the ensuing immune response is less clear. Bonilla et al. (p. 984, published online 2 February) report that the alarmin, interleukin-33, is required for optimal cytotoxic CD8+ T cells responses and antiviral immunity in mice. In virus-infected mice deficient in IL-33 or its receptor, IL-33 is essential for signaling CD8+ T cells to expand, produce multiple cytokines and acquire cytotoxic capabilities. These results showed that endogenous material, independently of pathogen-derived molecules, are also required for antiviral immunity. A danger signal released from dying cells is required for antiviral immunity in mice. Pathogen-associated molecular patterns decisively influence antiviral immune responses, whereas the contribution of endogenous signals of tissue damage, also known as damage-associated molecular patterns or alarmins, remains ill defined. We show that interleukin-33 (IL-33), an alarmin released from necrotic cells, is necessary for potent CD8+ T cell (CTL) responses to replicating, prototypic RNA and DNA viruses in mice. IL-33 signaled through its receptor on activated CTLs, enhanced clonal expansion in a CTL-intrinsic fashion, determined plurifunctional effector cell differentiation, and was necessary for virus control. Moreover, recombinant IL-33 augmented vaccine-induced CTL responses. Radio-resistant cells of the splenic T cell zone produced IL-33, and efficient CTL responses required IL-33 from radio-resistant cells but not from hematopoietic cells. Thus, alarmin release by radio-resistant cells orchestrates protective antiviral CTL responses.

Alpha B-crystallin expression in mouse NIH 3T3 fibroblasts: glucocorticoid responsiveness and involvement in thermal protection.

alpha B-crystallin, a major soluble protein of vertebrate eye lenses, is a small heat shock protein which transiently accumulates in response to heat shock and other kinds of stress in mouse NIH 3T3 fibroblasts. Ectopic expression of an alpha B-crystallin cDNA clone renders NIH 3T3 cells thermoresistant. alpha B-crystallin accumulates in response to the synthetic glucocorticoid hormone dexamethasone. Dexamethasone-treated NIH 3T3 cells become thermoresistant to the same extent as they accumulate alpha B-crystallin. A cell clone in which alpha B-crystallin is superinduced upon heat shock acquires augmented thermotolerance. Expression of the ras oncogene causes a rapid but transient accumulation of alpha B-crystallin within 1 day. Later, sustained ras oncogene expression suppresses the dexamethasone-mediated alpha B-crystallin accumulation. Thus, oncogenic transformation triggered by the ras oncogene interferes with hormone-mediated accumulation of alpha B-crystallin and concomitant acquisition of thermoresistance. Other known heat shock proteins do not accumulate in response to ectopic alpha B-crystallin expression or to dexamethasone treatment. These results indicate that alpha B-crystallin can protect NIH 3T3 fibroblasts from thermal shock.

Alpha B crystallin accumulation is a specific response to Ha-ras and v-mos oncogene expression in mouse NIH 3T3 fibroblasts.

The conditional expression of the v-mos and Ha-ras(EJ) oncogenes in NIH 3T3 cells leads to the accumulation of a 23-kDa protein (p23) (R. Klemenz, S. Hoffmann, R. Jaggi, and A.-K. Werenskiold, Oncogene 4:799-803, 1989). We purified p23 to homogeneity and determined part of the amino acid sequence. The obtained sequence is identical with that of the eye lens protein alpha B crystallin. Northern (RNA) blot and Western immunoblot experiments were performed to demonstrate that alpha B crystallin mRNA and protein do indeed accumulate as a consequence of v-mos and Ha-ras oncogene expression. Comparison of cDNA clones obtained from the mRNA of eye lenses and of oncogene-expressing fibroblasts revealed identity between them. The major transcription initiation site of the alpha B crystallin gene in our experimental system was shown by primer extension experiments to be identical with the one used in eye epithelial cells. In addition, we identified a second minor initiation site 49 nucleotides further upstream. Serum growth factors did not stimulate alpha B crystallin expression in growth-arrested cells.

Cytotoxic targeting of F9 teratocarcinoma tumours with anti-ED-B fibronectin scFv antibody modified liposomes

We prepared small unilamellar liposomes derivatised with single chain antibody fragments specific for the ED-B domain of B-fibronectin. This extracellular matrix associated protein is expressed around newly forming blood vessels in the vicinity of many types of tumours. The single chain antibody fragments were functionalised by introduction of C-terminal cysteines and linked to liposomes via maleimide groups located at the terminal ends of poly(ethylene glycol) modified phospholipids. The properties of these anti-ED-B single chain antibody fragments-liposomes were analysed in vitro on ED-B fibronectin expressing Caco-2 cells and in vivo by studying their biodistribution and their therapeutic potential in mice bearing subcutanous F9 teratocarcinoma tumours. Radioactively labelled (114mIndium) single chain antibody fragments-liposomes accumulated in the tumours at 2–3-fold higher concentrations during the first 2 h after i.v. injection compared to unmodified liposomes. After 6–24 h both liposome types were found in similar amounts (8–10% injected dose g−1) in the tumours. Animals treated i.v. with single chain antibody fragments-liposomes containing the new cytotoxic agent 2′-deoxy-5-fluorouridylyl-N4-octadecyl-1-β-D-arabinofuranosylcytosine (30 mg kg-1 per dose, five times every 24 h) showed a reduction of tumour growth by 62–90% determined on days 5 and 8, respectively, compared to animals receiving control liposomes. Histological analysis revealed a marked reduction of F9 tumour cells and excessive deposition of fibronectin in the extracellular matrix after treatment with single chain antibody fragments-2-dioxy-5-fluorouridylyl-N4-octadecyl-1-β-D-arabinofuranosylcytosine-liposomes. Single chain antibody fragments-liposomes targeted to ED-B fibronectin positive tumours therefore represent a promising and versatile novel drug delivery system for the treatment of tumours.

T1-deficient and T1-Fc-transgenic mice develop a normal protective Th2-type immune response following infection with Nippostrongylus brasiliensis.

The IL‐1 receptor‐related protein T1 is expressed on the surface of Th2, but not Th1 cells. Studies with anti‐T1 monoclonal antibodies have suggested that T1 is critical for development of normal Th2‐type responses. To elucidate the role of T1 in vivo, we generated T1‐deficient mice and a T1‐transgenic strain which secretes soluble T1‐Fc fusion protein into the serum. These were analyzed for the Th2 immune response induced by infection with the parasitic nematode Nippostrongylus brasiliensis. Although Th2 cytokine production by lymph node cells was similar in all groups of N. brasiliensis‐infected mice, a decrease in IL‐5 production by lung lymphocytes was detected in both T1‐deficient and T1‐Fc‐transgenic mice compared to control littermates. This difference in IL‐5 production did not influence blood eosinophilia, but recruitment of eosinophils into lung tissue, especially in T1‐Fc‐transgenic mice was slightly decreased. However, induction of all other immune parameters was normal and both T1‐deficient and T1‐Fc‐transgenic mice were able to clear the parasite infection within 12 days with kinetics similar to those in control mice. Therefore, in contrast to previous suggestions, we conclude that the T1 protein is not obligatory for normal development of Th2 immune responses.

Signaling through the T1/ST2 Molecule Is Not Necessary for Th2 Differentiation but Is Important for the Regulation of Type 1 Responses in Nonhealing Leishmania major Infection

ABSTRACT T1/ST2 is a stable cell surface marker selectively expressed on type 2 T helper (Th2) effector cells. Since nonhealing Leishmaniamajor infections in susceptible BALB/c mice have been ascribed to a polarized Th2 response, we used an anti-T1/ST2 monoclonal antibody (MAb) or a T1-Fc fusion protein to investigate the role of CD4+ T1/ST2+ Th2 cells in experimental leishmaniasis. We show that interfering with T1/ST2 signaling had no effect on lesion development or parasite replication; however, it induced a significantly higher type 1 response and an enhanced capacity of CD4+ T cells to respond to interleukin 12 (IL-12). Surprisingly, even in the presence of an elevated Th1 response, the production of antigen-specific type 2 cytokines was not altered in the group of mice treated with the anti-T1/ST2 MAb or the T1-Fc fusion protein. To characterize further this Th2 response, we assessed the cytokine profile of CD4+ T cells and found that interfering with T1/ST2 signaling did not alter the cytokine profile of CD4+ T1/ST2+ T cells. These results show that T1/ST2 signaling is not necessary for the differentiation of naive CD4+ T cells into antigen-specific CD4+ T1/ST2+ Th2 cells. In addition to CD4+ T1/ST2+ T cells, we detected another subpopulation of CD4+ Th2 cells, negative for the expression of T1/ST2, that could differentiate in vivo in response to L. major infection. Taken together, our results suggest that CD4+ T1/ST2+ Th2 cells but not CD4+ T1/ST2− Th2 cells can downregulate the Th1 response during the course of a nonhealing L. major infection through a mechanism that is independent of IL-4 or IL-10.

GATA-Dependent Expression of the Interleukin-1 Receptor-Related T1 Gene in Mast Cells

ABSTRACT The murine delayed-early serum-responsive gene T1 encodes glycoproteins of the interleukin-1 receptor family. Transcriptional initiation in fibroblasts is regulated by c-Fos and gives rise to a rare 5-kb mRNA and an abundant 2.7-kb mRNA. These transcripts are translated into a receptor-like membrane-anchored protein and a secreted protein consisting only of the ectodomain. In mast cells, T1 gene transcription is initiated 10.5 kb further upstream than in fibroblasts and gives rise predominantly to the 5-kb transcript under normal growth conditions. Here we demonstrate that calcium ionophore stimulation of mast cells resulted in an upregulation of T1 gene expression and a switch from the long to the short T1 transcript. This was paralleled by the disappearance of the receptor-type T1 protein on the mast cell surface and the secretion of large amounts of the truncated T1 protein. c-Fos and a T1 enhancer, which have previously been identified to be essential for T1 expression in fibroblasts, were not required for calcium ionophore-mediated T1 gene upregulation. Overexpression of the transcription factor GATA-1 in mast cells caused elevated T1 synthesis. Three GATA elements were identified in the minimal GATA-responsive mast cell promoter. Mutational analysis revealed that all three GATA elements are involved in T1 gene expression. Point mutations within the middle GATA element eliminated promoter activity completely, while mutations of the distal and proximal GATA binding sites reduced promoter strength by factors of 2 and 5, respectively. Exogenous expression of GATA-1 was not sufficient to activate the mast cell-specific promoter in NIH 3T3 fibroblasts.

Regulation of ST2L expression on T helper (Th) type 2 cells

T1/ST2L, an IL‐1 receptor homologue, is selectively expressed on murine Th2 cells and specific anti‐ST2L antibodies can profoundly modulate the Th1/Th2 balance in vivo. Naive CD4+ T cells do not express ST2L but do so on activation with specific antigen in the presence of IL‐4 or when stimulated with low doses of antigen in the absence of exogenously added IL‐4. Similarly enhanced ST2L expression occurred after stimulation of Th2 cells with antigen or the mitogen ConA in the presence of APC. Restimulation of Th2 cells in the presence of IFN‐γ led to a decreased expression of ST2L to below basal levels. Conversely, Th2 cells cultured with IL‐4 led to increased ST2L expression. The reduced expression of ST2L in response to high doses of antigen is also reversed by the neutralization of IFN‐γ. Using an ST2L promoter/luciferase reporter gene construct, we show that the distal but not proximal ST2L promoter is responsible for specific gene expression in Th2 cells. IL‐4 enhances, whereas IFN‐γ suppresses ST2L expression via direct modulation of the distal promoter of the ST2L gene. These data provide a mechanistic explanation for the selective expression of ST2L on Th2 cells.

Organ-specific distribution of CD4 + T1/ST2 + Th2 cells in Leishmania major infection

Activated CD4+ T helper cells (Th) comprise at least two functionally distinct subsets, Th1 and Th2, which mediate different immunological effector functions. Experimental leishmaniasis is widely used to study the effector function of Th cell subsets in vivo. Healing and nonhealing Leishmania major infections have been correlated with polarized Th1 and Th2 responses, respectively. In the study presented here, a stable cell surface marker expressed on Th2 cells, T1/ST2, has been used to assess the distribution of CD4+ T1/ST2+ T cells in different organs of healer and nonhealer strains of mice during the course of L. major infection. The frequency of CD4+ T cells expressing the T1/ST2 cell surface marker and Th2 cytokines in the lymphoid organs was low in both strains of infected mice; however, CD4+ T1/ST2+ T cells could be enriched from the lymphoid organs of infected nonhealer but not from healer strains of mice. The highest frequency of CD4+ T1/ST2+ T cells was detected in the footpads of mice with nonhealing disease, showing that CD4+ T1/ST2+ T cells home to the footpads. Since the majority of parasites persist at the local site of infection in nonhealing BALB/c mice, these results show that CD4+ T1/ST2+ T cells are localized at the site of active infection and inflammation in this model.

Attenuated expression of the serum responsive T1 gene in ras transformed fibroblasts due to the inhibition of c-fos gene activity

The T1 gene encodes a protein, which shares homology with the IL-1 receptors. In fibroblasts, T1 is induced by growth factors and in response to the onset of oncogene expression. The c-fos gene is transiently activated in these situations and was shown to be the major mediator of T1 gene induction. In contrast, the sustained expression of a ras oncogene in NIH3T3 cells resulted in the downregulation of basal T1 gene activity and the attenuation of T1 gene induction in response to mitogenic signals. Likewise, the immediate early genes encoding c-Fos, FosB, and Fra-2 are repressed in these cells. T1 gene repression could be overcome by the forced expression of c-fos in ras transformed fibroblasts. Thus, the lack of c-fos gene expression is the likely cause for ras mediated T1 gene repression. Fra-1, in contrast to the other three members of the Fos family, is permanently synthesized in high amounts in ras transformed NIH3T3 fibroblasts. We show that AP-1, which is abundant in these cells throughout the whole cell cycle, consists predominantly of Fra-1/c-Jun and Fra1/JunD heterodimers. We provide evidence that Fra1/c-Jun heterodimers are responsible for the repression of c-fos gene induction following serum stimulation. The introduction of a dominant negative version of c-Jun into ras transformed fibroblasts was able to rescue c-fos gene induction in response to serum stimulation, further demonstrating that AP-1 is indeed involved in c-fos gene repression. We conclude that oncogenic ras mediates the activation of the fra-1 gene which results in elevated AP-1 activity throughout the cell cycle. Fra-1 containing AP-1 complexes repress the c-fos and possibly other immediate early genes thereby preventing the induction of certain delayed early genes such as the T1 gene in response to mitogenic stimulation.