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MDSCs are suppressive immune cells with a high relevance in various pathologies including cancer, autoimmunity, and chronic infections. Surface marker expression of MDSCs resembles monocytes and neutrophils which have immunostimulatory functions instead of suppressing T cells. Therefore, finding specific surface markers for MDSCs is important for MDSC research and therapeutic MDSC manipulation. In this study, we analyzed if the integrin VLA-1 has the potential as a novel MDSC marker. VLA-1 was expressed by M-MDSCs but not by G-MDSCs as well as by Teff cells. VLA-1 deficiency did not impact iNOS expression, the distribution of M-MDSC and G-MDSC subsets, and the suppressive capacity of MDSCs towards naïve and Teff cells in vitro. In mice, VLA-1 had no effect on the homing capability of MDSCs to the spleen, which is a major reservoir for MDSCs. Since the splenic red pulp contains collagen IV and VLA-1 binds collagen IV with a high affinity, we found MDSCs and Teff cells in this area as expected. We showed that T cell suppression in the spleen, indicated by reduced T cell recovery and proliferation as well as increased apoptosis and cell death, partially depended on VLA-1 expression by the MDSCs. In a mouse model of multiple sclerosis, MDSC injection prior to disease onset led to a decrease of the disease score, and this effect was significantly reduced when MDSCs were VLA-1 deficient. The expression of Sema7A by Teff cells, a ligand for VLA-1 which is implicated in negative T cell regulation, resulted in a slightly stronger Teff cell suppression by MDSCs compared to Sema7A deficient T cells. Live cell imaging and intravital 2-photon microscopy showed that the interaction time of MDSCs and Teff cells was shorter when MDSCs lacked VLA 1 expression, however VLA-1 expression had no impact on MDSC mobility. Therefore, the VLA-1-dependent interaction of MDSC and Teff cells on collagen IV in the splenic red pulp is implicated MDSC-mediated Teff cell suppression.
Cardiovascular disease and the acute consequence of myocardial infarc- tion remain one of the most important causes of morbidity and mortality in all western societies. While much progress has been made in mitigating the acute, life-threatening ischemia caused by infarction, heart failure of the damaged my- ocardium remains prevalent. There is mounting evidence for the role of T cells in the healing process after myocardial infarction, but relevant autoantigens, which might trigger and regulate adaptive immune involvement have not been discov- ered in patients.
In this work, we discovered an autoantigenic epitope in the adrenergic receptor beta 1, which is highly expressed in the heart. This autoantigenic epitope causes a pro-inflammatory immune reaction in T cells isolated from pa- tients after myocardial infarction (MI) but not in control patients. This immune reaction was only observed in a subset of MI patients, which carry at least one allele of the HLA-DRB1*13 family. Interestingly, HLA-DRB1*13 was more com- monly expressed in patients in the MI group than in the control group.
Taken together, our data suggests antigen-specific priming of T cells in MI patients, which leads to a pro-inflammatory phenotype. The primed T cells react to a cardiac derived autoantigen ex vivo and are likely to exhibit a similar phenotype in vivo. This immune phenotype was only observed in a certain sub- set of patients sharing a common HLA-allele, which was more commonly ex- pressed in MI patients, suggesting a possible role as a risk factor for cardiovas- cular disease.
While our results are observational and do not have enough power to show strong clinical associations, our discoveries provide an essential tool to further our understanding of involvement of the immune system in cardiovascu- lar disease. We describe the first cardiac autoantigen in the clinical context of MI and provide an important basis for further translational and clinical research in cardiac autoimmunity.
In this thesis, three species were investigated for the conservation of two non-conventional T cell systems, the CD1d/ iNKT cell system and the BTN3/ Vγ9Vδ2 T cell system. Non-conventional T cells are αβ or γδ T cells that do not fit into the classical mode of antigen recognition and adaptive responses. These T cells recognize antigens different from classical peptide antigens and are not restricted to the polymorphic MHC molecules but rather to non-polymorphic antigen-presenting molecules. The iNKT cell subset is restricted by the lipid antigen-presenting molecule CD1d and carries out immunomodulatory functions by rapid cytokine secretion. The molecular basis of this system, the semi-invariant iNKT TCR chains and CD1d were proven to be expressed and compared to homologs in human and rodents. Cotton rats possess multiple members of the AV14 and BV8 family and only one isoform of CD1d which is comparable to findings in the rat.
Moreover, the reactivity of primary cells to glycolipid antigens could be shown, and an iNKT
cell-like population was detected in primary cells using newly developed cotton rat CD1d oligomers. These were also applied to test the capacity of CD1d to present typical glycolipid
antigens to iNKT TCR transductants. In addition, expression of cotton rat iNKT TCR α and β chains in TCR-negative cell lines was used to show successful pairing and detection of glycolipids in the context of CD1d. In summary, the conservation of a functional CD1d/iNKT cell system in the cotton rat could be shown, and tools were developed to study this cell subset in the course of infectious diseases. The Vγ9Vδ2 T cell subset is the major γδ T cell subset in human peripheral blood and has the unique ability to contribute to immune surveillance by detecting pyrophosphorylated metabolites of isoprenoid synthesis that indicate cell stress, transformation or infection. Up to this date, phosphoantigen-reactive γδ T cells have only been shown in primate species. However, evidence for the existence and functional conservation of the genes implied in the BTN3/Vγ9Vδ2 T cell system was found in several placental mammal species,
and two candidate species were chosen for further investigation. The nine-banded armadillo, a valuable model for leprosy research, was shown to possess homologous genes to TRGV9, TRDV2 and BTN3. In this study, the expression of productive rearrangements of TRDV2 gene segments could be shown in peripheral blood samples, but no evidence was found for the expression of a functional TRGV9 rearrangement or BTN3 molecules. Moreover, determinants of phosphoantigen-reactive Vγ9Vδ2 T cells and functional BTN3 molecules were found to still be prevalent in armadillo genes. This makes the armadillo an interesting model to study the structural determinants that allow phosphoantigen recognition by a functional Vγ9Vδ2 T cell subset although this species is merely a witness for a functional system in a placental mammal ancestor. In contrast, alpacas were shown to express functional Vγ9Vδ2 T cells which conserved many features of the human counterpart. Expression of Vγ9Vδ2 pairings could be shown by single-cell PCR and functional phosphoantigenreactive pairings were observed. This phosphoantigen reactivity was also shown in PBMC cultures with a newly developed antibody specific for alpaca Vδ2Jδ4 chains. Moreover, a more detailed study of the alpaca TCR repertoire showed similarities to “γδ high” species like
camelids and cattle which possess an extended family of TRDV genes. The γ and δ loci of alpaca
TCR genes were drafted based on genomic information and cDNA studies and provide an overview for more detailed studies. Conservation of phosphoantigen recognition by the single BTN3 molecule of alpacas was shown in 293T knock out cell lines, and BTN3 detection on PBMCs was investigated with a newly developed alpaca BTN3-specific antibody. These findings prove the existence of a functional BTN3-dependent phosphoantigen-reactive Vγ9Vδ2 T cell subset and provide a basis for the future study of this cell system in a non-primate species. Moreover, as the first non-primate candidate species with the BTN3/Vγ9Vδ2 T cell system the alpaca is an important outgroup for research in this field. The use of a single BTN3 variant in contrast to three human isoforms that work together renders the alpaca a unique and to this date indispensable model for Vγ9Vδ2 T cells.
In conclusion, this study provides an overview of the applicability of new animal models in the
study of the non-conventional T cell subsets iNKT cells and Vγ9Vδ2 T cells and leads the way for a better understanding of structural and functional relationships.
Kinetics and timing of IL-12 production by dendritic cells for Th1 polarization \(in\) \(vivo\)
(2020)
Dendritic cell (DC) based vaccines rely on the quality of DC maturation to induce antigen presentation, co-stimulation, lymph node migration and the release of heterodimeric IL-12p70 in case of T helper type-1 cell (Th1) polarization. In contrast, DCs that cannot secrete IL-12p70 (e.g. after cytokine cocktail maturation) readily induce Th1 cells when injected into mice and humans. Since it was also previously suggested that DCs are capable of activating other DCs in a bystander fashion, we tested here for the DC source of IL-12p70 for Th1 polarization in a murine DC vaccination model. Migration of the injected murine bone marrow-derived DCs (BM-DCs) was essential for antigen delivery to the lymph node. However, they contributed only partially to antigen presentation, and induced a non-polarized Th0 state of the cognate T cells producing IL-2 but no IFN-. Instead, endogenous dermal migratory XCR1+ cDC1s underwent re-programming by the injected BM-DCs to acquire bystander antigen presentation and IL-12 release for Th1 polarization in the lymph node. Genetic deficiency of migratory DCs and specifically of XCR1+ migratory DCs completely abolished Th1 priming. The kinetic of cell interactions in the draining lymph nodes appeared step-wise as i) injected DCs with cognate T cells, ii) injected DCs with bystander XCR1+ DCs, and iii) bystander XCR1+ DCs with T cells. The transcriptome of the bystander DCs showed a down-regulation of Treg and Th2/Th9 inducing genes, and up-regulation of genes required for Th1 instruction. Together, these data show that injected mature lymph node migratory BM-DCs direct T cell priming and bystander DC activation, but not Th1 polarization which is mediated by endogenous IL-12p70+ XCR1+ migratory bystander DCs. Our results are of importance for clinical DC-based vaccinations against tumors where endogenous DCs may be functionally impaired by chemotherapy.
The mold Aspergillus fumigatus causes life-threatening infections in immunocompromised patients. Over the past decade new findings in research have improved our understanding of A. fumigatus-host interactions. One of them was the detection of localized areas of tissue hypoxia in the lungs of mice infected with A. fumigatus. The transcription factor hypoxia-inducible factor 1α (HIF 1α) is known as the central regulator of cellular responses to hypoxia. Under normoxia, this constitutively expressed protein is degraded by oxygen-dependent mechanisms in most mammalian cell types. Interaction with pathogens can induce HIF 1α stabilization under normoxic conditions in innate immune cells. Bacterial infection models revealed that hypoxic microenvironments and signaling via HIF 1α modulate functions of host immune cells. Moreover, it was recently described that in murine phagocytes, HIF 1α expression is essential to overcome an A. fumigatus infection. However, the influence of hypoxia and the role of HIF 1α signaling for anti-A. fumigatus immunity is still poorly understood, especially regarding dendritic cells (DCs), which are important regulators of anti-fungal immunity. In this study, the functional relevance of hypoxia and HIF 1α signaling in the response of human DCs against A. fumigatus has been investigated.
Hypoxia attenuated the pro-inflammatory response of DCs against A. fumigatus during the initial infection as shown by genome-wide microarray expression analyses and cytokine quantification. The up-regulation of maturation-associated molecules on DCs stimulated with A. fumigatus under hypoxia was reduced; however, these DCs possessed an enhanced capacity to stimulate T cells. This study thereby revealed divergent influence of hypoxia on anti-A. fumigatus DC functions that included both, inhibiting and enhancing effects.
HIF-1α was stabilized in DCs following stimulation with A. fumigatus under normoxic and hypoxic conditions. This stabilization was partially dependent on Dectin-1, the major receptor for A. fumigatus on human DCs. Using siRNA-based HIF 1α silencing combined with gene expression microarrays, a modulatory effect of HIF-1α on the anti-fungal immune response of human DCs was identified. Specifically, the transcriptomes of HIF-1α silenced DCs indicated that HIF-1α enhanced DC metabolism and cytokine release in response to A. fumigatus under normoxic and hypoxic conditions. This was confirmed by further down-stream analyses that included quantification of glycolytic activity and cytokine profiling of DCs. By that, this study demonstrated functional relevance of HIF 1α expression in DCs responding to A. fumigatus. The data give novel insight into the cellular functions of HIF 1α in human DCs that include regulation of the anti-fungal immune response under normoxia and hypoxia. The comprehensive transcriptome datasets in combination with the down-stream protein analyses from this study will promote further investigations to further characterize the complex interplay between hypoxia, activation of Dectin-1 and HIF-1α signaling in host responses against A. fumigatus.
The role of host dendritic cells during the effector phase of intestinal graft-versus-host disease
(2014)
Monocytes can be functionally divided in two subsets, both capable to differentiate into dendritic cells (DCs): CX3CR1loCCR2+ classical monocytes, actively recruited to the sites of inflammation and direct precursors of inflammatory DCs; and CX3CR1hiCCR2− non-classical monocytes, characterized by CX3CR1-dependent recruitment to non-inflamed tissues. Yet, the function of non-classical monocyte-derived DCs (nc-mo-DCs), and the factors, which trigger their recruitment and DC differentiation, have not been clearly defined to date. Here we show that in situ differentiated nc-moDCs mediate immunosuppression in the context of intestinal graft-versus-host disease (GVHD).
Employing multi-color confocal microscopy we observed a dramatic loss of steady state host-type CD103+ DC subset immediately after transplantation, followed by an enrichment of immune-regulatory CD11b+ nc-moDCs. Parabiosis experiments revealed that tissue-resident non-classical CX3CR1+ monocytes differentiated in situ into intestinal CD11b+ nc-moDCs after allogeneic hematopoietic cell transplantation (allo-HCT). Differentiation of this intestinal DC subset depended on CSF-1 but not on Flt3L, thus defining the precursors as monocytes and not pre-DCs. Importantly, CX3CR1 but not CCR2 was required for this DC subset differentiation, hence defining the precursors as non-classical monocytes. In addition, we identify PD-L1 expression by CX3CR1+ nc-moDCs as the major mechanism they employ to suppress alloreactive T cells during acute intestinal GVHD. All together, we demonstrate that host nc-moDCs surprisingly mediate immunosuppression in the context of murine intestinal GVHD – as opposed to classical “inflammatory” monocyte-derived dendritic cells (mo-DCs) – via coinhibitory signaling. This thorough study unravels for the first time a biological function of a - so far only in vitro and phenotypically described - DC subset. Our identification of this beneficial immunoregulatory DC subset points towards alternate future strategies in underpinning molecular pathways to foster their function. We describe an unexpected mechanism of nc-moDCs in allo-HCT and intestinal GVHD, which might also be important for autoimmune disorders or infections of the gastrointestinal tract.
Leishmaniasis is a neglected tropical disease that can be manifested through different clinical forms, ranging from cutaneous to visceral. The host response against Leishmania spp. is greatly dependent on T cell-mediated immunity, in which T helper 1 responses are associated with macrophage activation and elimination of the parasite, while regulatory T cells and T helper 2 responses are correlated with parasite survival and persistence of infection. Leishmania uses different virulence factors as strategies for evading the immune response of the host. One of them are cathepsin-like cysteine proteases, which are currently under extensive investigation as targets for drug development. Previous studies with inhibitors of cathepsins B and L in vivo revealed an outstanding modulation of the host T helper cell response. However, the mechanisms behind these observations were not further investigated. Given the urgent need for better treatments against leishmaniasis, the aim of this study was to investigate the effects that the lack of cathepsin B and L activity have on the signals that dendritic cells use to instruct T helper cell polarization in response to infection with Leishmania major.
The cathepsin inhibitors tested showed low or no cytotoxicity in bone marrow-derived dendritic cells, and dendritic cells and macrophages could be generated from cathepsin B and cathepsin L-deficient mice without apparent alterations in their phenotype in comparison to wild-type controls. Furthermore, lack of cathepsin B and L activity showed no impact in the rate of promastigote processing by dendritic cells. Cathepsin B and cathepsin L-deficient macrophages showed no differences in parasite proliferation and capacity to produce nitric oxide in comparison to wild-type macrophages. In response to the parasite, dendritic cells treated with a cathepsin B inhibitor and dendritic cells from cathepsin B-deficient mice showed higher levels of expression of major histocompatibility complex (MHC) class II molecules than dimethyl sulfoxide (DMSO) or wild-type controls, but it was not accompanied by changes in the expression of costimulatory molecules. Wild-type dendritic cells and macrophages are not able to express the pro-inflammatory cytokine interleukin (IL)-12 in response to promastigotes. However, cells treated with a cathepsin B inhibitor or cells deficient for cathepsin B were able to express IL-12, whilethe expression of other cytokines -including IL-6 and tumor necrosis factor (TNF)-alpha-remained unchanged. These characteristics point towards a more “pro-Th1” profile of dendritic cells in the absence of cathepsin B.
This data is the first report on IL-12 regulation depending on cathepsin B. The IL-12 up-regulation observed was already present at the transcriptional level. Furthermore, it was also present in macrophages and dendritic cells in response to LPS, and the latter had a higher capacity to induce T cell helper 1 polarization in vitro than wild-type dendritic cells. The activation of different signaling pathways was analyzed, but the up-regulation of IL-12 could not be attributed to modulation of nuclear factor-kappaB (NFkappaB), p38 mitogen activated protein kinase (MAPK) and extra-cellular signal-regulated kinase (ERK)1/2 pathways. Thus, the mechanism behind IL-12 regulation by cathepsin B remains to be elucidated, and the impact of these effects is yet to be confirmed in vivo. Altogether it is tempting to speculate that cathepsin B, in addition to its role in processing endocytosed material, is involved in the modulation of the pro-inflammatory cytokine IL-12.
Signal transduction via receptors for N-formylmethionyl peptide chemoattractants (FPR) on human neutrophils is a highly regulated process. It involves direct interaction of receptors with heterotrimeric G-proteins and may be under thc control of cytoskeletal clemcnts. Evidencc exists suggesting that thc cytoskeleton and/or the membrane ske1eton determines the distribution of FPR in the plane of the plasma membrane, thus controlling FPR accessibility to different protcins in functionally distinct membrane domains. In desensitized cells, FPR are restricted to domains which are depleted of G proteins but enriched in cytoskeletal proteins such as actin and fodrin. Thus, the G protein signal transduction partners of FPR become inacccssible to the agonist-occupied receptor, preventing cell activation. We are investigating the molecular basis for the interaction of FPR with the membrane skeleton, and our results suggest that FPR, and possibly other receptors, may directly bind to cytoskeletal proteins such as actin.
Dendritic cell-based vaccination is a well established technique for preventive and therapeutic instruction of the immune system where conservative vaccine formulations fail to cure or prevent diseases, respectively. Efficiency of this technique already was demonstrated in infectious diseases as well as for cancer in animal or human studies. Well controlled manipulation and antigen-loading of immature DC is most beneficial to this technique. But, time-consuming and cost-extensive procedures for preparation of DC precursors, expansion and stimulation of DC and inpatient administration are big disadvantages regarding vaccine development for pandemic infectious diseases that occur mainly in underdeveloped countries. Therefore vaccines are needed that are pathogen-tailored and able to induce equal immune responses as their DC-based vaccine models. For vaccination against Leishmania parasites such a DC-based vaccine is feasible and its efficacy to induce protective Th1-based immune responses was already demonstrated in several animal studies. But, one of our own studies indicated supportive activity of host cells exceeding the allocation of T cells to become activated by transferred DC. IL-12, an important cytokine for the induction of Th1-related immune responses, has to be produced by host cells. Therefore, the aim of this study was to investigate the mechanism of BMDC-based vaccination with regard to simplification of the vaccine formulation. Key questions that have been addressed are: Which cells process the information that is transferred by the injected DC and what are the key components of this information? Further more, it was looked at whether altered vaccine formulations are able to induce protective immunity and whether they share equal molecular mechanisms. The current paradigm of BMDC-based vaccination proposes direct interaction of transferred BMDC with host T cells. These BMDC have to be antigen-loaded for stimulation via antigen-peptide-MHC molecule-complexes and they have to be activated for proper co-stimulation of T cells. Here, this study demonstrates that neither activation for co-stimulation nor direct interaction with adequate MHC molecules is needed for the induction of protective immunity against infection with Leishmania-parasites. Disrupted antigen-loaded BMDC are able to induce protective immunity in BALB/c mice without pre-stimulation via CpG ODN. Beyond, if BMDC were used with a different MHC-background than recipient mice then the vaccine still would be efficient in terms of reduction of footpad swelling and parasite load in draining lymph nodes. Even more, DC-specific features are no key component that leads to protective immunity as vaccination with disrupted antigen-loaded MΦ shows equal properties than before mentioned vaccine formulations. Further more, it was found that host DC play a major role in transforming the incoming signal, received from transferred antigen-loaded DC, into Th1-related stimuli and Leishmania-antigen-specific T cell activation. Suspensions of disrupted antigen-loaded DC resemble a combination of laid off soluble molecules together with exosome-like vesicles that formed after disruption of membranes. Here it was shown that separation of the membranous and soluble fractions and subsequent transfer into BALB/c mice will lead to protection of these mice against infection with L. major promastigotes only if the membranous fraction is used as vaccine. More, this vaccine formulation takes advantage of easy storage at -80°C with no need of fresh production. This clearly demonstrates that the immunity-inducing principle of disrupted DC-based vaccination lies within the membrane enclosed fraction. On a molecular level, disrupted antigen-loaded DC induce Th1-related cytokines during vaccination and as response on pathogen encounter. In vivo assays revealed IL-12 production and antigen-specific T cell proliferation among splenocytes that were stimulated with disrupted antigen-loaded DC. Splenocytes of accordingly vaccinated mice produce tremendous amounts of IFNγ after stimulation with Leishmania parasites. In summary, disrupted antigen-loaded BMDC fulfil all characteristics of DC-based vaccination against Leishmania major. But, while purification of membranes of antigen-loaded DC and subsequent transfer to BALB/c mice leads to control of the disease in the animal model, only slight levels of Th1-related cytokines are seen in the in vivo assays. Whether this points towards a loss of vaccine activity on unseen levels or unknown sites where Th1-related immunity is induced by both, complete solution and purified membranes, still has to be determined.
Murine spienie T lymphocytes display maximal cellular myc gene (c-myc) expression already 3 h after concanavalin A timulation and sub equent down-regulation before the onset of DNA syntbesis. Stimulation by leucoagglulinin in the prcsence or absence of interleukin 2 Ieads to only low initiaJ Ievels of c-myc-specific RNA which, however, increase later on. A similar pattero of c-myc expression is shown by the Lyt- 2+ T cell subpopulation stimuiated with eilher concanavalin A or leucoagglutinin in the prescncc of interleukin 2. Although eH]thyn1idine incorporation was identical, the leucoagglutinin-stimulated Lyt-2+ T cells werc void of any demon. trable c-mycspeci. fic RNA at 3 h post-stimulation. Thus, the kinetics of c-myc expression in mause T lymphocytes arenot at all uniform, but depend on the mitogen and the subpopulation. [n contrast, lcvel8 of c-rasH•-spccific R A wcre always low at early times, always increased towards tbe onset ofDNA synthesis and down-regulationwas not observed.
As critical steps in the life cycle oJ measles virus (Mfl), the e.fficiency of uptake into and replication in susceptible host cells are governed by cellular determinants. Measles virus infections of cells of the human CNS are characterized by particular constraints imposed on v1:ral transcription and translation attenuating viral gene Junctions and thus contributing to the pathogenesis oJ MV persistence in these cells.
Measles virus is a highly contagious virus causing acute and persistent diseases in man, the receptor of which is still not weil characterized. We have isolated a monoclonal antibody (mAb), designated mAb 119, which specifically inhibits measles virus infection of susceptible celllines in a dosa-dependent manner. This antibody precipitates a protein with an apparent molecular mass of 75 kDa from 1251 surface-labeled cells and its epitope is present on human peripheral blood mononuclear cells, human celllines, and the African green monkey cellline Vero. Affinity chromatography of detergent-solubilized cell membrane proteins over a Sepharose column with covalently bound mAb 119 led to the partial purification of the 75-kOa protein. Preincubation of measles virus with this affinity-purified protein inhibited measles virus infection dose dependently. Aminoacid microseq,uencing of this protein revealed its identity with the human membrane-organizing extension spike protein moesin, a protein intra- and extracellularly associated with the plasma membrane of cells. Subsequently, an antibody raised against purified moesin (mAb 38/87) was also found to specifically inhibit measles virus infection of susceptible cells and confirmed our data obtained with mAb 119. Our data suggest that moesin is acting as a receptor for measles virus.
Expression of the neural cell adhesion molecule and polysialic acid during early mouse embryogenesis
(1994)
The expression of the neural cell adhesion molccule (N-CAM) and a 2-8 linked polysialic acid (PSA), whieh is believed to be predominantly expressed on N-CAM, was investigated during early embryonie development ofthe mouse (embryonic days 7.5 to 10.0). By immunoeytoehemistry, in tissue sections, N-CAM and PSA were not detectable at embryonie day 7.5 but were expressed in the prominent body regions such as somites, unsegmented mesoderm, developing heart, and neuroectoderm at embryonie day 8.0 N-CAM and PSA immunoreaetivities were always predominantly associated with tbe plasma membrane. No tissue could be detected which was positive for PSA but negative for N-CAM. In Western blot analysis of whole embryos, by contrast, only the lightly sialylated and PSA-negative 180 and 140 kD isoforms of N-CAM werc present at embryonie day 8.0 and strong expression of PSA-bearing, heavily sialylated N-CAM was not detectable before embryonie day 10.0. In Western blot analysis of N-CAM immunoaffinity purifled from whole embryos and digested with neuraminidase as weil as in Northern blot analysis, the 120 kD isoform of N-CAM or its eorresponding mRN A were not expressed in detectable amounts during the time period investigated.
The expression of measles virus (MV) in six different permanent human glioma cell lines (D-54, U-251, U-138, U-105, U-373, and D-32) was analyzed. Although all celllines were permissive for productive replication of all MV strains tested, U-251, D-54, and D-32 cells spontaneously revealed restrictions of MV transcription similar to those observed for primary rat astroglial cells and brain tissue. In vitro differentiation of D-54 and U-251 cells by substances affecting tbe intracellular cyclic AMP Ievel caused a significant reduction of tbe expression of tbe viral proteins after 18, 72, and 144 b of infection. This pronounced restriction was not paralleled to a comparable Ievel by an inhibition of tbe syntbesis and biological activity in vitro of virus·specific mRNAs as sbown by quantitative Northem (RNA) blot analyses and in vitro translation. The block in viral protein syntbesis could not be attributed to tbe induction of type I interferon by any of tbe substances tested. Our findings indicate tbat down-regulation of MV gene expression in human brain cells can occur by a cell type-rlependent regulation of tbe viral mRNA transcription and a differentiation-dependent regulation of translation, botb of wbicb may be crucial for the establisbment of persistent MV infections in tbe centrat nervous system.
The effect of measles virus (MV) infection on mRNA expression and protein synthesis of cytokines in human malignant glioma celllines (0-54 and U-251) was investigated. Primary MV infections led in both celllines to the induction of interleukin-1 fJ (ll-1 (3), interleukin-6 (IL-6), interferon-(3 (IFN-fJ), and tumor necrosis factor-a (TNF-a). ln contrast, persistently infected astrocytoma lines continually produced IL-6 (two out of 12 lines high Ievels) and IFN-ß, whereas only 1 out of 121ines synthesized TNF-a and none IL-1ß. The pathways for induction of IL-1fJ and TNF-a expression were not suppressed by the persistent MV infection, since IL-1ß and TNF-a could be induced by external stimuli Jike diacylglycerol analog plus calcium ionophore. lnterestingly, persistently infected astrocytoma cells synthesized considerably higher Ievels of ll-1ß and TNF-a than uninfected cells afteradditional external induction. These results suggest that in the centrat nervous system (CNS) of SSPE patients a percentage of persistently infected astrocytes may continually synthesize IL-6 and IFN-ß, and in the presence of additional external stimuli, as possibly provided by activated lymphocytes, might ovarexpress the inflammatory cytokines IL-1 ß and TNF-a. This may be of pathogenetic significance in CNS diseases associated with persistent MV infections.
Quantification of the peripheral nerve myelin glycoprotein PO and antibodies to PO is difficult due to insolubility of PO in physiological solutions. We have overcome this problern by using the water-soluble recombinant form of the extracellular domain of PO (PO-ED) and describe newly developed assays which allow detection and quantitation of PO and antibodies to PO, in serum and cerebraspinal fluid (CSF). These sensitive and specific assays based on the ELISA technique were used to study humoral immune responses to PO during experimental autoimmune ("allergic") neuritis (EAN). In order to establish these tests, monoclonal antiborlies to different epitopes of rodent and human PO-ED were produced. A two-antibody sandwich-ELISA allowing quantitation of PO Oower detection Iimit of 0.5 ngjml or 30 fmoljml) and an antibody-capture ELISA (lower detection Iimit 1 ng specific antibody jml) to detect antiborlies to PO in serum and CSF were developed. EAN was induced in rats by active immunization with bovine myelin or the neuritogenic protein P2 or by adoptive transfer using P2 specific CD4 positive T cells. Serum and CSF were assayed for the presence of PO-ED and antibodies to PO-ED or P2. Antibodies to PO-ED were detected during active myelin-induced EAN, but not during P2-induced or adaptive transfer EAN. The anti-PO-ED antibodies in the CSF showed a correJation with disease activity. In contrast, in the same model antibodies to P2 persisted long after the disease ceased. No soluble PO-Iike fragments could be found in serum or CSF during any of the three types of EAN. We conclude that PO may be a B-eeil epitope in EAN. These findings warrant a screen for antibodies to PO-ED in human immune neuropathies.
Human immunodeficiency virus (HIV-1) infection in the human brain Ieads to characteristic neuropathological changes, which may result indirectly from interactions of the envelope glycoprotein gp 120 with neurons and/or glial cells. We therefore investigated the binding of recombinant gp120 (rgp120) to human neural cells and its effect on int~acellular.s.ignallin~. Herewe pre~ent evidence that rgp120, besides binding to galactocerebroside or galactosyl-sulfatlde, spec1f1cally bmds to a protem receptor of a relative molecular mass of approximately 180,000 Da (180 kDa) pre~ent. on the CD4-negative glioma cells D-54, but not on Molt4 T lymphocytes. Binding of rgp120 to this receptor rap1dly 1nduced a tyrosine-specific protein kinase activity leading to tyrosine phosphorylation of 130- and 115-kDa p~oteins. The c~ncentration of intracellular calciumwas not affected by rgp120 in these cells. Our data suggest a novel Signal transduc1ng HIV-1 gp120 receptor on CD4-negative glial cells, which may contribute to the neuropathological changes observed in HIV-1-infected brains.
To probe into the functional properties of the major peripheral myelin cell surface glycoprotein P 0 , its ability to confer adhesion and neurite outgrowth-promoting properfies was studied in cell culture. Tothis aim, Po was expressed as integral membrane glycoprotein at the surface of CV -1 cells with the help of a recombinant vaccinia virus expression system. Furthermore, the immunoglobulin-like extracellular domain of P0 (P0 -ED) was expressed as soluble profein in a bacterial expression system and used as substrafe coated to plastic dishes or as competitor in cell adhesion and neurite outgrowth-promoting assays. The adhesion of P0 -expressing CV-1 cells to P0 -ED substrafe was specifically inhibitable by polyclonal Po antibodies (54% :t 6% ). In addition, the specific interaction between Po molecules could be reduced ( 49% ± 8%) by adding soluble P0 -ED to the culture medium, demonstrating that the homophilic inter~ction between recombinant Po molecules can be mediated, at least on one partner of interacting molecules, by the unglycosylated Ig-like domain. Substrate-coated p -ED also conferred adhesion and neurite outgrowth ability to dorsal root ganglion neurons with neurites of a mean length of about 150 ,_..m. This neurite outgrowth was specifically inhibitable by soluble P" (74% ± 14%) and P 0 antibodies (65% ± 9% ). These observations indicate that Po is capable of displaying two different types of functional roles in the myelination process of . peripheral nerves: The heterophilic interaction with neurons may be responsible for the recognition between axon and myelinating Schwann cell at the onset of myelination, whereas the homophilic interacton may indicate its roJe in the selfrecognition of the apposing loops of Schwann cell surface membranes during the myelination process and in the mature compact myelin sheath.
In leishmaniasis, macrophages are known to play a central role as modulators of the specific immune activity. In this article, Heidrun Moll presents evidence for the critical involvement of another component of the skin immune system, the epidermal Langerhans cell. She proposes that Langerhans cells take up parasites in the skin and transport them to the draining lymph node for presentation to T cells and initiation of the specific immune response.