Transkriptionelle Regulation des humanen Interferon-gamma-Promotors in T-Lymphocyten

Interferon-gamma is mainly produced by activated T helper cells and cytotoxic T lymphocytes and sustains the immune-defense against viral and bacterial infections. For a better understanding of IFN-gamma promoter regulation in T cells, different DNA-binding motivs were examined. Hereby, a new motiv (-196 to -183) was identified, that binds to the transcription factor AP-1 in T helper cells and Jurkat T cells. This factor acts as an essential activator protein. Further investigation demonstrated that IL-12 and IL-18 induce different regulatory pathways. Both AP-1 and STAT-4 bindings at their cognate DNA elements (-196 to -183 and -224 to -215) are required for the IL-12 dependent activation whereas IL-18 causes direct activation via AP-1.Moreover, the TH2 cytokine IL-4 represses significantly the IFN-gamma promoter activity in CD4+ T cells. IL-4 induces GATA-3, that interacts with two DNA-motivs (-111 to -87) at the IFN-gamma promoter.Furthermore, transgenic mice were generated, yielding a human IFN-gamma promoter construct (410 bp) under the control of a luciferase reporter gene. The data demonstrated a specific IFN-gamma promoter activation by antiCD3 plus antiCD28 in CD4+ and CD8+ T cells. The luciferase activty in CD4+ T cells was reinforced by addition of IL-12 and IL-18 and repressed by IL-4.

Molekulare Mechanismen der Kontrolle von T-Helferzellen durch natürlich vorkommende CD4 +CD25 + regulatorische T-Zellen

CD4+CD25+ regulatorische T-Zellen (CD4+CD25+ Tregs) sind in der Lage die Proliferation und Cytokin-Produktion konventioneller T-Zellen zu supprimieren. Obwohl ein entscheidender Mechanismus dieses Prozesses die Inhibition der Interleukin-2 Produktion ist, sind die beteiligten Moleküle weitestgehend unbekannt. Interessanterweise entwickeln NFATc2-, NFATc3-doppeldefiziente Mäuse (DKO Mäuse) schwerste Autoimmunerkrankungen, so dass im Rahmen dieser Arbeit die Rolle der Transkriptionsfaktoren NFATc2 und NFATc3 bei der Entstehung von CD4+CD25+ Tregs und der CD4+CD25+ Treg-vermittelten Suppression konventioneller T-Zellen untersucht wurde. Es konnte gezeigt werden, dass zwar die Gesamtheit der peripheren CD4+CD25+ T-Zellen keinerlei suppressives Potential besitzt, eine Subpopulation dieser Zellpopulation, die sehr stark CD25 und GITR exprimiert (CD4+CD25++GITR++ T-Zellen), jedoch in der Lage ist kokultivierte konventionelle CD4+ T-Zellen in ihren Effektorfunktionen zu inhibieren. Allerdings ließen sich die konventionellen CD4+ T-Zellen aus DKO Mäusen nicht von CD4+CD25+ Tregs in ihrer Proliferation und Zytokinproduktion inhibieren. Es kann also abschließend gesagt werden, dass das Fehlen der Transkriptionsfaktoren NFATc2 und NFATc3 die Entstehung und Funktion von CD4+CD25+ Tregs nicht beeinflusst, jedoch konventionelle CD4+ T-Zellen resistent gegen eine CD4+CD25+ Treg-vermittelte Suppression werden lässt.

Humane CD4 + CD25 + regulatorische T-Zellen: Charakterisierung von Subpopulationen und Identifizierung eines Markers

CD4+CD25+ regulatorische T-Zellen (CD4+CD25+ Tregs) sind essentiell an der Homöostase des Immunsystems beteiligt, indem sie eine antigenspezifische Toleranzinduktion in der Peripherie vermitteln und vor der Entstehung von Autoimmunerkrankungen schützen. Darüber hinaus sind diese Zellen wesentlich an der Kontrolle von Allergien, Infektionen und Tumoren beteiligt. Innerhalb dieser Arbeit konnten zwei bisher unbekannte Subpopulationen humaner CD4+CD25+ Tregs, isoliert aus dem peripheren Blut des Menschen, nachgewiesen werden. Diese Subpopulationen unterscheiden sich in ihrer Oberflächenexpression und exprimieren die Integrine a4b1 bzw. a4b7. Beide Treg-Subpopulationen supprimieren kokultivierte CD4+ T-Helferzellen Zellkontakt-abhängig und konvertieren gleichzeitig einen Teil dieser Zellen in sekundäre Suppressorzellen (iTregs). a4b1+ Tregs induzieren TGF-β-sezernierende iTregs, a4b7+ Tregs führen zur Bildung von IL-10-produzierenden iTregs. Differentielle Proteomanalysen humaner CD4+CD25+ Tregs, im Vergleich zu CD4+CD25- T-Helferzellen, führten zur Identifizierung von Galectin-10 als Markerprotein, das fast ausschließlich von CD4+CD25+ Tregs und nicht von CD4+ T-Helferzellen exprimiert wird. Galectin-10 ist ein intrazelluläres Protein, das essentiell für die funktionellen Eigenschaften humaner CD4+CD25+ Tregs ist. Die Blockade der Galectin-10-Bildung in den CD4+CD25+ Tregs durch RNA-Interferenz führte zu wesentlichen funktionellen Veränderungen der CD4+CD25+ Tregs. In Abwesenheit von Galectin-10 verlieren humane CD4+CD25+ Tregs ihre suppressiven Eigenschaften und ihren anergischen Phänotyp. Somit konnte mit Galectin-10 erstmals ein spezifischer Marker für humane CD4+CD25+ Tregs identifiziert werden, der wesentlich für den funktionellen Phänotyp dieser Regulatoren peripherer T-Zelltoleranz ist.

Inhibierung des IL-17A vermittelten Blut-Hirnschrankenversagens in experimenteller Autoimmunenzephalomyelitis (EAE) und Mikrogliaaktivierung durch IL-17A

Experimentelle Autoimmunenzephalomyelitis (EAE) ist das Tiermodell für Multiple Sklerose (MS). Es ist bekannt, dass das proinflammatorische Zytokin IL-17A eine wichtige Rolle in MS und EAE spielt. Dieses wird hauptsächlich von einer Subpopulation der T-Helferzellen (Th17 Zellen) exprimiert. Es war bekannt, dass diese am Zusammenbruch der Blut-Hirnschranke (BHS) beteiligt sind. Der Integritätsverlust der BHS ist ein wichtiger und früher Aspekt in der Pathogenese von EAE und MS. Daraufhin können Immunzellen in das zentrale Nervensystem (ZNS) eindringen. Spezifische T-Zellen greifen das Myelin an und führen so zu einer Entzündungsreaktion, Demyelinisierung und axonalem Schaden. In dieser Arbeit konnte ich zeigen, dass durch Hemmung des kontraktilen endothelialen Apparates das BHS Versagen vermindert werden kann und es dadurch zu einem milderen Verlauf der EAE Pathogenese kommt. Wird der Inhibitor der Myosinleichtkettenkinase ML-7 C57/bl6 Mäusen, bei denen EAE induziert wurde, intraperitoneal verabreicht, kommt es zu einem geringeren Phosphorylierungsgrad der leichten Kette des Myosins in Endothelzellen und folglich zu einem verringerten Schrankenversagen. Außerdem konnte ich zeigen, dass weniger reaktive Sauerstoffspezies (ROS) gebildet werden. Folglich kommt es zu einer geringeren Infiltration von Immunzellen aus der Peripherie in das ZNS. Somit werden weniger Zytokine und auch Matrixmetalloproteinasen (MMP) ausgeschüttet, wodurch die Entzündungsreaktion weniger stark ausgeprägt ist. Außerdem werden weniger Mikrogliazellen aktiviert. Ich habe den Zusammenhang zwischen Mikrogliazellaktivierung und IL-17A näher untersucht. Dieses proinflammatorische Zytokin aktiviert Mikrogliazellen auch in vitro. Durch IL-17A Stimulation kommt es zur vermehrten ROS Bildung. Folglich kommt es zu einer vermehrten Proliferation und Migration, sowie einer erhöhten Zytokinproduktion. Außerdem konnte ich zeigen, dass der N-Methyl-D-Aspartat (NMDA)-Rezeptor an der Mikrogliaaktivierung beteiligt ist. Abhängig von IL-17A Stimulation kommt es zu einem Kalziumeinstrom über den NMDA-Rezeptor. Werden Inhibitoren des NMDA-Rezeptors eingesetzt, können IL-17A vermittelte Proliferation, Migration, Zytokin-und ROS-Produktion verhindert werden. Der NMDA-Rezeptor ist sehr gut in Neuronen erforscht, wohingegen bisher sehr wenig über seine Funktion in Gliazellen bekannt war. In dieser Arbeit ist es mir gelungen einen Zusammenhang zwischen IL-17A vermittelter Mikrogliaaktivierung und Kalziumeinstrom über den NMDA-Rezeptor herzustellen.

Regulatory T cell-mediated suppression of Th9 cell development and effector function

T helper (Th) 9 cells are an important subpopulation of the CD4+ T helper cells. Due to their ability to secrete Interleukin-(IL-)9, Th9 cells essentially contribute to the expulsion of parasitic helminths from the intestinal tract but they play also an immunopathological role in the course of asthma. Recently, a beneficial function of Th9 cells in anti-tumor immune responses was published. In a murine melanoma tumor model Th9 cells were shown to enhance the anti-melanoma immune response via the recruitment of CD8+ T cells, dendritic cells and mast cells. In contrast to Th9 effector cells regulatory T cells (Tregs) are able to control an immune response with the aid of different suppressive mechanisms. Based on their ability to suppress an immune response Tregs are believed to be beneficial in asthma by diminishing excessive allergic reactions. However, concerning cancer they can have a detrimental function because Tregs inhibit an effective anti-tumor immune reaction. Thus, the analysis of Th9 suppression by Tregs is of central importance concerning the development of therapeutic strategies for the treatment of cancer and allergic diseases and was therefore the main objective of this PhD thesis.rnIn general it could be demonstrated that the development of Th9 cells can be inhibited by Tregs in vitro. The production of the lineage-specific cytokine IL-9 by developing Th9 cells was completely suppressed at a Treg/Th9 ratio of 1:1 on the transcriptional (qRT-PCR) as well as on the translational level (ELISA). In contrast, the expression of IRF4 that was found to strongly promote Th9 development was not reduced in the presence of Tregs, suggesting that IRF4 requires additional transcription factors to induce the differentiation of Th9 cells. In order to identify such factors, which regulate Th9 development and therefore represent potential targets for Treg-mediated suppressive mechanisms, a transcriptome analysis using “next-generation sequencing” was performed. The expression of some genes which were found to be up- or downregulated in Th9 cells in the presence of Tregs was validated with qRT-PCR. Time limitations prevented a detailed functional analysis of these candidate genes. Nevertheless, the analysis of the suppressive mechanisms revealed that Tregs probably suppress Th9 cells via the increase of the intracellular cAMP concentration. In contrast, IL-9 production by differentiated Th9 cells was only marginally affected by Tregs in vitro and in vivo analysis (asthma, melanoma model). Hence, Tregs represent very effective inhibitors of Th9 development whereas they have only a minimal suppressive influence on differentiated Th9 cells.rn

Improving adoptive T cell therapies of cancer by ectopic expression of miR181a to repress inhibitory phosphatases

Adoptive T cell therapy using antigen-specific T lymphocytes is a powerful immunotherapeutic approach against cancer. Nevertheless, many T cells against tumor-antigens exhibit only weak anti-tumoral response. To overcome this barrier it is necessary to improve the potency and anti-tumoral efficacy of these T cells. Activation and activity of T cells are tightly controlled to inhibit unwanted T cell responses and to reduce the risk of autoimmunity. Both are regulated by extrinsic signals and intrinsic mechanisms which suppress T cell activation. The intrinsic mechanisms include the expression of phosphatases that counteract the activation-inducing kinases. Modifying the expression of these phosphatases allows the targeted modulation of T cell reactivity. MicroRNAs (miRNAs) are regulatory small noncoding RNA molecules that control gene expression by targeting messenger RNAs in a sequence specific manner. Gene-specific silencing plays a key role in diverse biological processes, such as development, differentiation, and functionality. miR181a has been shown to be highly expressed in immature T cells that recognize low-affinity antigens.rnThe present study successfully shows that ectopic expression of miR181a is able to enhance the sensitivity of both murine and human T cells. In CD4+ T helper cells as well as in CD8+ cytotoxic T cells the overexpression of miR181a leads to downregulation of multiple phosphatases involved in the T cell receptor signaling pathway. Overexpression of miR181a in human T cells achieves a co-stimulatory independent activation and has an anti-apoptotic effect on CD4+ T helper cells. Additionally, increasing the amount of miR181a enhances the cytolytic activity of murine CD8+ TCRtg T cells in an antigen-specific manner.rnTo test miR181a overexpressing T cells in vivo, a mouse tumor model using a B cell lymphoma cell line (A20-HA) expressing the Influenza hemagglutinin (Infl.-HA) antigen was established. The expression of model antigens in tumor cell lines enables targeted elimination of tumors using TCRtg T cells. The transfer of miR181a overexpressing Infl.-HA TCRtg CD8+ T cells alone has no positive effect neither on tumor control nor on survival of A20-HA tumor-bearing mice. In contrast, the co-transfer of miR181a overexpressing Infl.-HA TCRtg CD8+ and CD4+ T cells leads to improved tumor control and prolongs survival of A20-HA tumor-bearing mice. This effect is characterized by higher amounts of effector T cells and the expansion of Infl.-HA TCRtg CD8+ T cells.rnAll effects were achieved by changes in expression of several genes including molecules involved in T cell differentiation, activation, and regulation, cytotoxic effector molecules, and receptors important for the homing process of T cells in miR181a overexpressing T cells. The present study demonstrates that miR181a is able to enhance the anti-tumoral response of antigen-specific T cells and is a promising candidate for improving adoptive cell therapy.

Specific secretory phase endometrial leukocytes of women with two and more consecutive idiopathic abortions are not significantly different from healthy controls

OBJECTIVE: To analyze concentrations of endometrial leukocytes in patients with idiopathic-repeated abortions. MATERIALS AND METHODS: Biopsies of exactly dated secretory endometrium in 25 patients with idiopathic-repeated abortions and 10 control patients without a history of miscarriage were compared with respect to the concentrations of T-helper cells (CD4), cytotoxic T-cells (CD8), B-cells (CD19) and uterine natural killer cells (CD56) by immunohistochemistry and RNase protection assays. RESULTS: All examined cells were detectable within secretory endometrium. No statistically significant differences of the examined immune-cell concentrations were seen between the control group and the repeated miscarriage group by either test. CONCLUSION: This study suggests that the concentrations of specific endometrial leukocytes in a non-pregnant cycle are not associated with repeated pregnancy loss. Thus, the hypothesis of an altered endometrial immunity in patients with repeated miscarriages, symbolized by persistently differing local immune-cell concentrations, has to be questioned.

Human basophils activated by mast cell-derived IL-3 express retinaldehyde dehydrogenase-II and produce the immunoregulatory mediator retinoic acid

The vitamin A metabolite retinoic acid (RA) plays a fundamental role in cellular functions by activating nuclear receptors. Retinaldehyde dehydrogenase-II (RALDH2) creates localized RA gradients needed for proper embryonic development, but very little is known regarding its regulated expression in adults. Using a human ex vivo model of allergic inflammation by coincubating IgE receptor-activated mast cells (MCs) with blood basophils, we observed prominent induction of a protein that was identified as RALDH2 by mass spectroscopy. RALDH2 was selectively induced in basophils by MC-derived interleukin-3 (IL-3) involving PI3-kinase and NF-kappaB pathways. Importantly, neither constitutive nor inducible RALDH2 expression was detectable in any other human myeloid or lymphoid leukocyte, including dendritic cells. RA generated by RALDH2 in basophils modulates IL-3-induced gene expression in an autocrine manner, providing positive (CD25) as well as negative (granzyme B) regulation. It also acts in a paracrine fashion on T-helper cells promoting the expression of CD38 and alpha4/beta7 integrins. Furthermore, RA derived from IL-3-activated basophils provides a novel mechanism of Th2 polarization. Thus, RA must be viewed as a tightly controlled basophil-derived mediator with a high potential for regulating diverse functions of immune and resident cells in allergic diseases and other Th2-type immune responses.

Impact of the CTLA-4/CD28 axis on the processes of joint inflammation in rheumatoid arthritis

OBJECTIVE: The importance of the costimulatory molecules CD28 and CTLA-4 in the pathologic mechanism of rheumatoid arthritis (RA) has been demonstrated by genetic associations and the successful clinical application of CTLA-4Ig for the treatment of RA. This study was undertaken to investigate the role of the CTLA-4/CD28 axis in the local application of CTLA-4Ig in the synovial fluid (SF) of RA patients. METHODS: Quantitative polymerase chain reaction was used to analyze the expression of proinflammatory and antiinflammatory cytokines in ex vivo fluorescence-activated cell sorted CTLA-4+ and CTLA-4- T helper cells from the peripheral blood and SF of RA patients. T helper cells were also analyzed for cytokine expression in vitro after the blockade of CTLA-4 by anti-CTLA-4 Fab fragments or of B7 (CD80/CD86) molecules by CTLA-4Ig. RESULTS: CTLA-4+ T helper cells were unambiguously present in the SF of all RA patients examined, and they expressed increased amounts of interferon-γ (IFNγ), interleukin-17 (IL-17), and IL-10 as compared to CTLA-4- T helper cells. The selective blockade of CTLA-4 in T helper cells from the SF in vitro led to increased levels of IFNγ, IL-2, and IL-17. The concomitant blockade of CD28 and CTLA-4 in T helper cells from RA SF by CTLA-4Ig in vitro resulted in reduced levels of the proinflammatory cytokines IFNγ and IL-2 and increased levels of the antiinflammatory cytokines IL-10 and transforming growth factor β. CONCLUSION: Our ex vivo and in vitro results demonstrate that the CTLA-4/CD28 axis constitutes a drug target for not only the systemic, but potentially also the local, application of the costimulation blocking agent CTLA-4Ig for the treatment of RA.

Pathophysiology of Hidradenitis suppurativa

Only limited data are available about the precise mechanism leading to tissue inflammation and damage in patients with hidradenits suppurativa (HS). The central pathogenetic event in HS is the occlusion of the upper parts of the hair follicle leading to a perifollicular lympho-histiocytic inflammation. In early lesions, neutrophilic abscess formation and influx of mainly macrophages, monocytes and dendritic cells predominate. In chronic disease, the infiltrate expand with increased frequencies of B cells and plasma cells. In the inflammatory infiltrates toll like receptor 2 (TLR2) was highly expressed by infiltrating macrophages and dendritic cells indicating that stimulation of inflammatory cells by TLR2 activating microbial products may be important trigger factors in the chronic inflammatory process. Furthermore, the pro inflammatory cytokines IL-12 and IL-23 are abundantly expressed by macrophages infiltrating papillary and reticular dermis of HS skin. Both of these cytokines are believed to be important mediators in autoimmune tissue destruction and its blocking by biologics has been shown to be effective in the treatment of psoriasis. Especially IL-23 has been shown to be involved in the induction of a T helper cell subset producing IL-17, therefore, named Th17, which is distinct from the classical Th1/Th2 subsets. In chronic HS lesions IL-17-producing T helper cells were found to infiltrate the dermis. An overexpression of various other cytokines like IL-1beta, CYCL9 (MIG), IL-10 , IL-11 and BLC has been described in HS lesion whereas IL-20 and IL-22 have been shown to be down regulated. Similar to psoriasis also in HS the antimicrobial peptides beta defensin 2 and psoriasin are highly upregulated. This may at least in part explain the clinical finding that HS patients suffer only rarely from skin infections. Taken together the inflammatory reaction leading to HS are only poorly understood, but they show many similarity with other inflammatory reactions as e.g. in psoriasis.

Rapid Sequestration of Leishmania mexicana by Neutrophils Contributes to the Development of Chronic Lesion.

The protozoan Leishmania mexicana parasite causes chronic non-healing cutaneous lesions in humans and mice with poor parasite control. The mechanisms preventing the development of a protective immune response against this parasite are unclear. Here we provide data demonstrating that parasite sequestration by neutrophils is responsible for disease progression in mice. Within hours of infection L. mexicana induced the local recruitment of neutrophils, which ingested parasites and formed extracellular traps without markedly impairing parasite survival. We further showed that the L. mexicana-induced recruitment of neutrophils impaired the early recruitment of dendritic cells at the site of infection as observed by intravital 2-photon microscopy and flow cytometry analysis. Indeed, infection of neutropenic Genista mice and of mice depleted of neutrophils at the onset of infection demonstrated a prominent role for neutrophils in this process. Furthermore, an increase in monocyte-derived dendritic cells was also observed in draining lymph nodes of neutropenic mice, correlating with subsequent increased frequency of IFNγ-secreting T helper cells, and better parasite control leading ultimately to complete healing of the lesion. Altogether, these findings show that L. mexicana exploits neutrophils to block the induction of a protective immune response and impairs the control of lesion development. Our data thus demonstrate an unanticipated negative role for these innate immune cells in host defense, suggesting that in certain forms of cutaneous leishmaniasis, regulating neutrophil recruitment could be a strategy to promote lesion healing.

T-cell reprogramming through targeted CD4-coreceptor and T-cell receptor expression on maturing thymocytes by latent Circoviridae family member porcine circovirus type 2 cell infections in the thymus

Although porcine circovirus type 2 (PCV2)-associated diseases have been evaluated for known immune evasion strategies, the pathogenicity of these viruses remained concealed for decades. Surprisingly, the same viruses that cause panzootics in livestock are widespread in young, unaffected animals. Recently, evidence has emerged that circovirus-like viruses are also linked to complex diseases in humans, including children. We detected PCV2 genome-carrying cells in fetal pig thymi. To elucidate virus pathogenicity, we developed a new pig infection model by in vivo transfection of recombinant PCV2 and the immunosuppressant cofactor cyclosporine A. Using flow cytometry, immunofluorescence and fluorescence in situ hybridization, we found evidence that PCV2 dictates positive and negative selection of maturing T cells in the thymus. We show for the first time that PCV2-infected cells reside at the corticomedullary junction of the thymus. In diseased animals, we found polyclonal deletion of single positive cells (SPs) that may result from a loss of major histocompatibility complex class-II expression at the corticomedullary junction. The percentage of PCV2 antigen-presenting cells correlated with the degree of viremia and, in turn, the severity of the defect in thymocyte maturation. Moreover, the reversed T-cell receptor/CD4-coreceptor expression dichotomy on thymocytes at the CD4(+)CD8(interm) and CD4SP cell stage is viremia-dependent, resulting in a specific hypo-responsiveness of T-helper cells. We compare our results with the only other better-studied member of Circoviridae, chicken anemia virus. Our data show that PCV2 infection leads to thymocyte selection dysregulation, adding a valuable dimension to our understanding of virus pathogenicity.

AUGMENTATION OF RECONSTITUTION OF GUT ASSOCIATED LYMPHOID TISSUE IN THE SYNGENEIC MURINE BONE MARROW TRANSPLANTATION MODEL

Gut was studied as a prototypical mucosal membrane in the murine BDF-1 syngeneic bone marrow transplant model. Measures of jejunal intraepithelial lymphocytes (IELs) and crypt cells were obtained by standard techniques and a method of quantifying gut lamina propria plasma cells (PCs) was developed. The degree of ablation of gut PCs and IELs after 900 rads total body irradiation with ('60)Co, and their repopulation effected by transplantation with 2.0 x 10('5) or 1.0 x 10('6) bone marrow cells demonstrated a prolonged period of profound depression in population levels of these cells which was not reflected by the extent of damage sustained to the epithelium. Differences in the depopulation and recovery of gut PCs and IELs revealed a tendency towards initial differentiation of effector cells. A positive dose response to high bone marrow cell innocula was obtained. Subsequent studies determined that gut IEL and PC repopulation was potentiated by the addition of IELs or buffy coat cells (BCs) to the bone marrow transplant. A method of isolating 1.4 - 4.0 x 10('7) viable IELs per gram of murine small bowel was devised employing intralumenal hyaluronidase digestion of the epithelial layer and centrifugation of the resulting suspension through discontinuous Percoll gradients. Irradiated mice received 2.0 x 10('5) bone marrow cells along with an equal number of IELs or BCs. The extent and duration of depression of numbers of IELs and PCs was markedly reduced by the addition of the IEL isolate to the transplantation innocula, and to a lesser degree by the addition of BCs. The augmentation of repopuation far exceeded that expected by simple lodging of cells suggesting that the additionally transplanted cells contained a subpopulation of mucosal membrane lymphoid stem cells or helper cells. Correlation analysis of PC versus IEL levels suggests a possible feedback mechanism governing the relative size of their populations. Normal ratios of IgA, IgM, and IgG bearing PCs was maintained post transplantation with all of the regimens. ^

Specific therapy regimes could lead to long-term immunological control of HIV

We use mathematical models to study the relationship between HIV and the immune system during the natural course of infection and in the context of different antiviral treatment regimes. The models suggest that an efficient cytotoxic T lymphocyte (CTL) memory response is required to control the virus. We define CTL memory as long-term persistence of CTL precursors in the absence of antigen. Infection and depletion of CD4+ T helper cells interfere with CTL memory generation, resulting in persistent viral replication and disease progression. We find that antiviral drug therapy during primary infection can enable the development of CTL memory. In chronically infected patients, specific treatment schedules, either including deliberate drug holidays or antigenic boosts of the immune system, can lead to a re-establishment of CTL memory. Whether such treatment regimes would lead to long-term immunologic control deserves investigation under carefully controlled conditions.

An essential role for Bruton's [corrected] tyrosine kinase in the regulation of B-cell apoptosis.

Mutations of the Bruton's tyrosine kinase (btk) gene cause X-linked agammaglobulinemia (XLA) in humans and X-linked immune deficiency (Xid) in mice. To establish the BTK role in B-cell activation we examined the responses of wild-type and Xid B cells to stimulation through surface IgM and CD40, the transducers of thymus independent-type 2 and thymus-dependent activation, respectively. Wild-type BTK was necessary for proliferation induced by soluble anti-IgM (a prototype for thymus independent-type 2 antigen), but not for responses to soluble CD40 ligand (CD40L, the B-cell activating ligand expressed on T-helper cells). In the absence of wild-type BTK, B cells underwent apoptotic death after stimulation with anti-IgM. In the presence of wild-type but not mutated BTK, anti-IgM stimulation reduced apoptotic cell death. In contrast, CD40L increased viability of both wild-type and Xid B cells. Importantly, viability after stimulation correlated with the induced expression of bcl-XL. In fresh ex vivo small resting B cells from wild-type mice there was only barely detectable bcl-XL protein, but there was more in the larger, low-density ("activated") splenic B cells and peritoneal B cells. In vitro Bcl-XL induction following ligation of sIgM-required BTK, was cyclosporin A (CsA)-sensitive and dependent on extracellular Ca2+. CD40-mediated induction of bcl-x required neither wild-type BTK nor extracellular Ca2+ and was insensitive to CsA. These results indicate that BTK lies upstream of bcl-XL in the sIgM but not the CD40 activation pathway. bcl-XL is the first induced protein to be placed downstream of BTK.