Fate of H2-activated T lymphocytes in syngeneic hosts. III. Differentiation into long-lived recirculating memory cells.

Memory to H2 determinants was studied with an adoptive transfer system using a population of H2-activated blast T cells (T.TDL) obtained from thoracic duct lymph of irradiated F₁ hybrid mice injected with parental strain T cells. CBA T.TDL activated either to DBA/2 or C57BL determinants were transferred to syngeneic “B” mice. Thoracic duct lymphocytes (TDL) were obtained from the recipients 4–6 weeks later and tested for their capacity to produce (a) a graft-versus-host (GVH) reaction, (b) a mixed lymphocyte reaction (MLR) (measured by an in vivo technique) and (c) allograft rejection (suppression of the growth of allogeneic tumour cells in vivo). Control experiments involved testing the function of TDL obtained from “B” mice preinjected with TDL or no cells.TDL from “B” mice injected with TDL (passaged TDL) gave strong MLR and GVH reactions to both DBA/2 and C57BL determinants. Passaged T.TDL activated to C57BL antigens gave intermediate MLR and GVH reactions to the specific (C57BL) determinants but only very low responses to third-party (DBA/2) determinants; reciprocal results were obtained with passaged T.TDL activated to DBA/2 determinants. TDL from “B” mice given no cells failed to respond to either set of determinants.Since the responses by the passaged T.TDL did not exceed those by passaged TDL there was no evidence that adoptive transfer of T.TDL had conferred to the recipients a state of memory to either MLR or GVH determinants. Adoptive transfer did, however, lead to qualitative changes in the properties of T.TDL since, before transfer, they were unable to evoke GVH reactions or produce an MLR of normal kinetics.Passaged T.TDL were far superior to passaged TDL at suppressing the growth of allogeneic tumour cells. The protection was specific since protection against DBA/2 tumour cells was, cell for cell, 5–10 fold more effective with passaged T.TDL activated to DBA/2 determinants than with cells activated to C57BL determinants. No protection was observed with cells treated with anti-θ serum. The protective cells appeared to be precursors of effector cells rather than effector cells per se since they failed to lyse the tumour cells in vitro. These data suggest therefore that the descendants of T.TDL which survived after transfer to “B” mice were highly enriched in long-lived recirculating T lymphocytes reactive to determinants expressed by specific tumour allografts.     

The protective capacities of fractionated immune thoracic duct lymphocytes against Nippostrongylus brasiliensis

Thoracic duct lymphocytes (TDL) obtained from rats either on the tenth day of a primary infection (Day 10 TDL) or 1 or 5 weeks after a tertiary infection (hyperimmune TDL) with Nippostrongylus brasiliensis were fractionated into cells lacking (sIg^?) or bearing (sIg⁺) surface immunoglobulin by a rosetting procedure. The abilities of unfractionated TDL, of the two subpopulations, and of the reconstituted cells to confer protection against the parasite were examined. The effector cells which cause worm expulsion were found only in (sIg^?) cells from Day 10 TDL and also predominantly in (sIg^?) cells from hyperimmune TDL. However, a small but significant degree of protection was conferred by (sIg⁺) cells from hyperimmune TDL. These results suggest that the mechanisms involved in worm expulsion are regulated by (sIg^?) cells but that (sIg⁺) cells from hyperimmune rats can also contribute to the mechanisms of worm expulsion.     

Immunity to the protozoan parasite Eimeria nieschulzi in inbred CD-F rats

Immunity to the coccidial parasite, Eimeria nieschulzi, in CD-F rats was assessed by the numbers of oocysts shed in relation to the time after inoculation. Intravenous injections of syngeneic thoracic duct lymphocytes (TDL) from immunized rats elicited various degrees of adoptive immunity against primary infections of E. nieschulzi. Of the 16 rats injected with 10⁹ sensitized TDL, 7 were totally immune to a subsequent challenge by the parasite. This number of injected TDL also raised the serum antibody level to that of immune rats. Contact with immune TDL was deleterious to sporozoites of E. nieschulzi in vitro and produced immunocytoadherence of parasite to cell.     

PDK1对生发中心的生成、发育及功能的影响

目的:研究PDK1对生发中心(GC)的生成、发育及其功能的影响。方法:通过配种小鼠得到在GC B细胞中特异性敲除PDK1的小鼠,然后采用共聚焦显微镜观察小鼠脾脏GC的大小,多色流式细胞分析方法观测PDK1的敲除是否会影响小鼠B细胞的发育,ELISA技术检测PDK1敲除的小鼠经免疫后其体内产生抗体的能力是否受影响,结合平面脂双层抗原呈递系统及全内反射荧光显微镜成像系统(TIRFM)观测PDK1的敲除是否会影响小鼠脾脏IgG细胞P85的磷酸化水平。结果:PDK1的缺失并不会影响小鼠B细胞的发育,细胞群中成熟与不成熟B细胞所占比例均无显著性变化,但在GC B细胞中条件性敲除PDK1会影响小鼠脾脏GC的生成以及T细胞依赖性抗原免疫反应,而且同等条件活化后,GC B细胞中条件性敲除PDK1的小鼠脾脏IgG细胞其胞内分子P85的磷酸化水平显著降低。结论:PDK1对GC的生成、发育及功能都具有重要作用。     

Modulation of outward K+ conductance is a post-activational event in rat T lymphocytes responsible for the adoptive transfer of experimental allergic encephalomyelitis

Experimental allergic encephalomyelitis (EAE) is an accepted animal model for the human demyelinating disease multiple sclerosis. The continuously propagated line of Lewis rat T helper lymphocytes (GP1 T cells), specific for the encephalitogenic 68–86 sequence of guinea pig myelin basic protein (GPMBP), mediates the adoptive transfer of EAE into normal syngeneic Lewis rats. Because mitogenic activation of T cells can increase K⁺ conductance, this study investigated changes in the outwardly rectifying K⁺ conductance in GP1 T cells following activation with the encephalitogen, GPMBP. Using the gigohm-seal whole-cell variation of the patch clamp technique, GP1 T cells were studied during a 3-day culture with GPMBP and throughout the subsequent 10 days, as cells progressed through both GPMBP-induced activation (EAE transfer activity) and proliferation responses, finally reverting to the resting state. Resting GP1 T cells exhibited peak K⁺ conductances around 2 nS, while GPMBP-induced activation resulted in 5- to 10-fold increases in peak K⁺ conductance, which temporally coincided with the optimal period of EAE transfer activity. During and immediately after the optimal period for EAE transfer, 20-mV depolarizing shifts in the voltage dependence of both activation and inactivation developed, abruptly reversing to resting values as cells reverted to the resting state. Accompanying the depolarizing shifts were a slowing of the K⁺ current activation kinetics and an acceleration of the deactivation kinetics. These results indicate that the K⁺ conductance in GP1 rat T helper cells is modulated over the full time course of GPMBP-induced cellular responses and that K⁺ channels should be optimally available during the period of adoptive EAE transfer, preceding disease manifestation.     

Fate of H2-activated T lymphocytes in syngeneic hosts: II. Residence in recirculating lymphocyte pool and capacity to migrate to allografts

T.TDL—a purified population of lymph-borne H2-activated T lymphocytes—were transferred to syngeneic mice to examine their capacity to remain in the recirculating lymphocyte pool (RLP). Experiments with cells labelled with ³H-thymidine (³HTdR) or ⁵¹Chromium showed that although a considerable proportion of T.TDL joined the RLP (i.e., were mobilizable through a thoracic duct fistula) for several days after transfer, most of the cells soon left the pool. This applied whether the cells were transferred to normal mice or to “B” mice. Normal thoracic duct lymphocytes, by contrast, joined the RLP for long periods post-transfer.Studies with ³HTdR-labelled T.TDL showed that a small number of heavily labelled cells remained in the RLP for at least 3 months. Experiments with the θ-antigen as a cell marker suggested that a further small proportion of cells underwent division at some stage after transfer and then rejoined the RLP in expanded numbers.T.TDL showed a tendency to home to specific allografts of either skin, tumor cells or lymphoid cells. Although homing was specific it was very limited in extent.     

Treatment of advanced metastasized breast cancer with bone marrow-derived tumour-reactive memory T cells: a pilot clinical study

Background  Breast cancer patients frequently harbour tumour-reactive memory T cells in their bone marrow (BM) but not in the blood. After reactivation ex-vivo these cells rejected autologous breast tumours in xenotransplanted mice demonstrating therapeutic potential upon reactivation and mobilization into the blood. We conducted a clinical pilot study on metastasized breast cancer patients to investigate if ex-vivo reactivation of tumour-reactive BM memory T cells and their adoptive transfer is feasible and increases the frequencies of tumour-reactive T cells in the blood. Methods  The study protocol involved one transfusion of T cells which were reactivated in vitro with autologous dendritic cells pulsed with lysate of MCF7 breast cancer cells as source of tumour antigens. Immunomonitoring included characterization of T cell activation in vitro and of tumour-specific T cells in the blood by interferon (IFN)-γ ELISPOT assay, HLA-tetramers and antigen-induced interleukin (IL)-4 secretion. Results  Twelve patients with pre-existing tumour-reactive BM memory T cells were included into the study. In all cases, the treatment was feasible and well tolerated. Six patients (responders) showed by ELISPOT assay de-novo tumour antigen-specific, IFN-γ-secreting T cells in the blood after 7 days. In contrast, non responders showed in the blood tumour antigen-induced IL-4 responses. All responders received more than 6.5 × 10³ tumour-reactive T cells. In contrast, all non responders received lower numbers of tumour antigen-reactive T cells. This was associated with reduced activation of memory T cells in activation cultures, increased amounts of CD4⁺ CD25^high regulatory T cells in the BM and increased tumour antigen-dependent IL-10 secretion. The latter was prevented by preceding depletion of regulatory T cells suggesting that regulatory T cells in the BM can inhibit reactivation of tumour-specific T cells. Conclusion  Taken together, adoptive transfer of ex-vivo re-stimulated tumour-reactive memory T cells from BM of metastasized breast cancer patients can induce the presence of tumour antigen-reactive type-1 T cells in the peripheral blood. Florian Schuetz and Katrin Ehlert contributed equally to the study.     

Antigenic markers on mouse lymphoid cells: origin of cells mediating immunologic memory

Specific antisera were used for the purification of thymus dependent and thymus independent or bursa equivalent lymphoid cells in the mouse. Spleen cells from mice immune to sheep erythrocytes, a thymus dependent antigen, or to E. coli 055:B5 lipopolysaccharide, a thymus independent antigen, were treated with anti-θ (C3H) serum or anti-MBLA serum and complement prior to their adoptive transfer into lethally irradiated syngeneic recipients. Syngeneic thymocytes, bone marrow cells, or spleen cells from nonimmune donors were appropriately added to antiserum treated cells prior to transfer. The secondary response to these antigens was assayed in recipient spleens six days after cell transfer. The kinetics of the primary response to SRBC was investigated as to its effect on origin of specific hyper-reactive T or B lymphoid cells.The adoptive response to CPS originated in the B lymphoid cell population. Immunologic memory to CPS was demonstrated in recipients of immune cells, compared to recipients of normal cells, by a five fold increase in antibody forming cells.The IgM and IgG adoptive immune response to high doses of SRBC depended upon an increased number of specifically hyper-reactive T-lymphoid cells to facilitate cooperation between T and B lymphocytes. High doses of SRBC initially stimulated T cell memory but at 42 days after priming an increased number of specifically hyper-reactive B lymphoid cells were present.     

Transfusion induces blood donor-specific suppressor cells

Transfusion with blood from the organ donor before transplantation can prolong the survival of renal allografts in the rat. To determine if the beneficial effect of preoperative blood transfusion was due to the generation of donor-specific suppressor cells, in vivo and in vitro adoptive transfer experiments were performed. Lymphoid cells were harvested from transfused and untreated rats. These cells were then either (1) transferred to lightly irradiated (200 R) syngeneic hosts which were subsequently challenged with a kidney allograft (in vivo assay) or (2) titrated as regulator cells into naive unidirectional MLC such that the regulator and responder populations were syngeneic. In the LEW-RT1 to DA-RT1av1 strain combination, the adoptive transfer of thoracic duct lymph (TDL) or lymph node (LN) cells (5 x 10(7) to 7.5 x 10(7) cells) from DA animals transfused with LEW blood, 7 days previously into syngeneic (DA), lightly irradiated (200 R) hosts resulted in the indefinite survival of LEW kidney allografts. The phenomenon was blood donor-specific and dose-dependent. In contrast the adoptive transfer of spleen cells (10(7) to 10(8] from blood transfused hosts 7 days after transfusion had no effect on renal allograft survival. In vitro the addition of LN or TDL regulator cells, harvested from DA rats transfused with LEW blood, to a unidirectional MLC (DA responders, LEW stimulators) resulted in a significant depression of the proliferative response when compared with the proliferation of these same cells without the addition of these regulator cells or with the addition of LN or TDL regulator cells from a DA rat transfused with third party (PVG-RT1c) blood. The depression of the proliferative response observed in vitro, was blood donor specific. When LN or TDL regulator cells from a DA rat transfused with PVG-RT1c blood were added to a unidirectional MLC between DA responders and PVG stimulators, a significant depression in the proliferative response was observed. These in vitro findings were confirmed in two other strain combinations (LEW-PVG, and DA-PVG). Thus a single blood transfusion results in the induction of donor-specific suppressor cells detectable both in vivo and in vitro 7 days after transfusion in some but not all lymphoid compartments.     

Alterations in the Immunogenic Properties of Sheep Erythrocytes by Sonic Disruption

A solubilized sheep red blood cell (SRBC) antigen (supernatant fraction obtained by centrifuging 10^7-2 × 10⁸ sonicated SRBC at 6 × 10⁴ g for 30 min [Sup-SRBC]), whose ability to inhibit anti-SRBC plaque formation was 70% of that of the original sonicated SRBC, was unable to elicit a detectable antibody response in either unprimed or SRBC-primed mice. However, Sup-SRBC as well as intact SRBC antigens generated memory for the secondary response, which was transferable to irradiated syngeneic recipients by injection of immune spleen cells. The memory generated by Sup-SRBC involved helper memory for anti-trinitrophenyl group (TNP) response to challenge with TNP-conjugated SRBC. Increase in the helper T cell memory in the spleens of Sup-SRBC-primed mice was also demonstrated by an in vitro culture experiment and by an adoptive cell transfer experiment. In contrast, no detectable B cell memory was generated by Sup-SRBC. Repeated stimulation with Sup-SRBC never induced significant antibody response but reduced the level of memory. A single injection of a low dose (10⁶) of SRBC also failed to induce a definite primary antibody response generating memory for the secondary response. However, repeated stimulation with this dose of SRBC induced a high antibody response and generated good memory. From these results it is suggested that the intact structure of SRBC is required for the activation of B cells, but is not necessary for the stimulation of T cells.     

Homing of germinal-center cells into germinal centers of lymph node via afferent lymphatics

Summary Affinity of lymphoid cells for the microenvironment of germinal centers (GC), as detectable in transfer experiments by rapid homing in spleen GC from the blood, is a capacity expressed by only a subset of lymphoid cells, in particular by those constituting a GC. However, when introduced into the blood stream, these cells do not home into GC of lymph nodes and gut-associated lymphoid tissues. To investigate further this homing inability for high endothelial venule (HEV)-containing lymphoid tissues, GC cells isolated from donor rabbit appendix were labeled in vitro with ³H-leucine and injected into an afferent lymph vessel of recipient popliteal lymph nodes. Draining lymph nodes were removed 15 min to 24 h after cell administration and prepared for radioautography. For reference, the migration of cells isolated from Peyer's patches and thoracic duct lymph was also studied. By use of appendix GC cells, large numbers of labeled cells were found to migrate into GCs of the outer cortex centripetally, i.e., from the subcapsular sinus through the lymphocyte corona into the GC proper. The same was observed for cells from Peyer's patches, although in smaller numbers. Thoracic duct lymphocytes were only localized in the lymphocyte corona and the deep cortex. Thus, appendix GC cells and a subpopulation of cells from Peyer's patches can reach lymph node GC, but only when administered intralymphatically. We conclude that cells expressing affinity for the GC microenvironment do so for both spleen and lymph node GC, but do not have the capacity to interact with the wall of HEV; its implication for the understanding of the dynamics of a GC reaction is discussed.Abbreviations GC germinal center - GCC germinal-center cells - AGCC appendix germinal-center cells - GCPC germinal-center precursor cells - GCSC germinal-center seeking cells - HEV high endothelial venules - SRBC sheep red blood cells - PP Peyer's patch - TDL thoracic duct lymphocytes - NCS newborn calf serum - PBS phosphate-buffered saline - PNA peanut agglutinin - LN lymph node - LC lymphocyte corona - DC deep cortex unit     

Induction of Mouse Melioidosis with Meningitis by CD11b+ Phagocytic Cells Harboring Intracellular B. pseudomallei as a Trojan Horse

Background

Approximately 3–5% of patients with melioidosis manifest CNS symptoms; however, the clinical data regarding neurological melioidosis are limited.

Methods and Findings

We established a mouse model of melioidosis with meningitis characterized by neutrophil infiltration into the meninges histologically and B. pseudomallei in the cerebrospinal fluid (CSF) by bacteriological culturing methods. As the disease progresses, the bacteria successively colonize the spleen, liver, bone marrow (BM) and brain and invade splenic and BM cells by days 2 and 6 post-infection, respectively. The predominant cell types intracellularly infected with B. pseudomallei were splenic and BM CD11b⁺ populations. The CD11b⁺Ly6C^high inflamed monocytes, CD11b⁺Ly6C^low resident monocytes, CD11b⁺Ly6G⁺ neutrophils, CD11b⁺F4/80⁺ macrophages and CD11b⁺CD19⁺ B cells were expanded in the spleen and BM during the progression of melioidosis. After adoptive transfer of CD11b populations harboring B. pseudomallei, the infected CD11b⁺ cells induced bacterial colonization in the brain, whereas CD11b⁻ cells only partially induced colonization; extracellular (free) B. pseudomallei were unable to colonize the brain. CD62L (selectin) was absent on splenic CD11b⁺ cells on day 4 but was expressed on day 10 post-infection. Adoptive transfer of CD11b⁺ cells expressing CD62L (harvested on day 10 post-infection) resulted in meningitis in the recipients, but transfer of CD11b⁺ CD62L-negative cells did not.

Conclusions/Significance

We suggest that B. pseudomallei-infected CD11b⁺ selectin-expressing cells act as a Trojan horse and are able to transmigrate across endothelial cells, resulting in melioidosis with meningitis.     

Fate of H2-activated T lymphocytes in syngeneic hosts. I. Fate in lymphoid tissues and intestines traced with 3H-thymidine, 125I-deoxyuridine and 51chromium.

Information was sought on the fate of T cells activated to H2 determinants in vivo. The cells were obtained from thoracic duct lymph of irradiated F₁ mice injected with parental strain T cells. The fate of the lymph-borne cells—nearly all of which were donor-cell-derived, host-reactive T blasts (T.TDL)—was studied by labelling the cells with either ³HTdR, ¹²⁵IUdR or ⁵¹Cr and transferring them to syngeneic mice.A large proportion of T.TDL (20%) homed to the intestines on transfer. In the small intestine 40% of the cells were located in Peyer's patches; this was lower than with normal TDL (>70%) but higher than with a population of B (θ-negative) blasts (<10%). Some T.TDL were situated within the surface epithelium of the gut. Studies with ⁵¹Cr-labelled cells suggested that a proportion of these cells entered the gut lumen.T.TDL also homed to the large intestine but only when derived from a small inoculum of T cells. T.TDL derived from a large dose of T cells homed preferentially to the small intestine; in this respect they resembled B blasts.Homing to the intestines seemed a general property of T cells activated to transplantation antigens. It was observed irrespective of whether the T.TDL were activated against H2 determinants, M-locus determinants or H2-plus M-locus determinants.Most T.TDL died in the lymphoid tissues within 1–2 weeks of transfer. This conclusion was derived from comparative studies of (a) autoradiographs prepared from recipients of ³HTdR-labelled T.TDL and TDL and (b) the migratory properties of labelled cells harvested from recipients of ⁵¹Cr-labelled T.TDL, normal TDL and irradiated TDL. Rapid clearance of radioactivity from recipients of T.TDL labelled with ¹²⁵IUdR was consistent with this conclusion. Adequate control experiments with this isotope were not possible, however, because attempts to label long-lived lymphocytes (TDL) with ¹²⁵IUdR were unsuccessful.Studies with a variety of cells labelled with ¹²⁵IUdR indicated that a proportion of the label was excreted via the stomach. In certain situations, e.g., in mice with tied renal vessels, extremely high counts (>40% of the injected counts) appeared in the stomach contents.     

Potassium channel blockers inhibit adoptive transfer of experimental allergic encephalomyelitis by myelin-basic-protein-stimulated rat T lymphocytes

Agents which block T cell K⁺ currents can prohibit both proliferative and effector cell functions in T cells activated by mitogens or phorbol esters. This study examined the effects of some of these blocking agents on the immune responsiveness of guinea pig myelin basic protein (GPMBP)-reactive Lewis rat T lymphocytes, which are capable of mediating the adoptive transfer of experimental allergic encephalomyelitis (EAE), an accepted animal model for multiple sclerosis. Both the proliferative functions (DNA synthesis and cell blastogenesis) and the EAE transfer activities of GPMBP-reactive lymphocytes were examined following GPMBP-induced activation in the presence of agents shown to block the outwardly rectifying K⁺ current in these cells. At concentrations which completely inhibited DNA synthesis, as measured by [³H]thymidine incorporation, and cell blastogenesis, tetraethylammonium (TEA), 4-aminopyridine (4-AP) and methoxyverapamil (D600) completely blocked the subsequent adoptive transfer of EAE into naive syngeneic Lewis rats. The concentrations at which these blockers produced a 50% reduction in DNA synthesis were estimated to be 16, 1.6 and 32 µM for TEA, 4-AP and D-600, respectively, which were roughly equivalent to the EC₅₀ to block the K⁺ current. Apamine, a potent Ca²⁺-activated K⁺ channel blocker, at a concentration several orders of magnitude higher than is necessary to block Ca²⁺-activated K⁺ channels, reduced the maximal K⁺ conductance in GPMBP-reactive T cell K⁺ channels by about 20%, but did not alter either [³H]thymidine incorporation or the adoptive transfer of EAE. These results indicate that delayed rectifier K⁺ channel blockers may prevent the activation of GPMBP-reactive T cells, thus prohibiting encephalitogenic effector cell functions.     

Antigen-specific helper activity in serum of mice primed with sheep red cells. I. Definition of the test system and comparison with other systems

An adoptive transfer system is described to measure serum helper activity in the primary antibody response to sheep red blood cells (SRBC). Mice injected with a high dose of cyclophosphamide and reconstituted with rabbit anti-thymocyte serum-treated spleen cells were used as recipients. Serum obtained 9 hr after ip injection of normal mice with 2 × 10⁸ SRBC (S(SRBC)) injected i.v. in the recipients caused a significant enhancement of the antibody response to 2 × 10⁷ SRBC. The serum helper activity was not generated in thymectomized animals and could be absorbed from S(SRBC) by normal and formalinized SRBC. The SRBC-specific serum helper activity (SSHA) is heat labile (30 min 56 °C) and shows allogeneic restriction. Another test system described in literature for measuring T-cell help in vivo was less suited to measure SSHA in the response to 2 × 10⁷ SRBC. A system using normal mice injected with 10⁵ SRBC for determining specific immune response-enhancing factor (SIREF), demonstrated SIREF activity in S(SRBC). It did, however, not measure SSHA, as absorption of S(SRBC) with formalinized SRBC did not abolish the activity in that system.     

Assessing the Development of Murine Plasmacytoid Dendritic Cells in Peyer's Patches Using Adoptive Transfer of Hematopoietic Progenitors

This protocol details a method to analyze the ability of purified hematopoietic progenitors to generate plasmacytoid dendritic cells (pDC) in intestinal Peyer''s patch (PP). Common dendritic cell progenitors (CDPs, lin^- c-kit^lo CD115⁺ Flt3⁺) were purified from the bone marrow of C57BL6 mice by FACS and transferred to recipient mice that lack a significant pDC population in PP; in this case, Ifnar^-/- mice were used as the transfer recipients. In some mice, overexpression of the dendritic cell growth factor Flt3 ligand (Flt3L) was enforced prior to adoptive transfer of CDPs, using hydrodynamic gene transfer (HGT) of Flt3L-encoding plasmid. Flt3L overexpression expands DC populations originating from transferred (or endogenous) hematopoietic progenitors. At 7-10 days after progenitor transfer, pDCs that arise from the adoptively transferred progenitors were distinguished from recipient cells on the basis of CD45 marker expression, with pDCs from transferred CDPs being CD45.1⁺ and recipients being CD45.2⁺. The ability of transferred CDPs to contribute to the pDC population in PP and to respond to Flt3L was evaluated by flow cytometry of PP single cell suspensions from recipient mice. This method may be used to test whether other progenitor populations are capable of generating PP pDCs. In addition, this approach could be used to examine the role of factors that are predicted to affect pDC development in PP, by transferring progenitor subsets with an appropriate knockdown, knockout or overexpression of the putative developmental factor and/or by manipulating circulating cytokines via HGT. This method may also allow analysis of how PP pDCs affect the frequency or function of other immune subsets in PPs. A unique feature of this method is the use of Ifnar^-/- mice, which show severely depleted PP pDCs relative to wild type animals, thus allowing reconstitution of PP pDCs in the absence of confounding effects from lethal irradiation.     

Induction of HLA-unrestricted and HLA-class-II-restricted cytotoxic T lymphocytes against MUC-1 from patients with colorectal carcinomas using recombinant MUC-1 vaccinia virus

We recently reported that immunization with a recombinant MUC-1 vaccinia virus (rVMUC-1) protected C57BL/6 mice from challenge with DF3/MUC-1-positive syngeneic tumors. To elucidate whether anti-MUC-1 tumor immunity, especially MUC-1-specific cytotoxic T lymphocytes (CTI), can be induced in cancer patients by rVMUC-1, we stimulated the peripheral blood lymphocytes from patients with DF3/MUC-1⁺ or DF3/MUC-1 colon carcinomas using the autologous monocytes infected with rVMUC-1 (rVAMN). The stimulated T lymphocytes from two patients with DF3/MUC-1-positive colorectal carcinomas (rVPY+T and rVPW+T) demonstrated HLA-unrestricted cytotoxicity against MUC-1, whereas those from the patient with DF3/MUC-1-negative colon carcinoma (rVPA-T) did not. The HLA-unrestricted cytotoxicity was demonstrated by the CD8⁺ T cells possibly recognizing an epitope present on the tandem repeats. Adoptive immunotherapy who performed three times with patient PY, at 4-week intervals. The adoptive transfer of the first stimulated lymphocytes, demonstrating a high level of HLA-unrestricted cytotoxicity against MUC-1, resulted in the significant reduction of the liver metastasis of patient PY. However, HLA-unrestricted cytotoxicity against MUC-1 was extremely reduced at the second transfer and finally eliminated at the third, whereas the CD4⁺ T cells demonstrating HLA-class-II-restricted cytotoxicity against MUC-1 predominantly proliferated at the third adoptive immunotherapy treatment. The liver metastasis and the serum levels of tumor markers (carcinoembryonic antigen CA19-9) demonstrated a rapid and marked increment after the second transfer and especially after the third. These results suggest that the HLA-unrestricted cytotoxic CD8⁺ T cells against MUC-1, induced in patients with DF3/MUC-1⁺ colorectal carcinomas using rVMUC-1, correlate with the antitumor activity in vivo. Received: 22 October 1997 / Accepted: 24 April 1998     

Induction of tumor immunity by intact irradiated leukemic B cells (BCL1) bearing a tumor-associated cell-surface idiotype and the costimulatory B7 molecule

The idioptypic (Id) determinant of immunoglobulin expressed on the cell surface of malignant B cells represents a prototypical tumor-associated antigen (TAA), which has been used in a purified soluble form for active immunization in experimental tumor models and human hematological malignancies. Using a spontaneous transplantable murine model of B cell leukemia/lymphoma (BCL1), we have demonstrated the expression of the B7 costimulatory molecules in addition to the previously described Id determinant and class II major histocompatibility antigens. Intact irradiated BCL1 cells bearing these distinct determinants induced long lasting antitumor immunity in naive syngeneic mice. Induction was dose-dependent and most effective when three doses of 30×10⁶ intact irradiated BCL 1 cells were given at intervals of 7–10 days. The induced immunity protected 96% of 28 mice inoculated with a lethal dose of 10⁵–10⁶ nonirradiated BCL1 cells and 85% of 27 mice given a second challenge, whereas control mice died on day 20 after inoculation with 10⁶ BCL1 cells. Adoptive transfer of splenocytes derived from immune mice did not induce leukemia in syngeneic recipients. Such splenocytes, harvested more than 365 days following immunization and administered together with fresh BCL1 cells to adoptive recipients, were able to confer protection for 90 days, even following a second challenge given 104 days after the first one. BCL1 immune splenocytes transferred into BCL1-bearing mice exerted a therapeutic effect, preventing leukemia onset for at least 180 days. Our results demonstrate the ability of tumor cells to trigger effective anti-tumor immunity. These findings could ultimately be applied to the prevention of tumor relapse in treatment of hematological and other malignancies expressing TAA, class II MHC antigen and costimulatory molecules.These studies were supported by grant 942010-B from the Israel Cancer Association     

B-cell suppression of antibody response to sheep red blood cells in mice of high- and low-responding genotypes.

CBA and C57B1 mice (high and low responders to sheep red blood cells, respectively) were injected intravenously with syngeneic lymph node, marrow, spleen, or thymus cells together with sheep red blood cells (SRBC), and the production of antibody-forming cells (AFC) was assayed in the spleen. Transfer of lymph node, marrow, spleen, or thymus cells led to a significant enhancement of immune responsiveness in low-responding C57B1 mice. In contrast, transfer of marrow, lymph node, or spleen cells to high-responding CBA mice was accompanied by a decline in AFC production. These effects were magnified if syngeneic cell donors had been primed with SRBC; suppression in CBA mice and stimulation in C57B1 mice were especially pronounced after transfer of SRBC-primed lymphoid cells. Pretreatment of CBA donors with cyclophosphamide in a dose causing selective B-cell depletion completely abrogated the suppression of immune responsiveness. A large dose (10⁷) of syngeneic B cells injected together with SRBC suppressed the accumulation of AFC in both CBA and C57B1 mice. No suppression of immune responsiveness was observed after transfer of intact thymus cells, hydrocortisone-resistant thymocytes, or activated T cells. We conclude that suppression of the immune response to SRBC is induced by B cells. At the same time, there is a possibility that the addition of “excess” B cells acts as a signal, triggering suppressor T cells.