Effects of prostaglandin F2alpha and progesterone on the ability of bovine luteal cells to stimulate T lymphocyte proliferation

Bovine luteal cells express class I and II major histocompatibility complex molecules and stimulate T lymphocyte proliferation in vitro. Proliferation of T lymphocytes is greater in cocultures of luteal cells and T lymphocytes collected following administration of a luteolytic dose of prostaglandin (PG) F2alpha to the cow. Whether this results from changes in luteal cells that increase their ability to stimulate T lymphocyte proliferation or from changes in T lymphocytes that enhance their ability to respond to luteal cells is unclear. To determine which is the case, luteal cell-T lymphocyte cocultures were performed using luteal cells and T lymphocytes isolated from the same animals before and 8 h after administration of PGF2alpha. In the presence of T lymphocytes collected before PGF2alpha administration, luteal cells isolated after PGF2alpha were more potent stimulators of T lymphocyte proliferation than were luteal cells collected before PGF2alpha (P<0.05). The effect of progesterone on luteal cell-stimulated T lymphocyte proliferation was also evaluated. Proliferation of T lymphocytes was greater (P<0.05) in cultures containing the cytochrome P450 side-chain cleavage enzyme-inhibitor aminoglutethimide. Exogenous progesterone caused a dose-dependent inhibition of luteal cell-stimulated T lymphocyte proliferation (P<0.05). Progesterone-receptor mRNA was undetectable in peripheral blood mononuclear cells collected before and after PGF2alpha administration, indicating that the effect of progesterone was not mediated via progesterone receptors in lymphocytes. These results imply that specific changes in luteal cells in response to PGF2alpha enhance the ability of these cells to stimulate T lymphocyte proliferation. These results also demonstrate that progesterone can suppress luteal cell-stimulated T lymphocyte proliferation.     

强啡肽A对烫伤大鼠免疫功能的影响

大鼠烫伤后24h血浆强啡肽A(Dyn A)的含量开始降低,120h仍未恢复到对照水平。烫伤后免疫功能也有明显的变化,表现为淋巴细胞转化功能降低,白细胞介素1,2(IL-1,IL-2)生成量减少。其变化过程与血浆Dyn A的变化基本一致。离体条件下,Dyn A与烫伤大鼠的脾淋巴细胞共同培养,可增强淋巴细胞转化及IL-2的生成。静脉注射Dyn A后,烫伤大鼠的淋巴细胞转化功能、IL-1和IL-2的生成都有不同程度的增加。本实验提示,血浆Dyn A水平的降低可能是烫伤大鼠免疫功能低下的原因之一。     

Leishmania major: Secreted antigens of Leishmania major promastigotes shift the immune response of the C57BL/6 mice toward Th2 in vitro

BALB/c mice are sensitive to Leishmaniamajor infection, while C57BL/6 mice are resistant and able to mount an effective immune response against the parasite. Since the secreted antigens of L. major suppress the proliferation of BALB/c mice lymphocytes in vitro, we analyzed their effects on the immune system of resistant C57BL/6 mice. Secreted antigens were semi-purified and two fractions with immunosuppressive activity were isolated. 15 μg/ml of fraction could suppress 60% of lymphocyte proliferation and prevent the stimulated lymphocytes entering from G1 phase into the S phase of the cell cycle. These fractions decreased the production of IFN-γ, increased IL-4 level in the lymphocyte culture and down-regulated the nitric oxide production by activated macrophages. These results may suggest that L. major parasite by secreting immunosuppressive factors could down-regulate the immune system of both sensitive and resistant mice for own survival advantage.     

The differentiation of suppressor cell populations as revealed by studies of the effects of mitogens on the mixed lymphocyte reaction and on the generation of cytotoxic lymphocytes.

The regulation by concanavalin A (Con A) and bacterial lipoloysaccharide (LPS) of the mixed lymphocyte reaction (MLR) and of the generation of cytotoxic lymphocytes (CL) was studied in congenic resistant mice using cortisone resistant thymocytes as the responding cells. LPS enhances the generation of CL selectively when suboptimal numbers of allogeneic cells are present in mixed lymphocyte cultures and also results in the augmentation of the MLR. Mitogenic concentrations of Con A on the other hand suppress the generation of CL regardless of alloantigen dose. The mechanism of suppression cannot be ascribed to the presence of suppressor T cells, since the addition to the cultures of syngeneic cortisone resistant thymocytes activated by Con A does not change the immune response. However, prospective suppressor cells that can be activated by Con A are located in secondary lymphoid organs such as spleen and lymph node. Suppressor activity by those cells is abolished by anti θ plus complement. Con A activated spleen cells suppress the MLR, whereas Con A activated thymocytes amplify the proliferation of responding cells.     

Lymph node, spleen and peripheral blood lymphocytes as stimulators of alloreactivity

Before and after kidney transplantations, in vitro tests that measure the level of reactivity between donor and recipient lymphocytes are performed for better organ selection and as indicator of possible organ rejection. In these tests, donor's and recipient's lymphocytes are stimulated for proliferation, which intensity is measured and accordingly organ recipient reactivity towards graft is determined. Lymph node, spleen and peripheral blood lymphocytes are used for those purposes. For better interpretation of these in vitro tests it should be important to determine mitogenic ability of lymphocytes of different origin and to choose the most adequate cells. To compare mitogenic ability of deceased donor lymph node, spleen and peripheral blood lymphocytes one-way mixed lymphocyte culture (MLC) was used. As stimulators irradiated lymphocytes from spleen, lymph node and peripheral blood samples of 12 deceased donors were used while as responders lymphocytes from peripheral blood of healthy individuals, chosen according HLA-DRB1 alleles (stimulators and responders were HLA-DRB1 identical, semi-identical or different), were used. Spleen lymphocyte activity was the best with different cells and the weakest with identical cells. Impact of polyclonal mitogens (PHA - phytohemagglutinin, Con A - concanavalin A and PWM - pokeweed mitogen) on lymphocyte proliferation was tested on lymphocytes from spleen and lymph node of deceased donors. Results obtained in culture in vitro showed that spleen cells had exerted the best mitogenic potential and PHA had the greatest impact upon lymphocyte proliferation. This investigation is of importance for establishing the best model to reflect in vivo situation in transplanted patient.     

Powerful immunosuppression mediated by interleukin 2-activated, nonantigen-specific, or H-2-restricted THY-1+ CD8+ cells

Normal spleen cells cultured in high or low concentrations of interleukin (IL) 2 for 3 days contain Thy-1+ CD4- CD8+ cells that powerfully suppress primary but not ongoing or active lymphocyte responses. The precursors of these cells are Thy-1+ AGM-1- and are absent or present in greatly diminished numbers in athymic and scid mice. Suppression is neither antigen nor H-2 restricted and apparently results from reversible inactivation of resting lymphocytes. Comparable Thy-1+ CD8+ suppressor cells were also recovered from normal spleen cells cultured for 3 days with anti-CD3 antibody without added IL-2, indicating that these cells can be activated during the course of immune responses. Such cells may prevent local recruitment/activation of lymphocytes specific for new epitopes that may be expressed sequentially by proliferating tumor cells or infectious organisms.     

Fractionation of lymphocyte subpopulations which regulate mixed lymphocyte reactions.

Four days after injection of allogeneic lymphocytes BALB/c splenic T cells suppress proliferation of syngeneic cells in mixed lymphocyte reactions (MLR). Conversely, lymph node cells from the same mice amplify MLR responses. To further characterize these functional subpopulations, alloantigen-primed lymphocyte suspensions from both organs were fractionated by velocity sedimentation at unit-gravity. After fractionation MLR suppressor cells from spleens localized exclusively in rapidlly sedimenting fractions of large cells. MLR suppressor activity of cells from these fractions, as well as that of unfractionated spleen cell suspensions, was abolished by treatment with anti-Thy-1.2 serum and complement. Spleen cell fractions of similar sedimentation velocity also secreted a soluble MLR suppressor into culture supernatants. Although inhibitory of MLR, spleen cells of rapid sedimentation velocity did not suppress responses to T cell mitogens. In marked contrast with the effects of spleen cells, large 4-day-alloantigen-primed lymph node cells had no suppressive activity in MLR. MLR amplifier cells of uncertain derivation were found in fractions of medium sedimentation velocity from both spleens and lymph nodes. Fractionation of alloantigen-primed lymph node cell suspensions did reveal, however, a subpopulation of small cells with MLR suppressor acitivty which was unaffected by treatment with anti-Thy-1 serum and complement. The data thus indicate that large alloantigen-activated lymphocytes are not intrinsically suppressive nor are cells which suppress MLR necessarily large. We consequently conclude that regulation of MLR responses by alloantigen-primed lymphocytes involves a complex interaction between distinct functional subpopulations of cells which are separable both by physical and biologic properties.     

Regulation of T cell activation by TLR ligands

Regulatory T cells (Treg) maintain peripheral tolerance and play a critical role in the control of the immune response in infection, tumor defense, organ transplantation and allergy. CD4(+)CD25(high) Treg suppress the proliferation and cytokine production of CD4(+)CD25(-) responder T cells. The suppression requires cell-cell-contact and/or production of inhibitory cytokines like IL-10 or TGF-β. The current knowledge about the regulation of Treg suppressive function is limited. Toll-like receptors (TLR) are widely expressed in the innate immune system. They recognize conserved microbial ligands such as lipopolysaccharide, bacterial lipopeptides or viral and bacterial RNA and DNA. TLR play an essential role in innate immune responses and in the initiation of adaptive immune responses. However, certain TLR are also expressed in T lymphocytes, and the respective ligands can directly modulate T cell function. TLR2, TLR3, TLR5 and TLR9 act as costimulatory receptors to enhance proliferation and/or cytokine production of T-cell receptor-stimulated T lymphocytes. In addition, TLR2, TLR5 and TLR8 modulate the suppressive activity of naturally occurring CD4(+)CD25(high) Treg. The direct responsiveness of T lymphocytes to TLR ligands offers new perspectives for the immunotherapeutic manipulation of T cell responses. In this article we will discuss the regulation of Treg and other T cell subsets by TLR ligands.     

Monoclonal antibodies that inhibit activation and proliferation of lymphocytes. II. Requisite role of the monoclonal antibody-defined antigen systems in activation and proliferation of human and rat lymphocytes

A murine monoclonal antibody (MoAb) B3 to rat cells and MoAb HBJ127 and HBJ98 to human cells were found previously to recognize the homologous antigen systems (gp130 in the rat and gp125 in the human) which are predominantly distributed on the cell surface of proliferating cells of the respective species, and the expression of the antigen systems in lymphocytes were indicated previously to correlate closely with the activation and proliferation of the lymphocytes. In this respect, the in vitro effects of these MoAb on the nucleic acid synthesis, cell cycles, or proliferation of stimulated rat and human lymphocytes were examined by use of T cell-enriched and B cell-enriched cell populations. The addition of B3 MoAb to cultures diminished Con A-induced or allogeneic mixed lymphocyte culture-induced rat T cell proliferation and lipopolysaccharide-induced rat B cell proliferation, whereas B31 MoAb, which is unreactive with the gp130 antigen, did not inhibit these lymphocyte responses. Similarly, both HBJ127 and HBJ98 MoAb could inhibit the human lymphocyte proliferation in vitro, although HBJ127 MoAb showed about eight times greater inhibitory activity than did HBJ98 MoAb; HBJ127 MoAb almost completely inhibited the DNA synthesis of the Con A-stimulated lymphocytes at concentrations higher than 13 micrograms/ml. The flow cytometric analysis of the cellular nucleic acid contents with acridine orange-stained cells showed that when B3 MoAb and Con A were simultaneously added to unstimulated rat T cells, progression of the cell cycle was blocked at the G0 to G1 transition. In this culture condition, the appearance of the B3-defined antigen was arrested in a moderate level, as determined with fluorescein-stained cells. On the addition of B3 MoAb to the culture of the T cells after 24-hr Con A stimulation, the MoAb also strongly inhibited the cellular DNA synthesis, but it did not arrest the cell cycle at a certain phase and did not modulate the corresponding antigen. These data suggest that the B3 MoAb-defined antigen on the rat lymphocytes and the HBJ127/HBJ98 MoAb-defined antigen on the human lymphocytes may play some requisite roles not only in lymphocyte activation but also in the subsequent progression through the cell cycle to proliferate.     

Cytokine cross-talk between phagocytic cells and lymphocytes: Relevance for differentiation/activation of phagocytic cells and regulation of adaptive immunity

Cytokines represent one of the most important elements in the communication among different cell types. They play an increasingly better understood role in the communication among hematopoietic cells and in particular in the reciprocal regulation of effector cell types of innate or natural resistance (phagocytic cells and Natural Killer (NK) cells) and those of adaptive immunity (T and B lymphocytes). Lymphocytes produce several cytokines with either stimulatory (e.g., colony stimulatory factor) or suppressive (e.g., tumor necrosis factors and interferons) effects on proliferation of early hematopoietic cells. Many of these cytokines, alone or acting in synergistic combinations, also have a differentiation-inducing ability on immature myeloid cells and act as powerful potentiators of the cellular functions of terminally differentiated phagocytic cells. The communication between lymphocytes and phagocytic cells is not unidirectional, as phagocytic cells produce factors that regulate lymphocyte activation. In addition to their role as antigen presenting cells expressing costimulatory accessory molecules and secreting cytokines (e.g., IL-1, IL-6, TNF), phagocytic cells have been recently shown to produce Natural Killer cell Stimulatory Factor (NKSF/IL-12). IL-12 is a heterodimeric cytokine with important modulatory functions on cytotoxicity of NK and T cells, lymphocyte proliferation, lymphokine production, and development of T helper cell subsets. These communications between phagocytic cells and lymphocytes are further regulated by negative and positive feedback mechanisms that contribute to maintain the homeostasis of the system in physiologic conditions and to govern the changes in this equilibrium needed for the response to infectious or other foreign agents.     

电剌大鼠的血清中淋巴细胞转化抑制因子的作用机制分析

Previous reports showed that EA stimulation (3V, 2Hz, 30 min/d, 5 d) induced the production of one or more lymphocyte proliferation-inhibitory factor(s) in the rat serum. In this paper, the mechanisms of the action for the inhibitory factor(s) to suppress lymphocyte proliferation were studied. (1) the lymphocytes from different immune organs of the mice were prepared and cultured with the rat serum stimulated by EA. The results show that the serum not only inhibited the mouse lymph node T cell proliferation induced by Con A, but also inhibited the mouse thymocyte and spleen T cell proliferation induced by Con A. When B cells were stimulated by LPS, the proliferative effect can also be inhibited significantly by the rat serum stimulated by EA. This implies that the effect of the lymphocyte proliferation-inhibitory factor(s) has no specificity. (2) Incubation of the mouse lymph node cell with serum for one hour is enough to cause an inhibitory effect on Con A stimulated lymphocyte proliferation. However, no inhibitory effect was observed if the mouse lymph node cells were incubated with Con A for 15 min or 30 min before the addition of rat serum. The results demonstrate that the lymphocyte proliferation-inhibitory factor(s) act on the early events of T lymphocyte activation induced by Con A. (3) Protein kinase C (PKC) is a key link in the activation of T and B lymphocyte proliferation by Con A and LPS respectively. So it would be interesting to learn whether the inhibitory effect of the lymphocyte proliferation-inhibitory factor(s) is caused by the inhibition of PKC activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Antigenic determinants of T lymphocyte alpha beta receptor and other leukocyte surface proteins as differential markers of skeletal muscle regeneration: detection of spatially and timely restricted patterns by MAM microscopy.

Different stages of human muscle regeneration have been identified by multiple antigen-mapping (MAM) microscopy at the level of a novel marker system. This immunofluorescence method allows the selective imaging of numerous antigen signals from cells or tissue sections. It is shown that 2 monoclonal antibodies (mAbs) against the common region of the alpha beta T lymphocyte antigen receptor (alpha beta and alpha TCR chains) and 3 mAbs against the leukocyte surface antigens Leu8, OKM5 and Leu19 recognize regenerating muscle cells at different time points of regeneration in human muscle sections. Paradoxically, these epitopes are not expressed by T lymphocytes or other mononuclear leukocytes invading regenerating muscle. Hence, presence of the corresponding antigens in muscle fibers may exclude their expression by muscle-invasive immune cells suggesting a function in muscle-specific cell-to-cell recognition. Simultaneous localization of these epitopes in Duchenne dystrophy reveals 10 different phenotypes of regenerating and normal infantile muscle cells due to different developmental stages during the myocyte differentiation. In adult muscle (mitochondrial myopathy) segmental muscle fiber necrosis is accompanied by high concentration of alpha beta/alpha TCR epitopes in the intact fiber ends, which are the target sites of myogenesis. The same sites are invaded by OKM5+ endomysial capillary sprouts that terminate at the tip of the alpha beta/alpha TCR reactive fiber ends. These hitherto unrecognized initial events of segmental muscle regeneration seem to be followed by fragmentation of the invasive capillaries into single endothelial cells, which then switch from the OKM5+ Leu19- through the OKM5+ Leu19+ to the OKM5- Leu19+ phenotype. This cell type exhibits the typical features of Leu19+ myogenic stem cells described earlier. The findings may give rise to a concept of muscle repair, in which the alpha beta/alpha TCR-related antigen, concentrated in fiber stumps, might provide positional information for invading endothelial cells. These cells appear to be a source of myogenic stem cells for regeneration.     

Cholesterol inhibits glutamine metabolism in LLC WRC256 tumour cells but does not affect it in lymphocytes: possible implications for tumour cell proliferation

The effect of cholesterol on proliferation and glutamine metabolism of lymphocytes and tumour cells was investigated. The addition of cholesterol to the culture medium did not cause a significant effect on [2-(14)C]-thymidine incorporation in lymphocytes. In the presence of concanavalin A, lymphocyte proliferation was increased by cholesterol (from 0.013 up to 1.3 microm). At high concentrations (234 and 468 microm), however, a marked inhibition of lymphocyte proliferation occurred. The same inhibitory effect was observed in the presence of lipopolysaccharides. Cholesterol also caused a marked decrease of LLC WRC256 tumour cell growth at 117 and 234 microm. The same findings were obtained by the measurement of [2-(14)C]-thymidine incorporation in these cells. The effect of cholesterol on phosphate-dependent glutaminase activity was then tested in cultured lymphocytes and LLC WRC256 tumour cells. Cholesterol at concentrations of 117 and 234 microm did not alter this enzyme activity in lymphocytes. However, this sterol, already at 26 microm, caused a 44 per cent reduction in glutaminase activity. Similar to the changes observed for glutaminase, cholesterol reduced glutamine oxidation in LLC WRC256 tumour cells, whereas no effect was observed on lymphocytes. Therefore, cholesterol might control lymphocyte and tumour cells proliferation by different mechanisms. The significance of these findings for the immune function in tumour-bearing patients remains to be investigated.     

Phosphatidylserine suppresses antigen-specific IgM production by mice orally administered sheep red blood cells.

Phosphatidylserine is an endogenous acidic phospholipid that has been shown to modulate nervous system function. In the immune system, phosphatidylserine has been shown to suppress T dependent and T independent immune responses after systemic administration of antigen and lipid. However, no studies on the possible regulation by phosphatidylserine on mucosal immunity have been undertaken. Therefore, we studied the action of phosphatidylserine on immunocompetence using orally immunized mice. Mice orally administered phosphatidylserine (25 mg/kg/day) and subsequently intubated intragastrically with sheep red blood cells showed a significant decrease in antigen-specific IgM production by splenic lymphocytes compared with controls. Furthermore, the response of splenic lymphocytes obtained from phosphatidylserine-treated, antigen-primed animals to antigen or pokeweed mitogen in proliferation assays was markedly suppressed, compared with splenic lymphocytes obtained from nontreated, antigen-primed mice. Similarly, splenic lymphocytes from phosphatidylserine-treated, antigen-primed animals cultured in the presence of antigen produced no measurable interleukin 4 and low levels of interleukin 2, whereas splenic lymphocytes from antigen-primed animals produced measurable levels of interleukin 4 and significantly higher levels of interleukin 2. By fluorescence-activated cell sorter analysis, brightly stained B lymphocytes (Ig+) take up a larger portion of phosphatidylserine than do brightly stained T lymphocytes (Thy 1.2+). Collectively, these results point to the immunosuppressive qualities of phosphatidylserine. Given that phosphatidylserine is released upon injury and destruction of eukaryotic cells, these results suggest that phosphatidylserine may be an endogenous anti-inflammatory molecule.     

Antigen handling by guinea pig macrophages: further evidence for the sequestration of antigen relevant for activation of primed T lymphocytes.

Guinea pig macrophages can take up sufficient 2,4 dinitrophenyl guinea pig albumin during a brief in vitro exposure at 37 degrees C to trigger proliferation and lymphokine production with primed T lymphocytes on subsequent co-culture. Treatment of such antigen-bearing macrophages with trypsin, a procedure which removes surface antigen, does not alter the ability of such macrophage to initiate the release of migration inhibition factor from sensitized T lymphocytes. In addition, formation of antigen-specific rosettes between primed T cells and antigen-bearing macrophages is not blocked by high concentrations of antibody directed against the antigen mediating this interaction. Similarly, primed T lymphocyte DNA synthesis induced by antigen-bearing macrophages is not inhibited by specific antibody to that antigen. These data support the conclusion that the fraction of macrophage-associated antigen which is relevant to T lymphocyte activation does not reside on the macrophage surface but rather remains in a restricted compartment from which it is accessible to the T cell but unavailable to either blockade by specific antibody or removal by proteolytic enzymes.     

Cellular immunity in Q fever: modulation of responsiveness by a suppressor T cell-monocyte circuit

Human infection with the rickettsia Coxiella burnetii presents as an acute flulike primary Q fever, as a subacute granulomatous hepatitis, or, rarely, as chronic endocarditis. We have previously described lymphocyte unresponsiveness to Coxiella antigen in patients with Q fever endocarditis. This unresponsiveness was antigen specific and was mediated in part by adherent suppressor cells. In this report we show that the adherent suppressor cells work via prostaglandin E2 (PGE2)4 production. Addition of the cyclooxygenase inhibitor indomethacin to cultures of PBMC from patients with endocarditis or chronic laboratory exposure resulted in consistent increases in Coxiella-specific lymphocyte proliferation. The degree of increase in proliferation induced by indomethacin correlated strongly with the amount of PGE2 produced in a 4-hr culture stimulated by Coxiella antigen, but it also correlated with the sensitivity to inhibition of mitogenesis by PGE2. The suppressor mechanism was antigen nonspecific, because induction of suppression in vitro by Coxiella antigen also suppressed Candida-induced proliferation when both antigens were present in the same culture. Addition of indomethacin to these antigen cocultures totally reversed the Coxiella-induced suppression, confirming the evidence above that the nonspecific effector mechanism of suppression was prostaglandin (PG)-mediated. Elicitation of suppression, however, was antigen specific and involved a T cell-monocyte suppressor circuit. Supernatants from Coxiella-stimulated immune T cells and from the suppressor subset (OKT8+-enriched) of those T cells, but not unstimulated immune cells, induced augmented PGE2 production by unrelated nonimmune PBMC. We conclude that the lymphocyte unresponsiveness characterizing patients with Q fever endocarditis is modulated in part by an antigen-specific T suppressor cell which secretes a lymphokine to stimulate PGE2 production by adherent cells.     

Folate deficiency inhibits the proliferation of primary human CD8+ T lymphocytes in vitro

Folate is required for one-carbon transfer reactions and the formation of purines and pyrimidines for DNA and RNA synthesis. Deficiency of folate can lead to many clinical abnormalities, including macrocytic anemia, cardiovascular diseases, birth defects, and carcinogenesis. The nucleotide imbalance due to folate deficiency causes cell cycle arrest in the S phase and uracil misincorporation into DNA, which may result in DNA double-strand breaks during repair. The role of folate in the immune system has not been fully characterized. We cultured PHA-activated human T lymphocytes in varying concentrations of folate, and measured proliferation, cell cycle, apoptosis, uracil misincorporation, and proportions of Th cells (CD4(+)) and cytotoxic T (CD8(+)) cells. Folate deficiency reduced proliferation of T lymphocytes, induced cell cycle arrest in the S phase, induced apoptosis, and increased the level of uracil in DNA. Folate deficiency also increased the CD4(+) to CD8(+) ratio due to a marked reduction of CD8(+) cell proliferation. Folate or nucleoside repletion of folate-deficient cells rapidly restored T lymphocyte proliferation and normal cell cycle, reduced the DNA uracil content, and lowered the CD4(+) to CD8(+) ratio. These data suggest that folate status may affect the immune system by reducing the capacity of CD8(+) cells to proliferate in response to activation.     

Expression of low levels of peripheral lymph node-associated vascular addressin in mucosal lymphoid tissues: possible relevance to the dissemination of passaged AKR lymphomas

Lymphoid tumors display a wide variety of growth patterns in vivo, from that of a solitary extralymphoid tumor, to a general involvement of all lymphoid organs. Normal lymphocytes are uniquely mobile cells continuously recirculating between blood and lymph throughout much of their life cycle. Therefore, it is reasonable to propose that disseminating malignant lymphocytes may express recirculation characteristics or homing properties consistent with that of their normal lymphoid counterparts. Trafficking of lymphocytes involves the expression and recognition of both lymphocyte homing receptors and their opposing receptors on endothelium, the vascular addressins. These cell surface elements direct the tissue-selective localization of lymphocyte subsets in vivo into organized lymphoid organs and sites of chronic inflammation where specific binding events occur between lymphocytes and the endothelium of specialized high endothelial venules (HEV). In a recent murine study of 13 lymphoma lines, we found that lymphomas that bind well to high endothelial venules, in the Stamper-Woodruff in vitro assay (an assay of lymphocyte binding to venules in frozen sections of peripheral lymph nodes or Peyer's patches), spread hematogenously to all high endothelial venule bearing lymphoid organs, whereas non-binding lymphomas did not. In some cases lymphomas that bound with a high degree of selectivity to peripheral lymph node (PLN) high endothelial venules exhibited only limited organ preference of metastasis, involving the mucosal lymphoid organs Peyer's patches (PP) in addition to the peripheral lymph nodes of adoptive recipients. Here we demonstrate that Peyer's patch high endothelial venules express a low but functional level of peripheral lymph node addressin (MECA-79) that can be recognized by lymphomas expressing the peripheral lymph node homing receptor (MEL-14 antigen).(ABSTRACT TRUNCATED AT 250 WORDS)     

T suppressor (TG) lymphocytes fluctuate in parallel with changes in the clinical course of patients with multiple sclerosis.

Aberrant immune responses to several unrelated antigens observed in patients with multiple sclerosis have suggested faulty regulation of immunocompetent cells. Recently human T lymphocytes have been segregated into subpopulations. T lymphocytes that bear Fc receptors for IgG suppress B lymphocyte proliferation and the production of IgG. Here we report studies on the percentage of TG cells in the peripheral blood of 25 patients all of whom met stringent clinical criteria for the diagnosis of multiple sclerosis (MS). Many of these patients were followed for more than 14 months. In the total group, nine patients experienced definite acute exacerbations of disease followed by periods of remission. The mean percentages +/- 1 standard deviation of TG cells found in all MS patients during remission, 16 +/- 6 was significantly higher than the mean found in normal subjects, 12 +/- 2. In contrast, the mean found in patients experiencing an acute attack, 6 +/- 2 was significantly lower than the mean TG level of normal subjects. Moreover, when individual patients were followed through their clinical illness, levels of TG lymphocytes that were low during acute exacerbations invariably increased to relatively high levels with the onset of clinical remission.     

The effects of an induced adenosine deaminase deficiency on T-cell differentiation in the rat

Inherited deficiency of the enzyme adenosine deaminase (ADA) has been found in a significant proportion of patients with severe combined immunodeficiency disease and inherited defect generally characterized by a deficiency of both B and T cells. Two questions are central to understanding the pathophysiology of this disease: (1) at what stage or stages in lymphocyte development are the effects of the enzyme deficiency manifested; (2) what are the biochemical mechanisms responsible for the selective pathogenicity of the lymphoid system. We have examined the stage or stages of rat T-cell development in vivo which are affected by an induced adenosine deaminase deficiency using the ADA inhibitors, erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) and 2'-deoxycoformycin (DCF). In normal rats given daily administration of an ADA inhibitor, cortical thymocytes were markedly depleted; peripheral lymphocytes and pluripotent hemopoietic stem cells (CFU-S) all were relatively unaffected. Since a deficiency of ADA affects lymphocyte development, the regeneration of cortical and medullary thymocytes and their precursors after sublethal irradiation was used as a model of lymphoid development. By Day 5 after irradiation the thymus was reduced to 0.10-0.5% of its normal size; whereas at Days 9 and 14 the thymus was 20-40% and 60-80% regenerated, respectively. When irradiated rats were given daily parenteral injections of the ADA inhibitor plus adenosine or deoxyadenosine, thymus regeneration at Days 9 and 14 was markedly inhibited, whereas the regeneration of thymocyte precursors was essentially unaffected. Thymus regeneration was at least 40-fold lower than in rats given adenosine or deoxyadenosine alone. Virtually identical results were obtained with both ADA inhibitors, EHNA and DCF. The majority of thymocytes present at Day 9 and at Day 14 in inhibitor-treated rats had the characteristics of subcapsular cortical thymocytes which are probably the most ancestral of the thymocytes. Thus, an induced ADA deficiency blocked the proliferation and differentiation of subcapsular cortical thymocytes which are the precursors of cortical and medullary thymocytes.