Natural killer cell number and function in the spontaneously diabetic BB/W rat

The BB/W rat provides a good model of spontaneous autoimmune diabetes. Diabetes-prone (DP) rats have a virtual lack of OX 8+ OX 19+ T cytotoxic/suppressor cells in peripheral blood lymphocytes (PBL) and spleen, suggesting that the OX 8+ OX 9- natural killer (NK) cells are the predominant cytotoxic cell in this animal. In this study, we have shown that rat NK cells belong to the OX 8+ OX 19- asialo GM1 bright population, and that rat NK cell function may be depleted in vivo by administration of OX 8 antibody. Furthermore, evidence is provided to indicate that NK cell number and activity are enhanced on a per cell basis in DP rats as compared to the diabetes-resistant W line rat. DP rats had about threefold more NK cells than did W-line rats. The cytotoxic activity mediated by spleen and PBL against the YAC-1 target generally correlated with the relative number of cells having the OX 8+ OX 19- phenotype. DP lymphocytes mediated low levels of cytolytic activity against the relatively resistant NK target cell K562. To more directly compare the activity of W-line and DP NK cells, spleen NK cells were isolated by flow sorting of the OX 8+ OX 19- population. At a 5:1 E:T ratio, DP OX 8+ OX 19- cells elicited 21% +/- 3 specific lysis and W-line cells elicited 7% +/- 2 specific lysis. To determine whether the elevated levels of NK cells and NK cell activity in DP rats were a consequence of NK cell proliferation, spleen cells were size-separated by centrifugal elutriation. The NK cell activity was predominantly mediated by small to medium-size lymphocytes and not blast-size enriched populations. Moreover, when the DNA content of splenic OX 8+ cells was measured, 98% of the cells were in the G0-G1 phase of the cell cycle. These data indicate that NK cell number and activity are elevated in DP rats, and support a role for NK cells in the pathogenesis of BB/W diabetes.     

BioBreeding/Worcester (BB/Wor) rats are deficient in the generation of functional cytotoxic T cells

The BioBreeding/Worcester (BB/Wor) rat provides a good model of spontaneous autoimmune diabetes. There are several sublines of the BB/Wor rat. The diabetes prone (DP) sublines develop diabetes at a frequency of 50 to 80% from 60 to 120 days of age. The DP rats are lymphopenic, have a severe deficit in phenotypic OX 19+ OX 8+ cytotoxic T cells (Tc), and lack RT 6.1 T cells. These rats have a relative increase in OX 19- OX 8+ natural killer (NK) cells and in NK activity as compared with the diabetes resistant (DR) sublines. The DR sublines have a normal complement of phenotypic Tc and RT 6.1 T cells, fewer NK cells, and lower NK activity than the DP rat. The ability to elicit functional Tc in the BB/Wor rat has not been well studied. In these experiments, by using a model of lymphocytic choriomeningitis virus (LCMV) infection in DP and DR rats, we have studied the functional activity of Tc in these lines. Seven days after infection with LCMV, DR rats develop lymphocytes which are cytotoxic for LCMV-infected syngeneic fibroblasts. These cytotoxic lymphocytes are phenotypic Tc (OX 19+ OX 8+), and do not kill Pichinde virus-infected syngeneic fibroblasts or LCMV-infected allogeneic fibroblasts. This cytotoxic activity is accompanied by an increase in phenotypic Tc from 17 to 33%. DP rats produced neither functional nor phenotypic Tc. These studies confirm that NK cells are the predominant cytotoxic lymphocyte in the BB/Wor rat and suggest that these rats may not utilize a Tc mechanism in islet destruction or another immunologic process such as graft rejection.     

Autoimmunity-prone BB rats lack functional cytotoxic T cells

BB rats are prone to develop an autoimmune form of insulin-dependent diabetes mellitus (IDDM) and thyroiditis. Development of autoimmunity is thymus dependent. Previous studies have shown that BB rats lack a population of T cells bearing the RT6 antigen and have very low numbers of suppressor/cytotoxic T cells. In this study, we confirm that BB rats have decreased numbers of phenotypic T suppressor/cytotoxic (Ts/c) cells (OX19+, OX8+ cells) in their lymphoid organs. Moreover, we find that the phenotypic Ts/c cells of BB rats lack apparent cytotoxic activity. These T cells fail to kill allogeneic target cells in a cell-mediated lympholysis assay and fail to generate lectin-dependent cytotoxicity. The addition of interleukin 2, gamma-interferon, and other lymphokines to cultures of BB T cells does not induce functional cytotoxic T lymphocytes. We find that the activated T cells of newly diabetic rats are incapable of killing major-histocompatibility-complex-matched islet cells, despite the ability of these cells to cause IDDM in passive transfer experiments. We conclude that autoimmune disease occurs in BB rats in the absence of functional cytotoxic T cells.     

Separation and isolation of rat natural killer (NK) cells from T cells with monoclonal antibodies

It has been difficult to clearly differentiate rat NK cells from cytotoxic T cells. In this study we have shown that rat NK cells do not express the T cell protein defined by the OX 19 antibody. By using the FACS we have isolated the OX 19- OX 8+ lymphocyte subset that contains virtually all the NK activity. The simultaneous use of the OX 19 and OX 8 antibodies allows the separation of NK cells from T cells.     

Selective induction of OX19+ (CD5+) or OX19- (CD5-) alloreactive cytolytic lymphocytes in the rat

The phenotypes of alloselective cytolytic lymphocytes of the rat are defined by staining of peritoneal cells of alloimmunized donors with monoclonal antibodies, sorting in a cytofluorometer and evaluating cytolytic capacity in a 51Cr-release assay. We demonstrate that alloimmunization of BN rats can result in either OX19+ (CD5+) or OX19- (CD5-) cytolytic alloselective lymphocytes and show that the OX19- (CD5-) cytolytic cells are OX34+ W3/25- (CD4-) OX8+ (CD8+) lymphocytes not exposing surface Ig. It is further demonstrated that the appearance of CD5+ and CD5- cytolytic alloselective lymphocytes are mutually exclusive; immunization with (WF X BN) F1 cells leading exclusively to appearance of OX19+ effector cells while immunization with WF cells leads to OX19- effector cells. Alloimmunization of WF rats only results in appearance of OX19+ cytolytic lymphocytes.     

Phenotypic heterogeneity of Gross virus-induced thymic lymphomas in the rat: cellular origins and migratory properties

Neoplastic thymocytes from rat thymic lymphoma-leukemias induced by the rat-adapted Gross leukemia virus (RAGV) were analyzed for a variety of differentiation markers. The neoplasms from individual rats all expressed the antigenic phenotype MP+, W3/13+, Thy-1+, RT-1+, RT-7+, W3/25-. However, approximately two-thirds of the neoplasms were positive for the OX 8 antigen, and one-third were negative. The OX 8- neoplasms only involved the thymus, whereas approximately 40% of the OX 8+ neoplasms involved the spleen as well as the thymus. Virtually all OX 8+ and OX 8- neoplastic cells contained terminal deoxynucleotidyl transferase (TdT), and both OX 8+ and OX 8- lymphomas expressed the lactate dehydrogenase (LDH)-5' isozyme and the primary, but not the secondary, ADA isozyme. This enzymatic phenotype is characteristic of thymocyte precursors, but not thymocytes. Our results therefore indicate that RAGV-induced lymphomas arise from transformed prethymic TdT+ cells which contain the LDH-5' and the primary ADA isozymes. These preleukemic cells presumably migrate to the thymus where they express the RT-7 pan-T-cell antigen and, in some instances, the OX 8 antigen during the development of overt leukemia. The OX 8+ neoplasms, being more differentiated than their OX 8- counterparts, then migrate to peripheral lymphoid tissues.     

The membrane phenotype of in vivo induced tumor selective cytolytic lymphocytes of the rat: a distinction from NK cells

The phenotype of tumor selective cytolytic lymphocytes of the rat is defined by staining of peritoneal cells of tumor-immunized donors with the monoclonal antibodies OX19, OX8, and W3/25, sorting in a cytofluorometer and evaluating cytolytic capacity in a 51Cr release assay. It is shown that the tumor selective cytolytic lymphocytes bear the OX19 and OX8 markers but are lacking the W3/25 marker. It is also shown that the OX19+ lymphocytes do not contain any NK-like activity. The OX19 marker can therefore distinguish cells that execute selective cytolysis from cells with NK-like activities.     

T cell-mediated cytotoxicity induced by Listeria monocytogenes. III. Phenotypic characteristics of mediator T cells

Cytotoxic thymus-derived lymphocytes (CTL) generated in vitro by restimulating rat cells with Listeria antigen- (LMA) pulsed syngeneic accessory cells were characterized in respect to their surface membrane markers. LM-dependent CTL were devoid of detectable surface immunoglobulin (Ig) and receptors for the Fc region of rabbit IgG. Experiments with monoclonal antibodies to rat T cell markers revealed that these cytotoxic cells have the phenotypic profile W3/13+, W3/25-, MRC OX 8+. LM-dependent CTL also bind the monoclonal antibody, MRC OX 3, which recognizes an Ia-antigen-like determinant on rat cells. Although LM-dependent CTL lack the W3/25 marker, their generation depends on the cooperative interplay of W3/25+ and W3/25- T cells.     

Cellular basis of graft-versus-host reactions

The biologic basis of Graft-Versus-Host Disease (GVHD) is presented as an extremely complex immunopathologic syndrome that involves interaction between many different donor and host cell types. A model of acute lethal GVHD was employed where adult unirradiated (DA X LEW)F1 rats were injected with LEW spleen and lymph node cells. Controls received the same dose of syngeneic cells. At intervals from 2 to 21 days after cell injection, GVHD and control animals were killed and nonadherent cell suspensions prepared from their lymph nodes, spleen and peripheral blood. Cell suspensions were treated with LEW-anti-DA-alloantiserum or normal LEW serum and then analyzed for sIgM+ (B cells), W 3/13+ (T cells), and IgG-Fc receptors (FcR). Evidence is discussed for the selective removal of host cells with the alloantiserum. In addition, the level of naturally cytolytic (NK/NC) cells was assessed by adding GVHD and control nonadherent lymphoid cells to heterologous lymphoma and sarcoma target cells. Evidence is presented that during acute GVHD, in this parental----F1 combination, there is an early increase within most compartments of donor as well as host W 3/13+ and W 3/13+FcR+ cells. NK/NC cells are increased as well at day 7. During middle stages of acute GVHD, host sIgM+ cells predominate. Late-stage acute GVHD rats contain few donor and host W 3/13+, W 3/13+FcR+, and NK/NC cells but many null cells most of which are FcR-. The importance of unraveling the nature of donor- and host-cell interactions occurring during acute GVHD, which result in rats whose lymphoid tissues are severely depleted of all nonadherent lymphoid cells but FcR- null cells, is discussed.     

Experimental autoallergic sialadenitis in the LEW rat. III. Role of CD4+ T cells in EAS induction

Experimental autoallergic sialadenitis (EAS) in the LEW rat is an induced autoimmune disease of the salivary tissues. EAS is characterized by a lymphocytic infiltration that consists of both CD4+ (helper/inducer T-cell subset) and CD8+ (cytotoxic/suppressor T-cell subset) T cells and results in the immune-mediated destruction of the exocrine salivary glands. To investigate the role that each of the T-cell subsets may have in the pathogenesis of EAS, LEW rats sensitized with WF SMG homogenate were injected with monoclonal antibodies to deplete or inactivate, in vivo, the CD4, CD5 (OX19; pan T lymphocyte), CD8, or RT6 (70% of peripheral T cells) T-cell populations. Treatment with the OX8 (CD8), OX19 (CD5), or W3/25 (CD4) only partially reduced in vivo the respective splenic or lymph node T-cell subsets when analyzed on Day 14, while treatment with DS4.23 (anti-RT6) resulted in greater than 95% depletion of RT6+ spleen and lymph node T cells. EAS incidence and severity was significantly reduced in the W3/25 (CD4) treatment group (11% incidence rate; histologic score 1.0) as compared to medium-injected controls (88% incidence rate; histologic score 2.9). Although the incidence and severity of EAS in the OX19 (71%; histologic score 1.7), OX8 (55%; histologic score 1.7), and RT6 (67%; histologic score 1.6) treatment groups appeared decreased, the reduction was not statistically significant. These results provide evidence that CD4+ T cells have an important role in EAS induction and demonstrate that in vivo treatment with anti-CD4 can ameliorate and/or prevent EAS in the LEW rat.     

Expression of the rat CD26 antigen (dipeptidyl peptidase IV) on subpopulations of rat lymphocytes.

The T cell activation antigen CD26 has been recently identified as the cell surface ectopeptidase dipeptidyl peptidase IV (DPP-IV). DPP-IV is found on many cell types, including lymphocytes, epithelial cells, and certain endothelial cells. The MRC OX61 monoclonal antibody (MAb) which specifically recognises rat DPP-IV was used to examine the expression of CD26/DPP-IV on rat lymphocytes. The molecular nature of the antigen was examined by immunoprecipitation from thymocytes, splenocytes, and hepatocytes. Analysis by one- and two-dimensional gel electrophoresis indicated that the native form of CD26 includes a 220-kDa homodimer. On tissue sections MRC OX61 MAb stained nearly all thymocytes and in the spleen and lymph nodes predominantly stained the T cell areas. However, in immunofluorescence experiments OX61 stained 80 to 87% of lymph node cells and 78 to 85% of spleen cells. Furthermore, two-colour immunofluorescence analysis of the CD4+, CD8+, and Ig+ lymphocyte subsets indicated that only 2 to 5% of each of these subsets lacked OX61 staining. Spleen cells and thymocytes of both CD4+ and CD8+ subsets stained much more intensely with OX61 after these cells were stimulated with phytohemagglutinin. These findings indicate that rat CD26 antigen expression is not confined to the T cell population as has been suggested, but also occurs on B cells, and is increased on T cells following their activation.     

Characterization of RT6 bearing rat lymphocytes. I. Ontogeny of the RT6+ subset

The RT6 alloantigen is present on approximately 70% of peripheral T cells in the rat, but is absent from thymocytes and bone marrow lymphocytes. The results of further phenotypic analysis in the present study demonstrated that the RT6 alloantigen is expressed on approximately 45% of the helper/inducer (CD4; W3/25+) and 80% of the cytotoxic/suppressor (CD8; OX8+) peripheral T-cell subsets. Ontogenetic and thymus ablation studies indicated that the RT6+ T-cell subset is thymus-dependent and normally develops after the appearance of RT6-T cells in neonatal rats, and that the expression of RT6 is a post-thymic maturational event. Furthermore, intrathymic adoptive transfer of bone marrow cells demonstrated that RT6+ T cells are thymus-derived cells. These results show that most if not all RT6+ T cells are the progeny of RT6- T cells. However, they do not exclude the possibility that a separate lineage of RT6- T cells exists, which also has OX8+ and W3/25+ subsets. The possible developmental and functional relationships of RT6- and RT6+ T cells in the rat are discussed.     

Cellular basis of allograft rejection in vivo. V. Examination of the mechanisms responsible for the differing efficacy of monoclonal antibody to CD4+ T cell subsets in low- and high-responder rat strains

MRC OX35, an anti-CD4 mAb, was used to treat high responder Wistar Furth (W/F) (RT1u) and low responder DA (RT1a) rats which had been grafted with directly vascularized hearts from PVG (RT1c) rats across a full MHC plus non-MHC incompatibility. Four doses of mAb at 7 mg/kg given in the first 2 wk postgrafting induced indefinite graft survival (greater than 150 days) in DA hosts, but only delayed rejection to 18 to 42 days in W/F as compared to rejection times of 6 to 8 days in untreated rats. The extension of MRC OX35 treatment to 6 wk in W/F rats induced indefinite graft survival in three of six rats. During treatment MRC OX35 therapy only partially depleted CD4+ cells, and all circulating CD4+ cells were coated with MRC OX35. The capacity of naive CD4+ and CD8+ cells from W/F and DA to be activated to PVG alloantigen was compared both in vitro in an MLC assay and in vivo by an adoptive transfer assay of their capacity to restore rejection of PVG heart grafts in irradiated syngeneic hosts. CD4+ cells from both W/F and DA proliferated in MLC and restored graft rejection. W/F CD8+ cells both proliferated in MLC and restored rejection, but DA CD8+ cells neither proliferated nor reconstituted rejection. Examination of lymphocytes from MRC OX35 treated hosts with long-surviving grafts showed that they were neither depleted of CD4+ T cells nor did they lack the capacity to proliferate to PVG Ag in MLC, this response being similar to that to third-party Ag or by naive lymphocytes. Compared to first-set rejection, PVG skin graft rejection was delayed 2 to 3 days in W/F and 10 to 12 days in DA rats with long-surviving grafts after MRC OX35 therapy, whereas they rejected third-party skin grafts in first-set tempo. These studies show that differences in graft survival in anti-CD4 treated low and high responder strains may be due to the inherent capacity of CD8+ cells to be activated to effect rejection independent of CD4+ cells in W/F but not in DA. In those hosts that accept grafts, there is no evidence of clonal deletion, but there appears to be a form of unresponsiveness akin to that induced in adult rats by other immunosuppressive therapies that protects the graft from rejection.     

The relationship of CD16 (Leu-11) and Leu-19 (NKH-1) antigen expression on human peripheral blood NK cells and cytotoxic T lymphocytes

We examined the antigenic and functional characteristics of human peripheral blood lymphocytes that differentially express the CD16 (Leu-11) and Leu-19 (NKH-1) antigens. Leu-19 is a approximately 220,000 daltons protein expressed on approximately 15% of freshly isolated peripheral blood lymphocytes. Within the Leu-19+ subset, three distinct populations were identified: CD3-,CD16+,Leu-19+ cells; CD3+,CD16-,Leu-19+ cells; and CD3-,CD16-,Leu-19bright+ cells. Both the CD3+,CD16-,Leu-19+ and CD3-,CD16+,Leu-19+ populations mediated non-major histocompatibility complex (MHC)-restricted cytotoxicity against the NK-sensitive tumor cell K562 and were large granular lymphocytes. CD3-,CD16+,Leu-19+ NK cells were the most abundant (comprising approximately 10% of peripheral blood lymphocytes) and the most efficient cytotoxic effectors. The finding that CD3+,Leu 19+ lymphocytes mediated cytotoxicity against K562 unequivocally demonstrates that a unique subset of non-MHC-restricted cytotoxic CD3+ T lymphocytes are present in the peripheral blood of unprimed, normal individuals. However, CD3+,CD16-,Leu-19+ cells comprised less than 5% of peripheral blood lymphocytes, and the cytotoxic activity of this subset was significantly less than CD3-,CD16+,Leu-19+ NK cells. Most CD3+,Leu-19+ T cells co-expressed the CD2, CD8, and CD5 differentiation antigens. The antigenic and functional phenotype of peripheral blood CD3+,Leu-19+ cytotoxic T lymphocytes corresponds to the interleukin 2-dependent CD3+ cell lines that mediate non-MHC-restricted cytotoxicity against NK-sensitive tumor cell targets. A small population of Leu-19bright+ lymphocytes lacking both CD3 and CD16 was also observed. This population (comprising less than 2% of peripheral blood lymphocytes) contained both large agranular lymphocytes and large granular lymphocytes. CD3-,CD16-,Leu-19bright+ lymphocytes also mediate non-MHC-restricted cytotoxicity. The relationship of these CD3-CD16-,Leu-19bright+ lymphocytes to CD3+ T cells or CD16+ NK cells is unknown.     

Altered levels of mononuclear leukocytes in tumor-bearing rats: decrease of helper T lymphocytes and increase of suppressor cells

In the spleen and peripheral blood of BN rats with progressive tumors, W3/25+ T helper cells were significantly reduced and OX8+ T suppressor/cytotoxic cells were significantly increased. The ratio of helper to suppressor elements was decreased to 1.6 from a ratio of 3 in normal BN rats without tumors, and this decreased ratio correlated with tumor growth. When tumors were eliminated in vivo by infusion of effector cells (W3/25+ T lymphocytes), the levels of W3/25+ and OX8+ T cells returned to normal and the ratio of helper to suppressor/cytotoxic cells in the spleen and peripheral blood reverted to 3.0 or higher. Macrophages and null cells, T-sIg-, were also elevated in the spleen and peripheral blood of rats bearing expanding tumors and returned to normal levels after cure. Assays of spleen cells for cell-mediated cytotoxicity in rats with large tumors revealed little or no specific cytotoxicity. Cytotoxic activity was high in spleen of rats cured of their neoplasms by infusion of helper cells.     

Recapitulation of normal and abnormal BioBreeding rat T cell development in adult thymus organ culture

Congenitally lymphopenic diabetes-prone (DP) BioBreeding (BB) rats develop spontaneous T cell-dependent autoimmunity. Coisogenic diabetes-resistant (DR) BB rats are not lymphopenic and are free of spontaneous autoimmune disease, but become diabetic in response to depletion of RT6+ T cells. The basis for the predisposition to autoimmunity in BB rats is unknown. Abnormal T cell development in DP-BB rats can be detected intrathymically, and thymocytes from DR-BB rats adoptively transfer diabetes. The mechanisms underlying these T cell developmental abnormalities are not known. To study these processes, we established adult thymus organ cultures (ATOC). We report that cultured DR- and DP-BB rat thymi generate mature CD4 and CD8 single-positive cells with up-regulated TCRs. DR-BB rat cultures also generate T cells that express RT6. In contrast, DP-BB rat cultures generate fewer CD4+, CD8+, and RT6+ T cells. Analysis of the cells obtained from ATOC suggested that the failure of cultured DP-BB rat thymi to generate T cells with a mature phenotype is due in part to an increased rate of apoptosis. Consistent with this inference, we observed that addition of the general caspase inhibitor Z-VAD-FMK substantially increases the number of both mature and immature T cells produced by DP-BB rat ATOC. We conclude that cultured DR-BB and DP-BB rat thymi, respectively, recapitulate the normal and abnormal T cell developmental kinetics and phenotypes observed in these animals in vivo. Such cultures should facilitate identification of the underlying pathological processes that lead to immune dysfunction and autoimmunity in BB rats.     

Two phenotypically distinct populations of T cells have suppressor capabilities simultaneously in the maintenance phase of immunologic enhancement

The events leading to immunologic enhancement in LEW rats immunized actively with Brown Norway (BN) rat spleen cells and passively with LEW anti-BN hyperimmune serum 11 and 10 days before receiving (LEW X BN)F1 cardiac allografts, respectively, have been studied. Cellular suppressor mechanisms developing during the induction phase of this phenomenon have recently been shown to be mediated by W3/25+ T cells in an antigen-specific manner. The present study suggests that the late maintenance phase of immunologic enhancement is mediated in vivo by simultaneously present separate donor-specific T cell subpopulations of W3/25+ and OX8+ phenotypes. Splenocyte subsets from grafted recipients greater than 100 days after transplantation were adoptively transferred into unmodified syngeneic LEW rats that received a specific test allograft 24 hr later, or into B recipients bearing indefinitely surviving heart grafts. Test graft survival was prolonged significantly in the first group and not altered in the second. Indeed, nonoverlapping W3/25+ and OX8+ cell fractions were separately responsible for suppression. However, when suppressor activity was tested in vitro in a three-component coculture mixed lymphocyte reaction, no suppression by T cells was obtained; this lack of correlation between in vivo and in vitro results has also been noted by other investigators in different systems. Thus, in the maintenance phase of actively and passively induced immunologic enhancement, interplay between two phenotypically distinct T cells with suppressor characteristics, but not putative cell-surface blocking factors, seems to prevent development of an alloreactive response and mediate host unresponsiveness.     

Purification and analysis of rat hematopoietic stem cells by flow cytometry

The monoclonal antibody OX7 recognizes an epitope expressed on the Thy-1 glycoprotein, OX22 recognizes the high molecular weight form(s) on leukocyte common antigen, and W3/13 recognized determinants found on certain sialoglycoproteins. Recently, the rat colony-forming unit spleen (CFU-S) was characterized as being OX7 upper 20% positive (OX7u20%), OX22 negative (OX22-), and W3/13 weakly positive (W3/13+). In the present study these observations have been extended to include the hematopoietic stem cell (HSC). Rat marrow cells were incubated with allophycocyanine-OX7 Fab' (APC-OX7 Fab') and phycoerythrin B-OX22 Fab' (Phy B-OX22 Fab'). The cells were sorted with a FACS-II instrument by using a Krypton laser tuned to the 530 nm spectral line for phycobiliprotein excitation. It was found that marrow cells capable of protecting lethally irradiated Lewis rats (9.5 Gy total body radiation, 0.4 Gy/min Co60) had the phenotype OXu20%, OX22-. The percentage of cells in the marrow with this phenotype was found to be 0.34 +/- 0.01 (mean +/- S.E.). Three thousand of these cells were required to rescue 50% of lethally irradiated recipients (30-d survival), while the number of unsorted bone marrow cells required was 1.05 X 10(6). Thus, a 350-fold purification of the HSC was realized. Although CFU-S copurified with HSC, purification of only 105-fold was obtained. This might indicate that purified HSC have a reduced capacity to generate splenic hematopoietic colonies. The OX7u20%, OX22- -enriched HSC population could be further divided into W3/13 dim and W3/13+ subpopulations by three-parameter immunofluorescence analysis with the use of a new optical bench arrangement.     

Phenotype of peripheral blood leukocytes and survival of patients with metastatic colorectal cancer

Immune dysfunction is prevalent in metastatic cancer. Few patients with colorectal cancer metastases are cured, and among the strategies aimed at improving the therapeutic results in patients with metastatic colorectal cancer, immunotherapy is being increasingly investigated. We evaluated retrospectively the prognostic significance of peripheral blood leukocytes in 59 patients with metastatic colorectal cancer. The relative numbers of CD3+, CD3+CD4+, CD3+CD8+, NK (CD3-CD16+CD56+), CD3+DR+, CD3+CD25+, CD3+CD69+, CD19+, CD19+CD23+, CD8+CD28+, CD8-CD28+, CD8+CD57+, CD14+DR+ and CD14+CD16+ leukocytes were analyzed by two-color flow cytometry. A three-step approach was adopted to identify predictors of prognosis using regression analysis. Based on the results of univariate survival analysis, the absolute number of white blood cells, NK/CD3+CD69+ and NK/white cell count ratios were significant indicators of prognosis. In the multivariate regression analysis a model was obtained using a single parameter, the NK/CD3+CD69+ ratio, predicting the survival with 10-15% power of regression. The present results indicate that the NK/CD3+CD69+ ratio in peripheral blood may be an independent variable in a regression model predicting the overall survival of patients with colorectal cancer metastases to be tested in prospective studies.     

Phytohemagglutinin-lnduced acquisition of T-cell surface markers by rat bone marrow precursor cells in the absence of the thymic microenvironment

Two monoclonal antibodies specific for different rat T-cell subpopulations, the anti-helper-T-cell antibody, W3/25, and the OX8 suppressor cell antibody were used to investigate lectin-stimulated T-lymphocyte differentiation of F-344 rat bone marrow cells in culture. Cytofluorometric analysis of freshly isolated lymphocytes from thymus and spleen revealed that these tissues contained both W3/25? and OX8-positive populations but differed with respect to the number of cells and receptor density distribution. By contrast, bone marrow-derived lymphocytes exhibited negligible W3/25? or OX8-associated fluorescence. However, several days after stimulation of bone marrow lymphocytes with phytohemagglutinin (PHA), cells appeared bearing these markers. Two-parameter histogram analysis of light scatter measurements with cell surface immunoflu-orescence indicated that this phenomenon represented the appearance of a new population of cells, presumably mature T cells, bearing an increased density of marker. These findings suggest an induction of differentiation of bone marrow T precursor cells by nonthymic factors (PHA) since lymphocytes lacking mature T-cell marker expression developed this characteristic after several days in culture.