Showing papers by "Simon C. Watkins published in 1996"

DNA-based immunization by in vivo transfection of dendritic cells

Abstract: Delivery of antigen in a manner that induces effective, antigen-specific immunity is a critical challenge in vaccine design. Optimal antigen presentation is mediated by professional antigen-presenting cells (APCs) capable of taking up, processing and presenting antigen to T cells in the context of costimulatory signals required for T-cell activation. Developing immunization strategies to optimize antigen presentation by dendritic cells, the most potent APCs, is a rational approach to vaccine design. Here we show that cutaneous genetic immunization with naked DNA results in potent, antigen-specific, cytotoxic T lymphocyte-mediated protective tumor immunity. This method of immunization results in the transfection of skin-derived dendritic cells, which localize in the draining lymph nodes. These observations provide a basis for further development of DNA-based vaccines and demonstrate the feasibility of genetically engineering dendritic cells in vivo.

The effect of non-insulin-dependent diabetes mellitus and obesity on glucose transport and phosphorylation in skeletal muscle

Abstract: Defects of glucose transport and phosphorylation may underlie insulin resistance in obesity and non-insulin-dependent diabetes mellitus (NIDDM). To test this hypothesis, dynamic imaging of 18F-2-deoxy-glucose uptake into midthigh muscle was performed using positron emission tomography during basal and insulin-stimulated conditions (40 mU/m2 per min), in eight lean nondiabetic, eight obese nondiabetic, and eight obese subjects with NIDDM. In additional studies, vastus lateralis muscle was obtained by percutaneous biopsy during basal and insulin-stimulated conditions for assay of hexokinase and citrate synthase, and for immunohistochemical labeling of Glut 4. Quantitative confocal laser scanning microscopy was used to ascertain Glut 4 at the sarcolemma as an index of insulin-regulated translocation. In lean individuals, insulin stimulated a 10-fold increase of 2-deoxy-2[18F]fluoro-D-glucose (FDG) clearance into muscle and significant increases in the rate constants for inward transport and phosphorylation of FDG. In obese individuals, the rate constant for inward transport of glucose was not increased by insulin infusion and did not differ from values in NIDDM. Insulin stimulation of the rate constant for glucose phosphorylation was similar in obese and lean subjects but reduced in NIDDM. Insulin increased by nearly twofold the number and area of sites labeling for Glut 4 at the sarcolemma in lean volunteers, but in obese and NIDDM subjects translocation of Glut 4 was attenuated. Activities of skeletal muscle HK I and II were similar in lean, obese and NIDDM subjects. These in vivo and ex vivo assessments indicate that impaired glucose transport plays a key role in insulin resistance of NIDDM and obesity and that an additional impairment of glucose phosphorylation is evident in the insulin resistance of NIDDM.

Induction of nitric oxide synthase in mouse dendritic cells by IFN-gamma, endotoxin, and interaction with allogeneic T cells: nitric oxide production is associated with dendritic cell apoptosis.

Abstract: Nitric oxide (NO) is an important effector molecule that is involved in immune regulation and host defense. In this study, highly purified NLDC 145+ (DEC-205+) MHC class II(bright) B7-2+ dendritic cells (DC) propagated from normal mouse bone marrow in response to granulocyte-macrophage CSF + IL-4 were induced to produce NO by IFN-gamma and LPS. NO production was inhibited by the nitric oxide synthase (NOS) inhibitor N(G)-monomethyl-L-arginine (NMMA). Nitrite also accumulated in mixed leukocyte culture supernatants as the result of coculture of DC with purified naive allogeneic T cells. Furthermore, NO production was induced by CD40 ligation. Suboptimal T cell proliferation observed at high relative concentrations of DC correlated with increased NO production and was mitigated by NMMA. Induction of mRNA for an inducible NOS (iNOS) in DC was confirmed by Northern blotting, whereas intracellular iNOS was visualized by two-color flow cytometry and by both immunofluorescent and immunogold labeling in a subpopulation of IFN-gamma + LPS-stimulated cells. Both endogenous NO production and exposure of unstimulated DC to the NO donor S-nitroso-N-acetyl-penicillamine (SNAP) resulted in DC apoptosis. Thus, although DC function initially as the most potent APCs for T cell activation, DC induced to synthesize NOS by IFN-gamma may inhibit (allogeneic) T cell proliferation: NO may suppress lymphocyte proliferation and also induce apoptosis of the most potent source of alloantigenic stimulation.

Prolonged gene expression and cell survival after infection by a herpes simplex virus mutant defective in the immediate-early genes encoding ICP4, ICP27, and ICP22.

Abstract: Very early in infection, herpes simplex virus (HSV) expresses four immediate-early (IE) regulatory proteins, ICP4, ICP0, ICP22, and ICP27. The systematic inactivation of sets of the IE proteins in cis, and the subsequent phenotypic analysis of the resulting mutants, should provide insights into how these proteins function in the HSV life cycle and also into the specific macromolecular events that are altered or perturbed in cells infected with virus strains blocked very early in infection. This approach may also provide a rational basis to assess the efficacy and safety of HSV mutants for use in gene transfer experiments. In this study, we generated and examined the phenotype of an HSV mutant simultaneously mutated in the ICP4, ICP27, and ICP22 genes of HSV. Unlike mutants deficient in ICP4 (d120), ICP4 and ICP27 (d92), and ICP4 and ICP22 (d96), mutants defective in ICP4, ICP27, and ICP22 (d95) were visually much less toxic to Vero and human embryonic lung cells. Cells infected with d95 at a multiplicity of infection of 10 PFU per cell retained a relatively normal morphology and expressed genes from the viral and cellular genomes for at least 3 days postinfection. The other mutant backgrounds were too toxic to allow examination of gene expression past 1 day postinfection. However, when cell survival was measured by the capacity of the infected cells to form colonies, d95 inhibited colony formation similarly to d92. This apparent paradox was reconciled by the observation that host cell DNA synthesis was inhibited in cells infected with d120, d92, d96, and d95. In addition, all of the mutants exhibited pronounced and distinctive alterations in nuclear morphology, as determined by electron microscopy. The appearance of d95-infected cells deviated from that of uninfected cells in that large circular structures formed in the nucleus. d95-infected cells abundantly expressed ICP0, which accumulated in fine punctate structures in the nucleus at early times postinfection and coalesced or grew to the large circular objects that were revealed by electron microscopy. Therefore, while the abundant accumulation of ICPO in the absence of ICP4, ICP22, and ICP27 may allow for prolonged gene expression, cell survival is impaired, in part, as a result of the inhibition of cellular DNA synthesis.

Inducible nitric oxide synthase expression in cerebrovascular smooth muscle and neutrophils after traumatic brain injury in immature rats.

Abstract: The inflammatory response after traumatic brain injury (TBI) includes cytokine production, leukocyte infiltration, and microglial activation. Production of nitric oxide by inducible nitric oxide synthase (iNOS) occurs during acute inflammation outside of the CNS and in models of cerebral ischemia, and therefore may contribute to the inflammatory response after TBI. The purpose of this study was to localize and define the time course of iNOS expression after TBI in the immature rat. Immature Wistar rats (age 3.5-4.5 wk) were anesthetized and subjected to percussive trauma to the right parietal cortex. Nontraumatized rats were used as controls (n = 7). At 2, 24, 48, or 168 h (n = 3/group) posttrauma rats were killed by perfusion fixation. Brains were removed, frozen, sectioned, immunostained with antibodies against iNOS and glial fibrillary acidic protein (GFAP, a marker specific for astrocytes), and imaged using fluorescent detection systems. There was no detectable expression of iNOS in control brains. At 2 h, minimal cerebrovascular iNOS expression was seen in the peritrauma area. At 24 and 48 h, there was marked peritrauma cerebrovascular iNOS expression that appeared to be restricted to vascular smooth muscle cells and infiltrated leukocytes. Further dual-immunolabeling showed that the leukocytes expressing iNOS were predominantly neutrophils. At 168 h, iNOS expression was no longer detectable. iNOS was not detectable in GFAP-positive cells. The prominent expression of iNOS protein after TBI in cerebrovascular smooth muscle cells and infiltrated neutrophils suggests that iNOS may play a role in cerebrovascular disturbances and secondary brain injury after trauma.

Human Dendritic Cells Genetically Engineered to Express High Levels of the Human Epithelial Tumor Antigen Mucin (MUC-1)

Abstract: We have achieved stable high-level expression of a human tumor antigen, epithelial cell mucin (MUC-1), on human dendritic cells (DCs) by retroviral transduction of CD34+ progenitor cells and their subsequent cytokine-induced differentiation into DCs. The process of retroviral transduction did not alter the growth or differentiation of DCs from CD34+ progenitor cells. Immunofluorescence and electron microscopy studies revealed that the expression of mucin was limited to the body of the DCs and was excluded from the cytoplasmic veils of the DCs. Furthermore, the expression of mucin on DCs was similar, if not identical, to the nonpolarized expression of mucin found on carcinoma cells. In functional studies, the MUC-1(+)-transduced DCs were potent stimulators of allogeneic CD4+ T cells and, in fact, were superior to MUC-1- DCs. Thus, MUC-1+ DCs are expected to be a valuable tool in the immunotherapeutic treatment of patients with tumors that express MUC-1.

CFTR-dependent membrane insertion is linked to stimulation of the CFTR chloride conductance.

Abstract: We examined the relation between Cl current (Icl) stimulation and cell membrane capacitance (Cm) when cystic fibrosis transmembrane conductance regulator (CFTR) was expressed in Xenopus oocytes. ICl and Cm increased in parallel when oocytes expressing CFTR were stimulated by forskolin (10 microM) and 3-isobutyl-1-methylxanthine (1 mM). The adenosine 3',5'-cyclic monophosphate (cAMP)-induced increase in surface area detected by Cm was confirmed by morphometry in the same oocytes used for the electrical recordings. These increases in ICl and Cm were reversible and were absent from control oocytes not injected with CFTR cRNA. The time to reach peak ICl lagged slightly behind the peak in Cm. ICl was varied by altering CFTR expression level or agonist dose or by expressing different CFTR mutants. In all cases, there was a close correlation between ICl and Cm, and the kinetics of ICl and Cm stimulation were more rapid the larger the magnitude of the stimulated current. The Cm-ICl relation for wild-type CFTR saturated, consistent with a limited capacity of cells to increase their surface area. These results indicate that stimulation of the CFTR ICl is linked closely to increases in membrane area. This suggests that CFTR is present in the membrane vesicles whose insertion is stimulated by cAMP. The contents of these vesicles may provide a link between activation of CFTR and its cAMP-dependent regulation of other channels.

Vascular Gene Transfer of the Human Inducible Nitric Oxide Synthase: Characterization of Activity and Effects on Myointimal Hyperplasia

Abstract: Nitric oxide (NO) has been shown to decrease myointimal hyperplasia in injured blood vessels. We hypothesize inducible NO synthase (iNOS) gene transfer even at low efficiency will provide adequate local NO production to achieve this goal. A retroviral vector containing the human iNOS cDNA (DFGiNOS) was used to transfer the iNOS gene into vascular cells and isolated blood vessels to answer the following questions: can vascular endothelial and smooth muscle cells support iNOS activity and will low efficiency iNOS gene transfer suppress myointimal hyperplasia in injured porcine arteries? DFGiNOS-infected sheep pulmonary artery endothelial cells (SPAEC) expressed significant iNOS mRNA and protein, releasing nitrite levels of 155.0 ± 10.7 nmol/mg protein/24 h vs. 5.5 ± 1.1 by control cells. Transduced rat smooth muscle cells (RSMC) also expressed abundant iNOS mRNA and protein, but, in contrast to SPAEC, NO synthesis was dependent on exogenous tetrahydrobiopterin (BH4) (291.8 ± 10.4 nmol nitrite/mg protein/24 hr with BH4, 37.7 ± 2.6 without BH4). Only porcine arteries infected with DFGiNOS following balloon injury exhibited a 3-fold increase in total NO synthesis and a 15-fold increase in cGMP levels over control vessels in a BH4 dependent fashion, despite only a 1% gene transfer efficiency. Transfer of iNOS completely prevented the 53% increase in myointimal thickness induced by balloon catheter injury; the administration of a NOS inhibitor reversed this effect. These in vitro findings suggest that vascular iNOS gene transfer may be feasible. Furthermore, a low gene transfer efficiency may be sufficient to inhibit myointimal hyperplasia following arterial balloon injury, although a source of BH4 may be required.

Inhibition of Nitric Oxide With Aminoguanidine Reduces Bacterial Translocation After Endotoxin Challenge In Vivo

Abstract: Background: Administration of lipopolysaccharide (LPS) has been shown to increase bacterial translocation (BT) in vivo and in vitro. In addition, LPS up-regulates inducible nitric oxide synthase expression in the intestinal epithelium—a phenomenon that can either enhance microbial killing, or alternatively, promote BT by impairing the gut barrier. Objective: To determine the effect, if any, of an inhibitor of nitric oxide synthase, namely, aminoguanidine (AG), on BT after LPS challenge. Design: Sprague-Dawley rats were randomized to receive either AG or normal saline solution via subcutaneously placed osmotic pumps (Alzet), followed 18 hours later by LPS injection (5 mg/kg or 20 mg/kg intraperitoneally). Quantitative cultures of the cecum, mesenteric lymph nodes, liver, and spleen were obtained, and plasma nitrite and nitrate levels were measured at 24 hours. Transmembrane potential difference and mucosal permeability to fluorescein isothiocyanate—labeled dextran and fluorescein isothiocyanate—labeled Escherichia coli C25 were measured in the Ussing chamber. The intestinal membrane was examined by light, transmission electron, and confocal laser microscopy. Results: Rats that were given high-dose LPS had elevated levels of nitrite and nitrate and a 100% incidence of BT. In contrast, AG infusion significantly reduced both BT (22%) and nitrite and nitrate levels. Animals that received LPS and normal saline solution had a significantly lower transmembrane potential difference than those that received LPS and AG. High-dose LPS resulted in sloughing of the apical enterocytes at the villus tips where bacterial entry seemed to occur, as seen with confocal laser microscopy. Conclusions: Inhibition of nitric oxide production with AG decreases BT after high-dose LPS challenge. The mechanism may involve increased cellular viability and decreased damage to the gut mucosal barrier in rats that receive AG. Arch Surg. 1996;131:1155-1163

The basal lamina is a physical barrier to herpes simplex virus-mediated gene delivery to mature muscle fibers.

Abstract: A major impediment to successful implementation of gene therapy for treatment of muscular dystrophy is the restricted infectivity of mature muscle fibers with viral vectors. This phenomenon has been observed with adenovirus vectors and more recently with herpes simplex virus type 1 (HSV-1)-based vectors. Here we report findings of morphological studies designed to experimentally determine the mechanism underlying the rapid reduction in vector-mediated gene delivery concomitant with the maturation of muscle fibers. Using immunohistochemistry and confocal microscopy, we have colocalized HSV-1 and collagen IV, a major component of the basal lamina, in HSV-1-injected muscles and determined that the virus penetrates and expresses a transgene (lacZ) in muscle fibers of newborn animals but cannot efficiently penetrate adult myofibers. This was observed in normal as well as in immunocompromised animals, suggesting that the lack of adult myofiber transduction is not a result of an immune response and clearance of the viral vector. Since heparan sulfate proteoglycan, the initial attachment receptor for HSV-1, was shown to be preserved during the maturation of the myofibers by immunofluorescence assay and HSV-1 was able to infect isolated, viable myofibers in vitro, we suggest that the low-level HSV-1 transduction of mature myofibers is not a consequence of the loss of viral attachment sites on the surfaces of mature muscle fibers. Rather, our results indicate that the mature basal lamina acts as a physical barrier to HSV-1 infection of adult myofibers. This conclusion was further supported by the finding that HSV-1 displayed an intermediate level of transduction in mature dy/dy muscle which is defective for normal basal lamina formation. Together, these experiments suggest that efficient HSV vector transduction in mature skeletal muscle requires methods to permeabilize the basal lamina.

The heat-shock response attenuates lipopolysaccharide-mediated apoptosis in cultured sheep pulmonary artery endothelial cells.

Abstract: We recently reported that lipopolysaccharide (LPS) induces apoptosis in cultured sheep pulmonary artery endothelial cells (SPAEC). Information about survival signals against this and other stimuli for endothelial cell apoptosis is limited to factors in the extracellular space. In other cell types, apoptosis is also affected by intracellular gene products. The heat-shock response is a highly conserved cellular stress response affording cytoprotection against a variety of cytotoxic conditions. Accordingly, we tested the hypothesis that prior induction of the heat-shock response would affect apoptosis in cultured SPAEC. Exposure of SPAEC to either heat (43 degrees C, 90 min) or sodium arsenite (100 microM, 90 min) induced expression of heat-shock protein-70 (HSP-70). LPS (0.1 microg/ml) treatment of SPAEC induced apoptotic morphology, cell detachment, high molecular weight (> 30 kb) DNA fragmentation, and internucleosomal DNA fragmentation. Prior induction of the heat-shock response attenuated LPS-mediated a...

Pyruvate prevents ischemia-reperfusion mucosal injury of rat small intestine

Abstract: Background Since reactive oxygen intermediates (ROI, or free radicals) have been implicated in the pathogenesls of ischemia-reperfusion injury of the small bowel, we evaluated the pretreatment effect of pyruvate, a 3-carbon compound recently shown to inhibit Superoxide production, on reperfusion mucosal Injury in the rat Methods The small bowel of the ACI rat (n = 6) was divided Into 2 5-cm segments, and 10 mL of a liquid diet containing pyruvate (0.32 g) or placebo (0.26 g) was instilled into the lumen of one of the segments for 10 minutes. The bowel was then made completely ischemic for 45 minutes by clamping the superior mesenteric artery, which was followed by 60 minutes of reperfusion. Results The production of ROI in bowel biopsy samples, estimated by luminol-enhanced chemiluminescence, was at least 80% decreased in the segment containing pyruvate compared with placebo immediately after ischemia (time 0), and compared with 30 and 60 minutes of reperfusion ( P Conclusion Pyruvate pretreatment of the rat small bowel inhibits postischemic reperfusion mucosal histologic injury, neutrophil infiltration, and ROI production.

Nitric oxide and cartilage metabolism.

Abstract: Publisher Summary This chapter discusses the involvement of nitric oxide (NO) generated by articular chondrocytes in the disturbances in cartilage matrix metabolism that occur in arthritis. Articular chondrocytes of all species tested, including human, produce copious amounts of NO in response to interleukin 1 (IL-1) and a limited number of other stimuli. These cells appear to express inducible nitric oxide synthase (iNOS) (NOS-II), however there remains the possibility of expression of a dysregulated constitutive NOS (cNOS), a novel isoform of NOS, or iNOS that undergoes typical post-translational modifications. High levels of NO production are readily induced by IL-1 under all of the various in vitro culture conditions that are tested, and this property is retained in dedifferentiated cells. Endogenously produced NO inhibits the biosynthesis of cartilage matrix macromolecules yet appears to protect the matrix from breakdown. Either or both of these responses may result from effects of NO on the production of cytokines, eicosanoids, and proteinases. NOS are elevated in human articular cartilage recovered from arthritic joints, suggesting a role for NO in human joint diseases.

Pulsatile perfusion system for ex vivo investigation of biochemical pathways in intact vascular tissue.

Abstract: We have constructed and performed initial validation of an innovative perfusion system that allows exposure of intact segments of vascular tissue to realistic physiological and hemodynamic environm...

Integrins inhibit LPS-induced DNA strand breakage in cultured lung endothelial cells.

Abstract: Collagen inhibits acute DNA strand breakage and apoptosis in sheep pulmonary artery endothelial cells (SPAEC) treated with lipopolysaccharide (LPS). Here we tested the ability of major basement membrane components, type IV collagen, laminin and fibronectin, and integrin ligands and anti-integrin antibodies to inhibit DNA breakage caused by LPS in SPAEC and BALB/c murine lung endothelial cells (MLEC). In situ labeling of DNA strand breaks with terminal deoxynucleotidyl transferase revealed similar DNA breakage in attached SPAEC and MLEC within 2 h after incubation with 1 microgram LPS/ml. Acute DNA strand breakage was reduced in cells plated on gelatin, type IV collagen, laminin, cellular fibronectin, or plasma fibronectin. DNA breakage was also suppressed by plating cells on surfaces coated with the integrin ligand hexapeptide, GRGDSP (40 micrograms/cm2), but not with GRADSP. LPS-induced DNA strand breakage was inhibited in MLEC plated on surfaces coated with antibodies to murine alpha 5-, beta 1, or beta 3-integrin subunits. Addition of anti-integrin antibodies, but not GRGDSP, to the medium above cell monolayers inhibited strand breakage. Despite similar acute DNA breakage, MLEC exhibited less detachment and apoptosis than SPAEC, consistent with a difference in the sensing or processing systems for apoptosis in these two cell types. These results demonstrate that extracellular matrices and integrin activation can inhibit the genotoxicity of LPS.

Elimination of Established Liver Metastases by Human Interleukin 2-activated Natural Killer Cells after Locoregional or Systemic Adoptive Transfer

Abstract: An in vivo model of liver metastasis induced by human gastric carcinoma was established in nude mice and used for locoregional or systemic immunotherapy with a subset of human A-natural killer (NK) cells defined previously. A single intrasplenic (i.s.) delivery of A-NK cells (1 × 10 7 ) and interleukin 2 (IL-2; 60,000 international units, twice a day for 5 days, i.p.) to animals with 3-day established liver metastases, but not IL-2 alone, resulted in rapid (within 24 h) elimination of the majority of metastases and significantly improved survival. A single i.s. or i.v. transfer of these effector cells and IL-2 significantly prolonged survival of the mice with 3-day established metastases ( P P 51 Cr-labeled A-NK cells, it was determined that, at best, 75% of 1 × 10 7 cells delivered i.s., and up to 50% of those delivered i.v. were found in the liver 30 min-4 h later. Using image analysis with Di-O dye-labeled A-NK cells, 60–100% of A-NK cells delivered i.s. or i.v. were detected in the liver 24 h later. By light microscopy, 3-day liver metastases were mostly intravascular, but some had already begun to spread into liver tissue. When rhodamine- or Di-O dye-labeled A-NK cells were injected i.s. or i.v. to study their distribution in the liver, they were detectable by confocal fluorescence microscopy in tumor-free tissue and in association with tumor cells 12–24 h after transfer. No evidence for selective localization of A-NK cells to liver metastases was obtained; many A-NK cells were randomly distributed in tissue and not associated with visible metastases. However, confocal fluorescence and electron microscopy showed some A-NK cells to be in cell-to-cell contact with tumor cells, both in the blood vessels and liver tissue. These results indicate that a majority of human A-NK cells transferred i.s. or i.v. to mice with liver metastases have the capacity to migrate to the liver and to enter liver tissue and tumor metastases in vivo . The presence of these effector cells even in a modest number in the liver leads to elimination of most, but not all, metastases and to significantly prolonged survival of animals treated with A-NK cells and IL-2.

A study on the mechanism of phalloidin-induced tension changes in skinned rabbit psoas muscle fibres.

Abstract: The time course of phalloidin induced changes in isometric tension of partially activated skinned rabbit psoas fibres was studied as a function of both phalloidin concentration and time of pre-incubation with phalloidin. Upon addition of phalloidin to non-pretreated (control) fibres there was a fall in tension folllowed by an increase in tension. The latency of both parts of the response was inversely related to the phalloidin concentration in the range 40–130 μm phalloidin. By pre-incubating the fibres with phalloidin for varying periods of time it was possible to obtain responses which appeared to represent later portions of the control response. Thus after pre-treatment with 40 μm phalloidin in either rigor or relaxing solution for 5 min (the time corresponding to minimal tension in the control response) the tension response resembled that of the control, beginning from the vicinity of the minimum. The pattern of staining of the fibres by rhodamine-phalloidin was analysed by laser confocal microscopy to relate the mechanical response to phalloidin localization. If fibres were treated with rhodamine-phalloidin for 20–25 min there was a labelling of the I-Z-I segment with intense peaks of fluorescence at the Z-line and the ends of the I filaments. If fibres were pre-incubated for 5 min with phalloidin and then labelled with rhodamine-phalloidin the fluorescence at the Z-line and at the ends of the I filaments was suppressed and the peak of the fluorescence intensity was shifted toward the middle part of the I filament. The data indicate that the decrease in tension caused by phalloidin was associated with binding of phalloidin to the pointed ends of actin filament and the Z-line region, whereas the increase in tension occurred when phalloidin was bound along entire length of the actin filament.

NKR-P1+ cells localize selectively in Rat 9L gliosarcomas but have reduced cytolytic function.

Abstract: To better understand immune responses to brain tumors and to develop possible approaches for immunotherapy, we have investigated the leukocyte populations infiltrating the rat 9L gliosarcoma. By immunocytochem-ical analyses of the cells infiltrating the tumor, we observed a substantial number of cells expressing natural killer cell receptor protein 1 (NKR-P1), a marker expressed only on rat lymphocytes capable of non-MHC-restricted cytotoxicity. Previous investigations have determined the existence of three populations of NKR-P1+ lymphocytes in normal rats, including NKR-P1bright/T-cell receptor (TCR)-/CD3-/CD5- (approximately 5-15%), NKR-P1dim-/TCRalphabeta+/CD3+/CD5+ (approximately 1-5%), and NKR-P1dim/TCRgammadelta+/CD3+/CD5+ (approximately 0.5-2%). By one-parameter flow cytometry, it was determined that NKR-P1+ cells constituted 30-60% of the lymphocytes in 9L tumors. Among splenic lymphocytes or peripheral blood leukocytes, NKR-P1bright cells are 1.5-4.5 times more numerous than NKR-P1dim cells. In striking contrast, NKR-p1dim cells were 4-5 times more numerous than NKR-P1bright cells among lymphocytes isolated from 9L tumors. Using quantitative analyses of laser confocal microscopic scans, we determined that NKR-P1dim cells were approximately 4 times as numerous as NKR-P1bright cells in situ, confirming flow cytometric findings. By two-color now cytometric analyses, it was observed that approximately 5-10% of the cells were NKR-p1bright/CD5-/TCR-, a phenotype representative of NK cells. Also, approximately 11-25% of the cells were NKR-P1dim/CD5+/TCR+ cells, corresponding to the T-cell subset with non-MHC-restricted lytic function. In addition, we observed a cell population among 9L-derived lymphocytes with a NKR- p1dim/CD5-/TCR- phenotype (approximately 15-25%). Cells of this phenotype have not been reported previously, and most likely represent NK cells down-modulated for expression of NKR-P1. Alternatively, they might represent cells of unknown origin or cells down-modulated for expression of T-cell markers in the microenvironment of 9L tumors. We also compared the lytic capacity of NKR-P1+ populations derived from normal animals and from 9L gliosarcomas. In these experiments, it was determined that, although cells isolated from 9L tumors had some capacity to lyse tumor target cells, they were clearly less efficient than cells isolated from normal splenocytes. Cumulatively, these data suggest that there is selective localization of cells capable of mediating antitumor responses in 9L, but that tumor-associated factors may down-regulate their function and expression of NKR-P1.