Vaccination with a Melan-A peptide selects an oligoclonal T cell population with increased functional avidity and tumor reactivity

Both the underlying molecular mechanisms and the kinetics of TCR repertoire selection following vaccination against tumor Ags in humans have remained largely unexplored. To gain insight into these questions, we performed a functional and structural longitudinal analysis of the TCR of circulating CD8(+) T cells specific for the HLA-A2-restricted immunodominant epitope from the melanocyte differentiation Ag Melan-A in a melanoma patient who developed a vigorous and sustained Ag-specific T cell response following vaccination with the corresponding synthetic peptide. We observed an increase in functional avidity of Ag recognition and in tumor reactivity in the postimmune Melan-A-specific populations as compared with the preimmune blood sample. Improved Ag recognition correlated with an increase in the t(1/2) of peptide/MHC interaction with the TCR as assessed by kinetic analysis of A2/Melan-A peptide multimer staining decay. Ex vivo analysis of the clonal composition of Melan-A-specific CD8(+) T cells at different time points during vaccination revealed that the response was the result of asynchronous expansion of several distinct T cell clones. Some of these T cell clones were also identified at a metastatic tumor site. Collectively, these data show that tumor peptide-driven immune stimulation leads to the selection of high-avidity T cell clones of increased tumor reactivity that independently evolve within oligoclonal populations.     

The kinetics of emergence and loss of mediator T lymphocytes acquired in response to infection with Mycobacterium tuberculosis

Mice infected i.v. with the virulent Erdman strain of Mycobacterium tuberculosis exhibited three distinct phases of infection within the spleen. These consisted of a primary phase, characterized by the progressive growth of the organism; a secondary phase, in which the viable organism was progressively eliminated; and a tertiary phase, characterized by a chronic or slowly recrudescing disease state. Passive transfer experiments, in which T cell-enriched spleen cells from immune donors were infused into T cell-deficient recipients and were measured for their capacity to adoptively protect these mice from challenge with M. tuberculosis, provided evidence that at least three separate populations of protective T cells were acquired in response to the infection within the time frame of the experiments. These populations of T cells could be distinguished in that they differed in their expression of the L3T4 and Lyt-2 cell surface molecules, in terms of their kinetic profiles of emergence and loss, and (c) in terms of their susceptibility to cyclophosphamide. The results may suggest that different populations of protective T cells can be generated at different times during the infection as various classes of antigens (for example, metabolic or structural antigens) become available for presentation by host macrophages. It is hypothesized, furthermore, that the kinetics of emergence and loss of these various populations may reflect switching in the mode of immunity being expressed, particularly during the chronic phase of the infection, from that of a state of active immunity to one of immunologic memory.     

Physiological Characterization of Adaptive Clones in Evolving Populations of the Yeast, SACCHAROMYCES CEREVISIAE

Populations of a diploid strain of S. cerevisiae were grown in glucose-limited continuous culture for more than 260 generations. A series of seven sequential adaptive changes were identified by monitoring the frequency of cycloheximide resistance in these populations. Samples were taken from the continuous cultures following each adaptive shift and characterized physiologically to determine (1) the range of phenotypes that can be selected in a precisely defined constant environment and (2) the order and predictability of the occurrence of the adaptive mutations in evolving populations. The clones were characterized with respect to the growth parameters, maximum growth rate, saturation coefficient and yield, as well as for changes in cell size and geometry and rate of glucose uptake. The maximum growth rates of the seven adaptive clones were very similar, but in contrast the saturation coefficients differed substantially. Surprisingly, not all clones showed reductions in the saturation coefficients, in comparison to the immediately preceding clones, as would be predicted from classical continuous culture kinetics. In addition, yield estimates first increased and then decreased for later isolated adaptive clones. In general, the results suggest epistatic interactions between the adaptive clones, consistent with earlier published results. The rate of glucose uptake, as measured by 14C-xylose uptake, increased dramatically after the selection and fixation of seven adaptive clones. Progressive decreases in cell volume and changes in cell geometry, resulting in increased surface area to volume ratios, were also observed in the adaptive clones, but these changes were not always seen in other haploid and diploid yeast populations evolving under the same conditions. Such changes may be easily explainable in terms of the characteristics of the glucose-limited environment. The significance of the results to the evolution of microorganisms under nutrient-limiting conditions is discussed.     

Functional analysis of antigen-nonspecific T-cell suppression. I. Effect of mitogen-induced T suppressor cells on helper-T-cell clones

The effect of mitogen-induced nonspecific suppressor T cells (Ts)2 on T-helper-cell activity was investigated using isolated clones of murine T-helper cells as targets. TNP-self-reactive Thy1+, Ly1+ T-cell clones were isolated after continuous culture of T cells derived from picryl chloride-sensitized mice and were characterized by their ability to proliferate in an antigen-specific and MHC-restricted manner. In addition, selected T-cell clones were found to produce both interleukin-2 (Il-2) and T-cell replacing factor (TRF), lymphokines characteristic of helper T cells. Concanavalin A (Con A)-induced Ts cells inhibited the antigen-specific proliferation of these helper-T cell clones in a noncytotoxic manner even in the presence of exogenous Il-2. This implied that failure to proliferate was not merely due to an inability of these clones to produce Il-2. The kinetics of suppression also suggested that early T-cell activation signals were not affected. Furthermore, coculture experiments indicated that while proliferation could be severely inhibited, the actual secretion of lymphokines such as Il-2 and TRF by the T-helper clones was not. Our data suggest that nonspecific Ts modulation of proliferation versus helper factor production are under separate control in cloned T-cell populations, with lymphokine secretion remaining intact in the presence of Con A-induced Ts cells.     

Virus-induced interferon alpha/beta (IFN-alpha/beta) production by T cells and by Th1 and Th2 helper T cell clones: a study of the immunoregulatory actions of IFN-gamma versus IFN-alpha/beta on functions of different T cell populations

Spleen cells, resting T cells, activated T cells, and T cell clones characterized as type 1 (Th1) and type 2 (Th2) were investigated for their ability to produce interferon (IFN) following in vitro culture with Newcastle disease virus (NDV). All of the above cell populations, including both Th1 and Th2 T cell clones, produced high levels of IFN following in vitro culture with NDV. This IFN was characterized as a mixture of IFN-alpha and IFN-beta with IFN-alpha being the predominate species of IFN contained in the mixture. IL-2 greatly enhanced the production of IFN-alpha/beta by all cell populations in response to NDV. These different T cell populations responded very differently to the immunoregulatory actions of IFN-gamma versus IFN-alpha/beta. IFN-alpha/beta was shown to be a potent inhibitor of Con A or IL-2-induced proliferation of different T cell populations. This inhibition was not associated with a reduction in lymphokine production since spleen cells or Th1 T cell clones cultured with Con A and IFN-alpha/beta had no decrease in IL-2 or IFN-gamma production when compared to Con A-stimulated control cultures. IFN-gamma had little to no inhibitory activity on Con A-induced proliferation of spleen cells. In fact, Con A-induced proliferation was usually enhanced by IFN-gamma when nylon wool-enriched T cells were assessed. Different results were observed when IFN-gamma and IFN-alpha/beta were investigated for their ability to inhibit IL-2-induced proliferation of different T helper cell clones. IFN-gamma and IFN-alpha/beta were both capable of inhibiting IL-2-induced proliferation of T cell clones characterized as type 2 (Th2). In contrast, IFN-gamma had no effect on IL-2-induced proliferation of Th1 clones. IFN-alpha/beta, however, inhibited IL-2-induced proliferative responses of both Th1 and Th2 T cell clones. These results document the facts that (1) IFN-gamma and IFN-alpha/beta differ in their immunoregulatory actions, (2) different T cell subpopulations vary in their susceptibility to IFN-gamma regulation, and (3) virus induction of IFN-alpha/beta appears to be a ubiquitous function associated with different T cell populations.     

Differential androgen sensitivity is associated with clonal heterogeneity in steroid metabolism, ornithine decarboxylase regulation and IL-1alpha action in mouse mammary tumor cells

Upon androgen deprivation, Shionogi (SC-115) mouse mammary tumors undergo phenotypic changes enabling their escape from growth dependence on androgens. Even within androgen-responsive cell populations, marked clonal heterogeneity is observed in the trophic effects of androgens. The present study compares several parameters of androgen action between three SC-115 cell clonal subpopulations exhibiting high (clone 107), low (clone S1A2) and no trophic response (clone 415) to androgens. These parameters pertain to (1) kinetics of androgen binding, (2) metabolism of 5alpha-dihydrotestosterone (DHT), 5alpha-androstane-3alpha,17beta-diol (3alpha-diol) and 5alpha-androstane-3beta,17beta-diol (3beta-diol), (3) ornithine decarboxylase (ODC) activity and (4) interleukin-1alpha (IL-1alpha) action on cell proliferation. Only marginal differences in the affinity and abundance of androgen-specific binding sites were detected between the three clones. While clone S1A2 degraded DHT to 3alpha-diol at a much faster rate than the highly androgen-sensitive 107 cells and androgen-insensitive 415 cells, differences in the rates of intracrine conversion of 3alpha-diol and 3beta-diol to DHT did not correlate with the ability of these steroids to stimulate cell proliferation. Induction of ODC activity at the onset of exponential growth was strongly DHT-dependent in 107 cells, whereas this dependence was markedly attenuated in androgen-hyposensitive cells. Unexpectedly, DHT strongly repressed the marked ODC induction resulting from fresh medium addition in 415 cells which show no growth response to androgens. Low IL-1alpha concentrations were mitogenic in all three SC-115 clones. Whereas the mitogenic action of IL-1alpha was completely androgen-dependent in 107 cells, this dependence was relieved in S1A2 cells, which responded to DHT and IL-1alpha in an additive fashion. Thus, clonal heterogeneity in the pattern of steroid metabolism within Shionogi tumors cannot solely account for loss of androgen dependence, which may rather correlate with the constitutive activation of transduction pathways controlling the expression of growth-associated genes (e.g. ODC) by serum growth factors, including IL-1alpha.     

In Vitro Transformation by Adenovirus-Simian Virus 40 Hybrid Viruses: IV. Properties of Clones Isolated from Cell Lines Transformed by Adenovirus 2-Simian Virus 40 and Adenovirus 12-Simian Virus 40 Transcapsidant Hybrid Viruses

Clones were isolated from hamster cells transformed by the adenovirus 2-SV40 and adenovirus 12-SV40 transcapsidant hybrid viruses. The clones were characterized with respect to their cytomorphology, virus and antigen content, and the histomorphology of tumors induced by transplantation of the clonal sublines to hamsters. Three different cellular and colonial morphologies were observed. Clones with an SV40 morphology gave rise to tumors predominantly with an SV40 histology, whereas clones with an adenovirus morphology produced typical adenovirus tumors upon transplantation of the transformed cells. Clones which had features of both SV40 and adenovirus transformed cells gave rise to "intermediate" and adenovirus tumors. The results indicate that multiple events occur during transformation and tumorigenesis by the transcapsidant virus populations and provide an explanation for the multiplicity of findings which have been reported with these virus populations.     

Patterns of postradiation recovery of the spermatogenic epithelium in rodents and man

On the basis of the data reported in the literature a model is proposed describing the kinetics of the post-irradiation recovery of the main spermatogenous epithelium populations. In studying the spermatogenous epithelium structure of rodents and comparing the experimental and theoretical curves the parameters necessary for the kinetics estimations have been quantitated and their specific variations analysed. From these the parameters have been obtained and the kinetic curves shaped with a reference to human spermatogenous epithelium.     

Regulation of cellular phenotype and expression of polyomavirus middle T antigen in rat fibroblasts.

Polyoma middle T antigen (mT) was expressed in rat F-111 cells under control of the dexamethasone-regulatable mouse mammary tumor virus promoter. Graded phenotypic responses to levels of mT induction by the hormone were seen, with morphological transformation, focus formation, and anchorage-independent growth requiring increasing levels of mT expression. The ability of different clones to form tumors reflected their maximum level of induction of mT-associated kinase and their ability to grow in soft agar. Expression of transformation parameters and tumorigenicity correlates with the level of mT phosphorylated by pp60c-src in immune complexes and not with the total amount of mT determined by metabolic labeling. We suggest that cellular factors regulate mT activity by forming a kinase-active fraction of mT molecules that controls the transformed state.     

Cell kinetic study of human cancers transplanted to nude mice

Using 3H-TdR pulse labelling, the cell kinetics of four, serially transplantable, human tumors were studied in athymic nude mice. Squamous cell carcinoma of the lung, tongue and esophagus showed relatively similar cell kinetic parameters. The growth of an oat-cell carcinoma was initially very slow in mice and its growth fraction was unexpectedly small with a relatively low labelling index. Its postmitotic phase was very short. It was concluded that the nude mice/human tumor system may be useful for cell kinetic studies of human tumors from the standpoint of tumor biology and therapy.     

Response against single minor histocompatibility antigens. I. Functional and immunogenetic analysis of cloned cytolytic T cells

A clonal approach was used to investigate the cellular basis of a T cell response to single minor histocompatibility antigens (miHA). This analysis was performed by functional and immunogenetic characterization of a large number of clones derived from short-term mixed leukocyte culture (MLC) populations generated against the miHA, H-1.3. Forty-nine clones isolated from such MLC were specifically cytolytic for H-1.3-bearing, H-2Db-compatible target cells. Thirty-seven of the 49 cytolytic clones were driven to proliferate when stimulated by spleen cells bearing the H-1.3 alloantigen in the absence of added T cell-derived growth factor(s) (GF). The remaining 12 clones proliferated only when GF was added. A strong positive correlation was observed between antigen-induced proliferation and the production of interleukin 2 (IL 2) activity. A similar correlation was observed when comparing the ability of both antigen and concanavalin A to induce IL 2 activity from the clones. These data suggest that i) antigen-driven or helper T cell-independent cytolytic T cells (HITc) are frequent components of an MLC response to a single miHA, and ii) the ability of HITc to undergo antigen-driven proliferation is related to their ability to produce antigen-induced GF.     

Various characteristics of Yersinia pseudotuberculosis determined by plasmid 45 Md associated with calcium dependence

The clones of two types (T+ and T-) have been identified among the strains of Y. pseudotuberculosis. The difference in the morphology of the clones is based on the ability of T+ clones to agglutinate in the process of growth. The identified clones are different in calcium dependence, in the ability to agglutinate and in their virulence for the laboratory animals. The differences have been proved to be connected with the presence of a 45 Md plasmid in T+ cells. Replication of this plasmid is suppressed by the acridine orange dye in concentrations of 12.5 or 25.0 mkg X ml-1. The plasmid is spontaneously lost from the strains during their continuous storage. The microscopy of colonies permits the selection of clones with the parental phenotype from the populations having lost the 45 Md plasmid.     

Genetic tagging of tumor cells with retrovirus vectors: clonal analysis of tumor growth and metastasis in vivo.

Retrovirus vector infection was used to introduce large numbers of unique genetic markers into tumor cell populations for the purpose of analyzing comparative changes in the clonal composition of metastatic versus that of nonmetastatic tumors during their progressive growth in vivo. The cell lines used were SP1, a nonmetastatic, aneuploid mouse mammary adenocarcinoma, and SP1HU9L, a metastatic variant of SP1. Cells were infected with delta e delta pMoTN, a replication-defective retrovirus vector which possesses the dominant selectable neo gene and crippled long terminal repeats. G418r colonies were obtained at a frequency of 4 x 10(-3). Southern blot analysis of a number of clones provided evidence of random and heritable integration of one or two copies of the proviral DNA. Clonal evolution of primary tumor growth and the nature of lineage relationships among spontaneous metastases and primary tumors were analyzed by subcutaneously injecting 10(5) cells from a pooled mixture of 3.6 x 10(2) G418r SP1HU9L or 10(4) G418r SP1 colonies into syngeneic CBA/J mice. The most striking finding was the relative clonal homogeneity of advanced primary tumors; they invariably consisted of a small number (less than 10) of distinct clones despite the fact that hundreds or thousands of uniquely marked clones had been injected. In the case of the metastatic SP1HU9L cells, the nature of these "dominant" clones varied from one tumor to another. Analysis of a number of lung metastases revealed that a proportion of them were derived from dominant primary tumor clones and were composed of one, and sometimes two, distinct progenitors. In some animals, all the lung metastases were derived from a common progenitor clone, whereas in others, each metastatic nodule had a different progenitor. The results show the following. (i) Retrovirus vector infection can be used to introduce large numbers of unique and stable clonal markers into tumor cell populations. (ii) The progeny of a very limited number of clones dominate in advanced primary tumors. (iii) Mammary carcinoma metastases are of mono- or biclonal origin. The significance of the results is discussed.     

Cytotoxicity mediated by tumor necrosis factor in variant subclones of the ME-180 cervical carcinoma line: modulation by specific inhibitors of DNA topoisomerase II

The mechanism of tumor necrosis factor (TNF)-induced cytotoxicity has been investigated using two clonal variants of the ME-180 human cervical carcinoma cell line. The clonal lines were characterized with respect to their expression of TNF receptors, kinetics of cell death, and their ability to communicate intercellularly through gap junctions. The ME-180.4 and ME-180.8 clones were identified by their relative sensitivity to TNF induced lysis in a 24-h assay. The dose of TNF required to kill 50% of the target cells was 60 pM for the sensitive ME-180.4 and 2.5 nM for the ME-180.8. However, when assay times were extended, the dose response for both clones was the same, indicating that a difference in the kinetics of cell death and not absolute TNF sensitivity existed between the ME-180.4 and ME-180.8 clones. Both clones were gap junction deficient as judged by their inability to transfer Lucifer yellow or 6-carboxyfluorescein, a characteristic phenotype of cells sensitive to cytotoxicity by TNF. The level of surface receptor expressed on these clones was nearly identical with a Kd = 0.3 nM and 5,000 binding sites per cell. Measurement of the kinetics of cell death revealed that the time between the addition of TNF and the onset of observed cell death (induction phase) was much shorter for the ME-180.4 (32-55 h) than for the resistant ME-180.8 (55-80 h). Mitomycin C, a DNA alkylating agent, significantly reduced the length of the induction phase for both clones, although the kinetic difference between the clones remained unchanged. Two epipodophyllotoxins, VP-16 and VM-26, which specifically inhibit the rejoining activity of DNA topoisomerase II, showed a 10-100-fold synergistic effect when combined with TNF as shown by isobologram analysis. VM-26 when added to the resistant ME-180.8 clones decreased the length of induction phase and abolished the kinetic difference observed with the ME-180.4 clone. These results indicate that the variance in the TNF response of these two clones was closely associated with DNA topoisomerase II, and suggest that this enzyme may play an important role in TNF mediated cytotoxicity.     

Cytokinetic parameters of locally advanced human breast cancer treated with diethylstilbestrol and chemotherapy

Thirty-six patients with locally advanced breast cancer received diethylstilbestrol (1 mg/die) for 3 days followed by FAC (5 Fu 600 mg/m2, adriamycin 50 mg/m2, cytoxan 600 mg/m2) on day 4, q. 21 days. After three cycles, responsive patients were submitted to surgery. Tumor kinetic parameters were evaluated by TLI and PDP-LI in 22 patients on serial tumor biopsies at diagnosis (TO), after DES (T1), 24 hrs after the first FAC (T2) and at the time of radical surgery (T3). An estrogenic recruitment was evident by TLI in 9/22 tumors and by PDP-LI in 16/22 patients. Our results demonstrate that diethylstilbestrol can induce a kinetic recruitment of breast cancer cells independently from their ER content and that chemotherapy is able to stop cell proliferation.     

Functional analysis in vitro and in vivo of Mycobacterium bovis strain BCG-specific T cell clones

Several cloned T cell lines specific for PPD and BCG were obtained. All clones were able to secrete lymphokine, i.e., MAF/interferon, upon antigenic stimulation. The surface phenotype of all these different clones was Thy-1.2+, L3T4+, Lyt-2-, suggesting that these lines belonged to the helper/inducer T cell subset. The T cell clones displayed various degrees of helper activity as tested in a secondary antibody response in vitro. The capacity of these clones to elicit DTH reactions in the presence of antigen and their ability to inhibit mycobacterial growth in vivo were tested by transferring locally the different clones to normal mice. The clones which exhibited little or no helper activity were able to elicit DTH responses, whereas the clone with strong helper activity did not. Both types of functionally defined clones had the capacity to inhibit the growth of intracellular mycobacteria in vivo.     

Population dynamics of human activated natural killer cells in culture

The growth kinetics and population dynamics of recombinent interleukin-2 (rlL-2) stimulated human natural killer (NK) cell-enriched populations were studied in vitro. The NK-enriched populations was obtained from normal peripheral blood mononuclear cells (PBMNC) by immunomagnetic bead depletion of CD3(+) and CD5(+) T cells. The growth kinetics of NK cells, T cells, monocytes, and total cells are shown. In the absence of PBMNC accessory cells, the NK-enriched population showed limited expansion. In the presence of PBMNC accessory cells, the NK-enriched population expanded threefold more than in the absence of accessory cells due to increased NK cell growth rate and increased duration of exponential growth. Using a Transwell system, which separates two cell population by a polycarbonate membrane, the accessory cells were shown to act on the NK-enriched population via a diffusible factor. Accessory cell conditioned media was able to replace the accessory cell population to stimulate NK cell expansion. A monocyte-enriched population prepared by sheep red blood cell rosetting of T cells was extensively phenotyped and compared with the NK-enriched populations. Although the final cultured cells were phenotypically homogeneous for CD56(+)/CD3(-) NK cells, the initial NK precusor populations appear to be different. Namely, the NK cell precursors in the monocyte-enriched population were predominantly CD56(+)/CD2(-). Kinetic equations were formulated for this culture system and the effects of major culture variables are investigated.     

Trypanosoma cruzi: Biological Characterization of 19 Clones Derived from Two Chronic Chagasic Patients. I. Growth Kinetics in Liquid Medium1

Nineteen clones of Trypanosoma cruzi were obtained as single-cell isolates from Triatoma infestans. Ten of the clones were isolates from a patient with chronic Chagas' disease; nine clones were isolates from a dog infected with T. cruzi strain CA-I isolated originally from a chronic chagasic patient. The growth kinetics and peak modal Coulter volume of these clones were characterized. Significant inter- and intra-group differences between growth rates and peak modal volumes were found. These data indicate that subpopulations and, consequently, genetic heterogeneity of T. cruzi exist in chronic chagasic patients. All of the clones infected vertebrate cells in vitro.