Determination of in vivo and in vitro radiosensitivity of mouse splenic T-lymphocytes using a T-cell cloning technique

Recently the authors established a method for culturing mouse splenic T-lymphocytes with T-cell growth factor (TCGF) and feeder cells in vitro. Using this method, T-lymphocytes grow for approximately 14 days with population doubling times of 27-29 hr; cloning efficiencies (CEs) of mouse spleen cells ranged from three to twelve percent. Using this colony forming assay, in vivo and in vitro radiosensitivity of mouse splenic T-lymphocytes in the G0 phase and in vitro radiosensitivity of proliferating T-lymphocytes (cycling T-lymphocytes) were examined. For in vitro irradiation, the dose-survival curve of T-lymphocytes in G0 phase gave a D0 value of 0.99 Gy and a Dq value of 0.87 Gy and that of cycling T-lymphocytes gave a D0 value of 1.04 Gy and a Dq value of 0.19 Gy. For in vivo irradiation, the dose-survival curve of T-lymphocytes gave a D0 value of 1.01 Gy and a Dq value of 0.73 Gy. These results suggest that the recovering activity from sublethal damage of G0 T-lymphocytes was more effective than that of cycling T-lymphocytes. Furthermore, this colony forming assay system appears to be very useful for screening the effects of in vivo exposure to toxic and/or mutagenic agents and for comparing the effects of in vivo exposure with those of in vitro exposure to toxic agents as well as radiation.

Selection of encephalitogenic rat T-lymphocyte clones recognizing an immunodominant epitope on myelin basic protein

Using the soft agar-cloning technique, we isolated 13 T-cell clones from guinea pig basic protein (GP-BP)-specific T-cell lines derived from Lewis rats. The clonal frequency was approximately 2.5 x 10(-5). Each of these clones had a similar but not identical pattern of response to a battery of synthetic peptides representing overlapping epitopes in the encephalitogenic region for Lewis rats (69-89 sequence). All clones responded to the minimal encephalitogenic sequence (residues 72-84) restricted by I-A but not I-E molecules, and all transferred clinical experimental autoimmune encephalomyelitis (EAE) and delayed-type hypersensitivity (DTH) reaction to naive rats. Phenotypically, the clones were W3/13+ (total T), W3/25+ (T helper), and OX-22+ (DTH associated). This report demonstrates for the first time the applicability of the soft agar-cloning technique for obtaining encephalitogenic T-cell clones. The exclusive recovery of 72-84-specific T-cell clones after only two rounds of stimulation with GP-BP indicates the immunodominance of this epitope and the power of the line selection technique for obtaining encephalitogenic T-cell specificities.

Ultraviolet B light inactivates bone marrow T lymphocytes but spares hematopoietic precursor cells

Bone marrow cells from ten normal donors were exposed to ultraviolet (UV)C or UVB light for total exposures of 0.1 to 100 mJ/cm2, and assayed for granulocyte-macrophage colony-forming units (CFU-GM), erythroid burst-forming units (BFU-E), and phytohemagglutinin (PHA)-stimulated proliferative responses. After exposure to UVC CFU-GM, BFU-E and PHA responses showed a UV dose-dependent sharp decrease to levels less than 1% of controls with 0.5, 2.0, and 10 mJ/cm2, respectively. With UVB, PHA responses were most sensitive, declining to less than 1% at 5 mJ/cm2. BFU-E decreased to less than 1% of control with 15 mJ/cm2 UVB. CFU-GM, at UVB doses of 0.1 to 2.0 mJ/cm2, increased to 125% to 130% of control and decreased to less than 1% only at exposures greater than 20 mJ/cm2. Thus, these studies show that UVB, but not UVC light, can be used to inactivate bone marrow T lymphocytes selectively while sparing hematopoietic precursor cells. The data suggest that UVB irradiation can be used for T-lymphocyte purging for allogeneic marrow transplantation.

Aphidicolin inhibition of gamma-radiation-induced DNA repair in human lymphocyte subpopulations

1. DNA repair was measured in 3 Gy gamma-irradiated human peripheral lymphocyte subpopulations by means of nucleoid sedimentation. 2. The influence of aphidicolin (an inhibitor of DNA polymerase) on the repair process was investigated. 3. Repair of 40-44% of the DNA lesions induced by gamma-irradiation was blocked by aphidicolin. 4. Enriched B- and T-lymphocyte fractions were affected by aphidicolin to the same extent.

Consequences of exposure to ionizing radiation for effector T cell function in vivo

The adoptive transfer of actuely primed and memory virus-immune CD8+ T cells causes enhanced meningitis in both cyclophosphamide (Cy) suppressed, and unsuppressed, recipients infected with lymphocytic choriomeningitis virus (LCMV). The severity of meningitis is assessed by counting cells in cerebrospinal fluid (CSF) obtained from the cisterna magna, which allows measurement of significant inflammatory process ranging from 3 to more than 300 times the background number of cells found in mice injected with virus alone. Exposure of the donor immune population to ionizing radiation prior to transfer has shown that activated T cells from mice primed 7 or 8 days previously with virus may still promote a low level of meningitis in unsuppressed recipients following as much as 800 rads, while this effect is lost totally in Cy-suppressed mice at 600 rads. Memory T cells are more susceptible and show no evidence of in vivo effector function in either recipient population subsequent to 400 rads, a dose level which also greatly reduces the efficacy of acutely-primed T cells. The results are interpreted as indicating that heavily irradiated cells that are already fully functional show evidence of primary localization to the CNS and a limited capacity to cause pathology. Secondary localization, and events that require further proliferation of the T cells in vivo, are greatly inhibited by irradiation.

The genesis of Thy-1-lymphomas in NFS mice exposed to X irradiation

The kinetics of the appearance of potentially leukemic cells (PoLCs) for radiation-induced lymphoma in NFS mice was investigated by the opposite sex (male----female) transplantation assay. The origin of the cells of the lymphomas that developed in the host was decided by sex chromosome markers. The bone marrow and the spleen cells collected from mice 30 days after fractionated irradiation (1.7 Gy X 4) gave rise, upon transfer to 4-Gy-irradiated hosts, to tumors of either donor or host origin. Most tumors of donor origin were thymine-1-negative (Thy-1-) and surface immunoglobulin negative and classified as nonthymic lymphoma, while the tumors of host origin were mainly Thy-1-positive thymic lymphoma. In contrast, neither the bone marrow nor the thymus contained any PoLCs for thymic lymphoma 30 days after split-dose irradiation. These results indicate that PoLCs for Thy-1-lymphoma were induced in the bone marrow and spleens of NFS mice by the split-dose regimen which developed exclusively T-cell lymphomas in the absence of cell grafting.

Impaired in-vitro proliferation of hemopoietic precursors in HIV-1-infected subjects

Patients with acquired immunodeficiency syndrome (AIDS) and persistent lymphadenopathy syndrome (LAS) display significant hematological abnormalities of one or more cell lineages. In order to understand the pathophysiologic mechanisms leading to these abnormalities we studied the proliferation capacity of pluripotent and committed hemopoietic precursors using in-vitro colony assays. Anemia, leukopenia and thrombopenia were relatively frequent findings in HIV-infected subjects irrespectively of the patients' clinical status. The colony growth capacity of AIDS patients' GM-CFU and BFU-E was significantly decreased whereas no GEMM-CFU colonies could be obtained. There was no correlation between the number of BFU-E and GM-CFU colony number and the hemoglobin or the absolute number of polynuclear cells, respectively. The plating efficiency of both committed and pluripotent hematopoietic precursors from HIV infected patients could not be enhanced when additional exogenous recombinant GM-CSF, human interleukin 3 or erythropoietin were added in contrast to normal patients' cells. In addition, the impaired colony growth of these precursors could not be restored after adherent or T-cell depletion or the addition of normal allogenic irradiated adherent or/and T cells. Since this colony growth abnormality was also detected in HIV seropositive asymptomatic subjects our findings strongly suggest that the in-vitro growth of hematopoietic precursors is affected early after HIV-1 infection.

[Immunity after exposure to radiation]

The results of proper investigations and literature data obtained while studying the effect of single general radiation, radioisotopes of iodine, strontium and cesium on experimental animals are presented. The data thus obtained enable one to form a pattern of radiation-induced injuries within the nearest and remote period of time following radiation accident. Impairments of nonspecific humoral and cell protection T- and B-immunity systems and the onset of autosensitization are of great significance for the nearest (infection) and late radiation effects (malignant neoplasms, cataracts, aging, disorders of the reproductive function) and should be taken into account in hygienic assessment of potential health variations and shaping of preventive activities.

Effect of novobiocin on gamma-radiation-induced DNA repair in human lymphocyte subpopulations

1. DNA repair was measured in 3 Gy gamma-irradiated human peripheral lymphocyte subpopulations by means of nucleoid sedimentation. 2. The influence of the antibiotic, novobiocin (an inhibitor of inter alia topoisomerase II) on the repair process was investigated. 3. Repair of 33 37% of the DNA lesions induced by gamma-irradiation in enriched B lymphocyte fractions, was retarded by novobiocin. 4. Repair in enriched T lymphocyte fractions was unaffected by novobiocin.

Immunosuppression in irradiated breast cancer patients: in vitro effect of cyclooxygenase inhibitors

We have documented in previous studies that local irradiation therapy for breast cancer caused severe lymphopenia with reduction of both T and non-T lymphocytes. Non-T cells were relatively more depressed but recovered within six months. The recovery of T cells, on the other hand, remained incomplete 10-11 years after irradiation. Several lymphocyte functions were also severely impaired. An association was found between prognosis and postirradiation mitogen reactivity of lymphocytes from these patients. Mortality up to eight years after irradiation was significantly higher in patients with low postirradiation phytohemagglutinin and PPD reactivity. The radiation induced decrease in mitogenic response seemed mainly to be caused by immunosuppressive monocytes, which suggests that the underlying mechanism might be mediated by increased production of prostaglandins by monocytes. For this reason we examined the effect of some cyclooxygenase products on different lymphocyte functions and found that prostaglandins A2, D2, and E2 inhibited phytohemagglutinin response in vitro. Natural killer cell activity was also reduced by prostaglandins D2 and E2. The next step was to examine various inhibitors of cyclooxygenase in respect to their capacity to revert irradiation-induced suppression of in vitro mitogen response in lymphocytes from breast cancer patients. It was demonstrated that Diclofenac Na (Voltaren), Meclofenamic acid, Indomethacin, and lysin-mono-acetylsalicylate (Aspisol) could enhance mitogen responses both before and after radiation therapy. This effect was most pronounced at completion of irradiation. On a molar basis, Diclofenac Na was most effective followed by Indomethacin, Meclofenamic acid, and lysin-monoacetylsalicylate. The clinically beneficial effects of irradiation might be overshadowed by its effects on the immune system. If true, the value of treatment could be improved if radiation-induced suppression of lymphocyte response, which correlates inversely to survival, is reduced. Since such an effect can be achieved in these patients with cyclooxygenase inhibitors in vitro it is possible that it can be achieved also in vivo.

Absence of RT6+ T cells in diabetes-prone biobreeding/Worcester rats is due to genetic and cell developmental defects

Diabetes-prone BB/Wor (DP) rats lack the RT6+ peripheral T cell subset whereas diabetes-resistant BB/Wor rats have normal numbers of RT6+ T cells. Lymphocyte transfusion experiments and in vivo depletion studies have demonstrated that RT6+ T cells have an important regulatory role in the pathogenesis of insulin-dependent diabetes mellitus in BB/Wor rats. In the present study, the results of genetic complementation studies indicate that the DP rat contains an intact RT6 gene, but fails to express the RT6.1 alloantigen in the functional absence of an accessory factor (provided by RT6+ cells). At the cellular level, irradiation chimeras demonstrate that the absence of RT6+ T cells in DP rats is due to an intrinsic defect that results in abnormal development and/or differentiation of prothymocytes into RT6+ T cells. The inability of DP prothymocytes to generate RT6+ T cells is not due to serum autoantibodies, lack of accessory cells, or to the presence of inhibitory cells. Inasmuch as DP bone marrow can transfer the susceptibility for diabetes to irradiated recipients, our present results suggest that an important predisposing factor for insulin-dependent diabetes mellitus in DP rats is the inability of DP prothymocytes to generate RT6+ T cells.

Comparative human cellular radiosensitivity: II. The survival following gamma-irradiation of unstimulated (G0) T-lymphocytes, T-lymphocyte lines, lymphoblastoid cell lines and fibroblasts from normal donors, from ataxia-telangiectasia patients and from ataxia-telangiectasia heterozygotes

We have measured clonal survival following gamma-irradiation of unstimulated (G0) T-lymphocytes from 35 donors, of 11 T-lymphocyte cell lines, of six lymphoblastoid cell lines, and of nine primary fibroblast strains for which we have G0 T-lymphocyte material from the same donor. Amongst the G0 lymphocytes we have results from nine normal donors, from eight cord bloods, from seven ataxia-telangiectasia (A-T) patients and from nine A-T heterozygotes. Although there is some variation between samples, G0 T-lymphocytes from normal donors appear to be slightly more radioresistant than T-lymphocyte lines, with a more shouldered survival curve. From our limited sample, lymphoblastoid cell lines appear to be slightly more radiosensitive than T-lymphocytes. The overall radiosensitivity of primary fibroblasts appears to be broadly similar to that of G0 T-lymphocytes. In nine instances, five A-Ts and four A-T heterozygotes, both G0 T-lymphocytes and primary fibroblasts from the same donor were tested. In five cases there was closely similar radiosensitivity in the two cell types, but in four cases there was some discrepancy. Further work, especially with normal donors, will be required in order to establish how reliably radiosensitivity in other cell types can be predicted from that of G0 T-lymphocytes. In all cell types the hypersensitivity of A-T cells was confirmed. Furthermore, the marginally greater sensitivity of A-T heterozygotes, when compared as a group with normals, was confirmed with G0 T-lymphocytes. Our results also suggest a slightly increased radiosensitivity in G0 T-lymphocytes from some, but not all, cord blood samples.

Nuclear protein synthesis in thymocytes of X-irradiated rats

The biosynthesis and phosphorylation of nuclear proteins of thymocytes were investigated in rats after 4.0 Gy whole-body X-irradiation during the period which precedes DNA degradation in lymphoid cells. Proteins were separated by two-dimensional gel-electrophoresis, detected by Coomassie blue staining. Incorporation of [35S]methionine into proteins and phosphorylation of proteins with [32P]inorganic phosphate were determined by scanning densitometry of autofluorograms and autoradiograms, respectively. No change in the quantity of proteins was observed 1 h after irradiation. Decrease in specific activity of [35S]methionine-labelled proteins was seen in most protein fractions. Significant enhancement of phosphorylation of three proteins was established, characterized by molecular weight and pH: MW 20 kD, pH 6.8; MW 35 kD, pH 5.8 and MW 48 kD, pH 5.8. These results suggest that immediately after X-irradiation a short-term increase of chromatin-bound non-histone protein phosphorylation occurs. This finding, along with the previously described enhancement of RNA polymerase II in thymocytes (Zhivotovsky et al. 1982) suggests a temporary gene activation shortly after X-irradiation of the rat.

In vivo mutant T cell frequency in atomic bomb survivors carrying outlying values of chromosome aberration frequencies

Frequencies of HPRT- mutant T cells were determined by means of a direct clonal assay in atomic bomb survivors who showed outlying values of chromosome aberration frequencies. The studied survivors consisted of 2 groups: those whose aberration frequency was near the higher end of the distribution (high-aberration group) and those whose aberration frequency was near the lower end of the distribution (low-aberration group). The mean radiation doses (T65D) of the high-aberration group (13 people) and low-aberration group (17 people) were 248 and 273 rad, respectively. The mean mutant frequency (Mf) of the high-aberration group was 6.7 X 10(-6), which was significantly higher than that of the low-aberration group (3.7 X 10(-6)) or that of 17 controls (3.4 X 10(-6)). When all the samples were combined, the correlation between Mf and radiation dose was not significant using either dose estimation system, T65D or DS86. However, the correlation coefficient was higher when DS86 doses were used. Mf correlated significantly with increasing aberration frequencies. The tendency that Mf correlates better with chromosome aberration frequency than with estimated radiation dose was stronger in this study than in a previous study where the samples were selected randomly.

The effects of splenic irradiation on lymphocyte subpopulations in chronic B-lymphocytic leukemia

We describe the effect of splenic irradiation (SI) (0.5-1 Gy weekly) on lymphocyte subpopulations for 7 patients with progressive B chronic B-lymphocytic leukemia (B-CLL). Using specific cellular characteristics we could distinguish normal from abnormal cells. The irradiation resulted in a decrease of lymph node size, reduction in spleen volume and decrease in peripheral blood lymphocytes. The one exception was a patient with a prolymphocytoid transformation of B-CLL. For 3 patients SI had to be interrupted or stopped because of severe cytopenia. Quantitation of malignant B cells and normal T lymphocytes revealed that the total irradiation dose which resulted in a specific decrease of malignant lymphocytes varied from patient to patient. Normal T-cell subpopulations, which were increased before SI, decreased to normal or abnormally low values during SI. In previously untreated patients, natural killer (NK) cell numbers decreased more rapidly than T-cell subpopulations. For 2 patients refractory to chemotherapy an increase of NK cells was observed upon SI.

Depletion and repopulation of lymphocytes in Peyer's patches of mice after total lymphoid irradiation

The depletion and repopulation of lymphocytes in specific cellular domains of mouse Peyer's patches were examined following total lymphoid irradiation (TLI). BALB/c mice 5-months-old were given 17 fractionated doses of irradiation to a total of 3400 to 4250 rads over a 4-week period, and Peyer's patches were examined by immunohistochemistry at 1 to 4 days and 1 to 4 weeks after TLI. Cryostat sections were labeled with monoclonal antibodies directed against B220 (B cells), Thy-1.2 (all T cells), L3T4 (helper T cells), and Ly-2 (cytotoxic/suppressor T cells). In depleted mice, Peyer's patches were greatly reduced in size in comparison to controls, although the structural framework of follicles, domes, and interfollicular areas was still present. B cells in follicles were reduced to a small core of B220+ cells interspersed with nonlymphocytic cells. T cells were virtually eliminated from the patch except for a small population of Thy-1.2+ cells that were neither L3T4+ nor Ly-2+ in follicle domes. During early stages of repopulation at 1 to 2 weeks after TLI, follicles increased in size and were populated by helper T cells but Peyer's patches lacked discrete interfollicular T cell regions. At 3 to 4 weeks after TLI, T cell regions were found in interfollicular areas. The results indicate that morphologically distinct cellular domains are maintained in Peyer's patches after TLI which are sequentially repopulated by immigrating lymphocytes.

[Effects of radiotherapy on lymphocyte populations in lung cancer]

The authors report on the results of the immune monitoring of a study population of 31 patients with lung cancer who were treated with radiotherapy. A synthetic thymic pentapeptide, thymopentin, was employed whose effect was evaluated on the immunological parameters analyzed. After radiotherapy, a considerable and homogeneous decrement was observed in several lymphocytic subsets (less sensible in activated T-cells), together with a progressive decrement in the helper/suppressor ratio, in the long run. Monocytes and null cells showed more radioresistance. Thymopentin had no influence on the tested immunological parameters up to 6 months after radiotherapy; later on, a slightly more balanced helper/suppressor ratio could be noticed in the surviving patients who had been treated with thymopentin.

Radiobiological features of fresh leukemic bone marrow progenitor cells in acute lymphoblastic leukemia

The radiobiological features of leukemic progenitor cells (LPC) freshly obtained from 14 T-lineage acute lymphoblastic leukemia (ALL) and 11 B-lineage ALL patients were evaluated using LPC colony assays. No significant radiobiological differences were observed between T-lineage versus B-lineage ALL LPC. Notably, the D0 values displayed a significant interpatient variation in both groups, indicating a pronounced heterogeneity in the radiation sensitivity of LPC. LPC from some patients were very radioresistant, and in additional experiments using cryopreserved bone marrow blasts, up to 32% of LPC could survive 1600 cGy delivered at 100 cGy/min. In six of 11 T-lineage ALL cases and five of ten B-lineage ALL cases, a distinct initial shoulder was present on the single dose radiation survival curves, providing circumstantial evidence that LPC are able to repair sublethal radiation damage. A greater proportion of LPC survived 400 cGy when the dose was delivered in two fractions instead of a single dose, providing direct evidence that LPC in ALL possess a substantial capacity to repair sublethal radiation damage. The interpatient differences in Dq and recovery factor values indicated a marked heterogeneity in the ability of LPC to repair sublethal radiation damage. Analysis of the dose rate effects on the radiation survival of LPC in four ALL cases suggested that the radiation sensitivity of LPC is dose rate dependent. Normal bone marrow progenitor cells (colony-forming unit, granulocyte-macrophage, and burst-forming unit, erythroid) were more radiosensitive and unable to repair sublethal radiation damage. To our knowledge, this report represents (a) the first detailed comparative analysis of the radiobiological features of freshly obtained LPC in T-lineage and B-lineage ALL patients, and (b) the first elucidation of radiobiological differences between leukemic ALL versus normal bone marrow progenitor cells.

Booster irradiation to the spleen following total body irradiation. A new immunosuppressive approach for allogeneic bone marrow transplantation

Graft rejection presents a major obstacle for transplantation of T cell-depleted bone marrow in HLA-mismatched patients. In a primate model, after conditioning exactly as for leukemia patients, it was shown that over 99% of the residual host clonable T cells are concentrated in the spleen on day 5 after completion of cytoreduction. We have now corroborated these findings in a mouse model. After 9-Gy total body irradiation (TBI), the total number of Thy-1.2+ cells in the spleen reaches a peak between days 3 and 4 after TBI. The T cell population is composed of both L3T4 (helper) and Lyt-2 (suppressor) T cells, the former being the major subpopulation. Specific booster irradiation to the spleen (5 Gy twice) on days 2 and 4 after TBI greatly enhances production of donor-type chimera after transplantation of T cell-depleted allogeneic bone marrow. Similar enhancement can be achieved by splenectomy on day 3 or 4 after TBI but not if splenectomy is performed 1 day before TBI or 1 day after TBI, strengthening the hypothesis that, after lethal TBI in mice, the remaining host T cells migrate from the periphery to the spleen. These results suggest that a delayed booster irradiation to the spleen may be beneficial as an additional immunosuppressive agent in the conditioning of leukemia patients, in order to reduce the incidence of bone marrow allograft rejection.

Increased somatic cell mutant frequency in atomic bomb survivors

Frequencies of mutant T-cells in peripheral blood, which are deficient in hypoxanthine guanine phosphoribosyltransferase (HPRT) activity, were determined for atomic bomb survivors by direct clonal assay using a previously reported method (Hakoda et al., 1987). Results from 30 exposed survivors (more than 1 rad exposed) and 17 age- and sex-matched controls (less than 1 rad exposed) were analyzed. The mean mutant frequency (Mf) in the exposed (5.2 X 10(-6); range 0.8-14.4 X 10(-6)) was significantly higher than in controls (3.4 X 10(-6); range 1.3-9.3 X 10(-6)), which was not attributable to a difference in non-mutant cell-cloning efficiencies between the 2 groups, which were virtually identical. An initial analysis of the data did not reveal a significant correlation between individual Mfs and individual radiation dose estimates when the latter were defined by the original, tentative estimates (T65D), even though there was a significant positive correlation of Mfs with individual frequency of lymphocytes bearing chromosome aberrations. However, reanalysis using the newer revised individual dose estimates (DS86) for 27 exposed survivors and 17 controls did reveal a significant but shallow positive correlation between T-cell Mf values and individual exposure doses. These results indicate that HPRT mutation in vivo in human T-cells could be detected in these survivors 40 years after the presumed mutational event.

[Study of changes in the surface of irradiated thymocytes using a method of separating cells in a 2-phase water-polymer system]

The coefficient of cell distribution in a charged biphase water-polymeric system "polyethyleneglycol-dextran" decreased 60 min after irradiation of rat thymus lymphocytes with doses of 1 to 8 Gy. This dose-dependent effect was mainly related to radiosensitive thymocytes of a low fraction of density gradient; it disappeared with the uncharged system and was probably connected with the reduction in the negative electric charge of the irradiated cell surface.