Immunological Potential of the in vitro Mixed Skin Cell-Leukocyte Reaction

THE mixed skin cell-leukocyte reaction (MSLR) is an in vitro reaction between dissociated skin cells and allogeneic peripheral blood leukocytes. It is similar in its immunological implications to the reaction between allogeneic leukocytes, commonly known as the mixed leukocyte reaction (MLR) or the mixed lymphocyte interaction (MLI). In the latter, immunological recognition between lymphocytes from genetically disparate donors can be detected and measured either by blastoid transformation, enhanced mitotic rate or induction of DNA synthesis^1–4. This system has been useful in the study of the transfer of transplantation immunity in vivo by lymphocytes sensitized in vitro⁵ and also in the identification of tissue incompatibility between donor and recipient^{6, 7}. In studies with inbred strains of rats the proliferative phase of the MLR has been shown to possess characteristics required for an immunological response; that is, selectivity and specificity^{8, 9}. Furthermore, mouse peripheral lymphocytes sensitized in mixed culture with allogeneic lymphocytes have been shown to engender immunospecific destruction of target cells¹⁰, an event which is directly associated with allograft rejection.     

Selective Stimulation of IgM Synthesis in Mouse B Lymphocytes by Pokeweed Mitogen

THE division of lymphocytes into thymus-derived (T) cells and bursa-equivalent-derived (B) cells is well established (reviewed in refs. 1–3). The result of antigenic stimulation in the B line of lymphocytes is a differentiation process, involving clonal expansion and ultrastructural changes, to give a specialized population of cells which synthesize and secrete immunoglobulin. In the study of these processes a major problem is the small number of cells involved in response to antigen, usually less than 1% of the total lymphocyte population. Clearly a system for activating large numbers of lymphocytes into immunoglobulin synthesis would offer considerable advantages. This seems to occur when mouse B lymphocytes are stimulated by pokeweed mitogen (PWM). In our experimental conditions, however, IgM is the only immunoglobulin class to be synthesized. The rational basis for our experiments rests on three previous observations: (1) PWM-stimulated lymphocytes develop rough endoplasmic reticulum^4,5 and might therefore be expected to be secreting cells; (2) a small proportion of enlarged (“blast”) lymphoid cells in PWM-treated human blood lymphocyte cultures contain immunoglobulin demonstrated by immunofluorescence⁶ and (3) the recent demonstration that mouse B lymphocytes are activated by PWM⁷.     

THE KINETICS OF LYMPHOCYTE RECIRCULATION WITHIN THE RAT SPLEEN

The migration of lymphocytes from the blood into the splenic pulp and the release of lymphocytes from the spleen into the blood was studied by isolating the rat spleen and perfusing it with 15 ml of recirculating, oxygenated blood. When thoracic duct lymphocytes labelled with tritiated uridine were added to the initial perfusate the concentration of these cells fell exponentially for 2–3 hr and then rose to a flat secondary peak. From this pattern it was inferred that small lymphocytes entered the spleen at a rate proportional to their instantaneous concentration in the perfusate, traversed the splenic pulp and re-entered the perfusate with a minimum transit time of 2–3 hr. The rate of release of small lymphocytes from the spleen was not influenced by the prevailing concentration of small lymphocytes in the perfusate but probably reflected the rate of migration into the spleen over a period earlier than 2 hr before. The rate of exchange of small lymphocytes between the blood and the intact spleen in vivo was estimated to be about 84 × 10⁶ cells/hr. The size of the intrasplenic pool of recirculating small lymphocytes was probably 400–500 × 10⁶ cells. The rate of migration of small lymphocytes into the spleen was not affected by prior irradiation of the spleen donor. When either of two antigenic materials were added to the perfusate no inhibition of lymphocyte migration into the spleen was noted although the release of lymphocytes from the spleen was diminished by the addition of a large dose of sheep erythrocytes.     

Differentiation of lymphocytes in mouse bone marrow. I. Quantitative radioautographic studies of antiglobulin binding by lymphocytes in bone marrow and lymphoid tissues

The density of surface immunoglobulin on small lymphocytes in the bone marrow and other lymphoid tissues has been compared by radioautographic measurements of antiglobulin binding.Cell suspensions from CBA mice were exposed to ¹²⁵I-labeled rabbit anti-mouse globulin in a wide range of concentrations for 30 min at 0 °C. With increasing concentration of antiglobulin-¹²⁵I the percentage of labeled antiglobulin-binding small lymphocytes in spleen and lymph node suspensions reached well-defined plateau levels. Very few normal or cortisone-resistant thymus cells were labeled under identical conditions. Bone marrow small lymphocytes showed a linear increment in labeled cells throughout the antiglobulin-¹²⁵I dose range, their labeling intensity varied widely, and approximately one half remained unlabeled at high antiglobulin-¹²⁵I concentrations. In 6 wk-old congenitally athymic mice the bone marrow small lymphocyte labeling pattern resembled that in CBA mice, while nearly all (91–97%) small lymphocytes in lymph nodes, thoracic duct lymph and blood, and 75% of those in the spleen, became labeled under plateau conditions. Treatment of cells from 10 wk-old CBA mice with AKR anti-θ C3H serum and complement resulted in almost complete (93%) antiglobulin-labeling of residual small lymphocytes from the spleen but had little effect on bone marrow lymphocyte labeling. Under germfree conditions the proportion of antiglobulin-binding small lymphocytes was slightly elevated in all lymphoid tissues of CBA mice.The results demonstrate that many of the small lymphocytes in mouse bone marrow have readily detectable surface immunoglobulin molecules which vary considerably in density from cell to cell, while others neither have detectable surface immunoglobulin, nor are they θ-bearing, thymus-dependent or recirculating cells. The concept of bone marrow small lymphocytes as a maturing cell population is discussed.     

Sister-chromatid exchange in highly purified human CD4 and CD8 lymphocytes

Sister-chromatid exchange (SCE) frequencies were determined in human peripheral blood CD₄⁺ and CD₈⁺ T lymphocyte subpopulations which were rapidly and highly purified from pooled T lymphocytes by immunological methods. The purified lymphocytes were stimulated with phytohemagglutinin (PHA) for 4 days. CD₄⁺ lymphocytes showed significantly higher SCE frequencies than autologous CD₈⁺ lymphocytes when measured simultaneously after identical bromodeoxyuridine (BrdU) incubation times. Differences in SCE frequencies between CD₄⁺ and CD₈⁺ lymphocytes were also detected when mitomycin C (MMC) was added to the cultures. Higher SCE frequencies in CD₄⁺ lymphocytes were associated with lower proliferating rate indices (PRI) as compared to autologous CD₈⁺ lymphocytes. Abnormalities in CD₄⁺ T lymphocyte function and number in peripheral blood have been observed in several diseases characterized by immunological disorders. Thus, our data may suggest a link between some immunological disturbances and abnormal SCE frequencies in T lymphocyte subsets.     

Concanavalin A as an Inducer of Human Lymphocyte Mitogenic Factor

IT is likely that pharmacological products of antigen : lymphocyte interaction (“lymphokines”) act as mediators and regulators of a variety of cellular immune responses^1,2. This view is strengthened by demonstrations that phytomitogen lectins induce lymphocytes to generate products with similar biological activities^3,4 and physicochemical characteristics⁵, to the lymphokines. Increasing evidence suggests that mitogenic lymphokines may mediate lymphocyte transformation responses in vitro and facilitate lymphoid cell cooperation in vivo (refs. 1,2,6–9). The study of mitogenic factor production by phytomitogens which may predominantly activate thymus-dependent lymphocytes (Concanavalin A (ConA))^8,9 provides a model approach to the investigation of lymphokine function in man. Powles et al.⁴ have described a ConA-induced mitogenic factor which stimulated autologous human lymphocytes only, whereas antigen-induced lymphocyte factors generally stimulate both allogeneic and syngeneic lymphocytes^11–13. Interest in ConA as an inducer of human lymphocyte mitogenic factors would be widened if conditions were found in which ConA stimulated human lymphocytes to generate products which were mitogenic for both allogeneic and autologous lymphocytes. As a lymphokine stimulant, ConA has the advantage that it is largely removed from culture fluids by absorption to cross-linked dextrans (‘Sephadex G-50’) or serum glycoproteins¹⁴. Here we demonstrate that a ‘Sephadex’-binding fraction of ConA (ConA- V) induces human lymphocytes to generate a mitogenic factor which activates both allogeneic and autologous lymphocytes.     

3H-uridine incorporation as a T lymphocyte indicator in the rat

Although about 70% of rat thoracic duct small lymphocytes labeled readily in vitro with ³H-uridine, only 3–38% of peritoneal exudate lymphocytes labeled. Since exudate cells are mostly B lymphocytes, ³H-uridine in concentrations used were presumed to label the T lymphocyte. Percentages of small lymphocytes that labeled in cell suspensions from various tissues were consistent with other estimates of T cells in those sources: 74.7% in thoracic duct, 70.2% in blood and 65.6% in spleen. When lymphopenia was induced by polyethylene ³²P strips applied to the spleen, a procedure that depletes mostly small recirculating lymphocytes, both labeled (T) and nonlabeled (B) cells were depleted in similar time sequence. Both cell types recovered at a similar rate after the spleen strips were removed. Induction of peritoneal inflammation by PPD in tubercle-bacilli immune rats caused an enhanced lymphocytic exudation but no increase in percentage of labeled (T) lymphocytes.The defect in ³H-uridine incorporation that characterizes the rat B lymphocyte seemed to be relatively specific for that RNA precurser; ³H-cytidine labeled the majority of lymphocytes in peritoneal exudate.     

Long-term clinical remission of a patient with chronic lymphocytic leukemia using alternative treatment option: Cottonseed oil (gossypol)

Chronic lymphocytic leukaemia (CLL) results from the accumulation of malignant immunologically incompetent lymphocytes.A routine full blood count of a single patient revealed that he had CLL. The daily intake of 700 ml of fresh bovine milk resulted in a decrease in the lymphocyte count from 85.5×10⁹/l to 12.5×10⁹/l over a period of 5 years.The aim was to establish which constituent(s) in milk would be responsible for the decline of the lymphocyte count. It was found that the higher vitamin D constituent in the milk, the lower the lymphocyte count.Whilst the milk from large dairy farms which use supplements in the feed in order to increase milk production, considerably decreased the lymphocyte count, the milk from small dairy farms, which do not supplement, had hardly any effect.The present study indicates that gossypol in cottonseed cake and oil are potentially responsible for the decrease in white blood cell count. It appears that gossypol is a very powerful anti-neoplastic agent.Free gossypol (Fig. 1) is a toxic phenolic compound which becomes detoxified in ruminants by binding to milk proteins, but gossypol is still an active inhibitor of tumour growth in the excreted milk.     

Regulation of bone marrow lymphocyte production: IV. Cells mediating the stimulation of marrow lymphocyte production by sheep red blood cells: Studies in anti-IgM-suppressed mice,athymic mice,and silica-treated mice

Some cellular requirements have been examined for the stimulation of lymphocyte production in mouse bone marrow by injected sheep red blood cells (SRBC). The increased genesis of marrow lymphocytes after a single dose of SRBC assayed radioautographically after [³H]thymidine labeling was unimpaired in the marrow of mice treated with anti-IgM antibodies from birth to eliminate B lymphocytes, and in congenitally athymic mice lacking T lymphocytes. However, pretreatment of mice with silica to depress macrophage function completely abolished the SRBC effect both on the total lymphocyte production and on the number of B and null small lymphocytes in the marrow. Comparative studies were performed on the thymus and spleen. The results demonstrate that the stimulation of marrow lymphocyte production by SRBC is mediated by a silica-sensitive mechanism, does not require B or T lymphocytes, and is independent of the humoral immune response. Thus, extrinsic agents may amplify the production of primary B cells and other lymphocytes in the bone marrow by an antigen-nonspecific mechanism, putatively mediated by macrophages.     

Human lymphocyte tubulin: Purification and characterization in normal and leukemic cells

Tubulin has been purified from human blood and tonsil lymphocytes. Using gel filtration, the molecular weight of human lymphocyte tubulin was estimated to be 119 000. The proteins was shown to consist of two subunits, with molecular weights of 61 000 and 58 000 comparable to the α and β polypeptides of human brain tubulin. A partial identity reaction was observed between lymphocyte tubulin and human tubulin when tested by double immunodiffusion against a rabbit anti-human brain tubulin antibody. In the presence of GTP, the purified protein polymerized to form microtubules. Tubulin was localized to the cell's juxtacentriolar region by immunofluorescence and electron microscopy. When assayed by a colchicine-binding assay corrected for time decay, the binding affinity was 1.50 ± 0.86 · 10⁶M^?1 and a level in normal lymphocytes of 1.21 · 10^?2 ± 0.79 g/g of soluble protein was determined. Since chronic lymphocytic leukemia lymphocytes have an anomalous capping behavior as well as an unusual susceptibility to colchicine toxicity, the properties and levels of tubulin were determined in these cells. Similar values were obtained for the level, decay rate, molecular weight, and K_a for colchicine as for normal lymphocytes. Chronic lymphocytic leukemia lymphocyte tubulin polymerized in a normal fashion. It thus appears that a decrease in the quantity or function of tubulin does not account for these anomalies in the chronic lymphocytic leukemia lymphocyte.     

Restoration of allograft responsiveness in B rats: IV. The divergent migratory behavior of lymphocyte populations mediating cardiac allograft rejection

The T lymphocyte-deprived (B) rat, produced by X-radiation and bone marrow reconstitution of adolescent thymectomized animals, exhibits a true immunological deficit and are unable to reject histoincompatible heterotopic cardiac allografts. A comprehensive survey of lymphocyte traffic in B recipients was performed to correlate the differential potency of specifically sensitized lymphocyte populations mediating re-establishment of immune responsiveness toward the graft, with their migratory and recirculatory behavior. ¹¹¹In-oxine-labeled thoracic duct lymphocytes (TDL) were retained in the peripheral blood and migrated from nonlymphoid organs to lymph nodes of B recipients in higher proportion than any other lymphoid population, particularly splenic lymphocytes (SL). Although all cell groups but TDL were sequestered in the spleen in equal and relatively large numbers, no differences were found between the lymphocyte populations tested in their capacity to accumulate in the grafts. In contrast, an increased avidity in the allograft of ¹²⁵IUdR-labeled TDL and lymph node (LNL) lymphoblasts, as compared to ¹²⁵IUdR-labeled SL, resembles closely the results of functional studies of the differential potency of adoptively transferred cells. We assume that specific cellular interactions induced by the accumulated ¹²⁵IUdR-labeled cells invoke nonspecific mechanisms for the recruitment of other uncommitted ¹¹¹Inlabeled lymphocytes which recirculate between blood and lymph and localize indiscriminately in the allograft amplifying its rejection. The latter lymphocytes can be “armed” by adherent cells residing in the lymphoid organs of graft recipients, particularly spleen, and subsequently increase the penetration of the foreign tissue. When radiolabeled lymphocytes were traced in B recipients experiencing rejection of their allografts following transfer of sensitized cells plus lymphokine, their migration patterns as well as blastogenic response in B hosts were similar to those observed during acute rejection of cardiac allografts in unmodified hosts. Thus the similarities between the rejection network brought by alloimmune cells into otherwise unresponsive animals and immunocompetent animals able to reject their grafts are stressed.     

Protease activity of normal and PHA stimulated human lymphocytes

An assay measuring the release of TCA soluble radioactive peptides from ³H acetylated casein or hemoglobin has been used to demonstrate that human peripheral blood lymphocytes contain a number of proteases, including cathepsin D, a neutral serine protease(s) inhibited by DFP and TLCK and probably a thiol protease(s) as well. We have also found a neutral protease activity bound to the surface of the lymphocyte, but not secreted into the medium which is not inhibited by TLCK. TLCK inhibits blast transformation to PHA under conditions that do not profoundly affect protein synthesis and inhibits the total extractable proteolytic activity of lymphocytes by approximately 25%. Lymphocytes contain one or more proteases that may play a role in blast transformation and other lymphocyte functions.     

Mosaicism of peripheral blood lymphocyte populations in females heterozygous for the Lesch-Nyhan mutation

Phytohemagglutinin-stimulated thymidine-H³ incorporation into peripheral blood lymphocytes in vitro was inhibited by 8-azaguanine (AG) in cells from normal individuals, but not in cells from boys with the Lesch-Nyhan (L-N) syndrome. Artificial cell mixtures in which the AG-resistant minority L-N population comprised more than 1.0% of the total were clearly differentiated from normals by this technique. The method was used to search for blood cell mosaicism in females heterozygous for the X-chromosomal L-N mutation. In three adolescent girls, a minority population of AG-resistant lymphocytes comprising 5–10% of the total was found, while no such mosaicism was detected in a heterozygous woman of 40. Although blood cell mosaicism had not previously been found in female carriers of the L-N mutation, the sensitivity of the present method exceeds that of previous studies. Our findings suggest that in vivo selection against lymphocytes with the L-N mutation does occur but is not absolute and may be age related. The present method has applications in studying this phenomenon, and, with modification, may provide a direct assay system to detect the in vivo frequencies of AG-resistant lymphocytes.     

Dynamics of T- and B-lymphocyte turnover in a natural host of simian immunodeficiency virus

Increased lymphocyte turnover is a hallmark of pathogenic lentiviral infection. To investigate perturbations in lymphocyte dynamics in natural hosts with nonpathogenic simian immunodeficiency virus (SIV) infection, the nucleoside analog bromodeoxyuridine (BrdU) was administered to six naturally SIV-infected and five SIV-negative sooty mangabeys. As a measure of lymphocyte turnover, we estimated the mean death rate by fitting a mathematical model to the fraction of BrdU-labeled cells during a 2-week labeling and a median 10-week delabeling period. Despite significantly lower total T- and B-lymphocyte counts in SIV-infected sooty mangabeys than in SIV-negative mangabeys, the turnover rate of B lymphocytes and CD4⁺ and CD8⁺ T lymphocytes was not increased in the SIV-infected animals. A small, rapidly proliferating CD45RA⁺ memory subset and a large, slower-proliferating CD45RA⁻ central memory subset of CD4⁺ T lymphocytes identified in the peripheral blood of sooty mangabeys also did not show evidence of increased turnover in the context of SIV infection. Independently of SIV infection, the turnover of CD4⁺ T lymphocytes in sooty mangabeys was significantly higher (P < 0.01) than that of CD8⁺ T lymphocytes, a finding hitherto not reported in rhesus macaques or humans. The absence of aberrant T-lymphocyte turnover along with an inherently high rate of CD4⁺ T-lymphocyte turnover may help to preserve the pool of central memory CD4⁺ T lymphocytes in viremic SIV-infected sooty mangabeys and protect against progression to AIDS.     

Differentiation of lymphocytes in mouse bone marrow. II. Kinetics of maturation and renewal of antiglobulin-binding cells studied by double labeling

DNA labeling by ³H-thymidine in vitro and antiglobulin-¹³¹I binding in vitro were used to determine the development and turnover of immunoglobulin-bearing lymphocytes in mouse bone marrow.Bone marrow cells from CBA mice previously injected repeatedly with ³H-thymidine for 1–84 hr were exposed to ¹³¹I-labeled rabbit-antimouse globulin for 30 min at 0 °C, and examined radioautographically. The antiglobulin-binding cells in bone marrow were predominantly (97–98%) nondividing small lymphocytes. Some plasmacytoid and monocytoid cells, but not the proliferating large lymphoid cells, also bound antiglobulin. The ³H-thymidine labeling index of the small lymphocyte population showed a rapid exponential increase (50% in 32 hr). The first small lymphocytes to show ³H-thymidine labeling were those lacking antiglobulin-binding capacity, reaching approximately 90% ³H-thymidine labeling after 2 days. Small lymphocytes which bound antiglobulin-¹³¹I at a concentration of 1.0 μg/ml became labeled with ³H-thymidine only after a lag of approximately 1.5 days. More avid antiglobulinbinding cells were delayed a further 12 hr in ³H-thymidine labeling. During in vitro culture the proportion of antiglobulin-binding small lymphocytes increased progressively in bone marrow but decreased in spleen cell suspensions.The results demonstrate a continuous, rapid renewal of immunoglobulin-bearing small lymphocytes in adult mouse bone marrow. Surface immunoglobulin molecules are not detectable when marrow small lymphocytes are first formed, but they appear and increase progressively in density as the cells mature.     

A pilot study evaluating the utility of commercially available antibodies for flow cytometric analysis of <Emphasis Type="Italic">Panthera</Emphasis> species lymphocytes

Background

The immune response against tuberculosis in lions is still poorly defined and our understanding is hampered by the lack of lion specific reagents. The process for producing antibodies against a specific antigen is laborious and not available to many research laboratories. As the search for antibody cross-reactivity is an important strategy for immunological studies in veterinary medicine, we have investigated the use of commercially available antibodies to characterize T cell subsets in African lions (Panthera leo).

Results

Commercially available antibodies were screened and investigated the influence of two different sample processing methods, as well as the effect of time delay on cell surface marker expression on lion lymphocytes. Using commercially available antibodies, we were able to identify CD4⁺, CD5⁺, CD8⁺, CD14⁺, CD25⁺, CD44⁺ and CD45⁺ T lymphocytes in samples obtained by density gradient centrifugation as well as red cell lysis of lion whole blood. Two distinct lymphocyte populations, which differed in size and phenotype, were observed in the samples processed by density gradient centrifugation.

Conclusion

Commercially available antibodies are able to differentiate between T lymphocyte subsets including immune effector cells in African lion whole blood, and possibly give insight into unique specie phenotypes.

     

Formation of Paul-Bunnell antibodies by cultures of lymphocytes from infectious mononucleosis.

Short-term cultures of peripheral blood lymphocytes obtained from 20 infectious mononucleosis patients 2–4 weeks after the onset of the disease were studied for formation of heterophile antibodies. In studying pooled supernatant fluids of lymphocytes from three patients cultured for 3–20 days, lytic antibodies for red blood cells of bovine (BRBC) and sheep (SRBC) origin were demonstrated. These hemolysins were shown to be of IgM nature and Paul-Bunnell specificity. Subsequently, plaque-forming cell (PFC) assays were performed with lymphocyte cultures of 15 patients. Significant numbers (60–750/2 × 10⁷ cells) of PFC secreting antibodies against BRBC were demonstrated in lymphocyte cultures of 12 patients. The number of PFC apparently reached its peak after 5 to 10 days of culturing. No or a very few PFC were observed in the lymphocytes that were not cultured or in lymphocytes cultured for 3 weeks or longer. Lymphocyte cultures prepared in a similar fashion from normal individuals or patients suffering from sore throat and submandibular lymphadenopathy of other than infectious mononucleosis origin did not produce PFC. Production of lytic zones by antibodies to BRBC secreted by PFC was inhibited by preincubation of lymphocytes of infectious mononucleosis patients with solubilized Paul-Bunnell antigen but not with other heterophile antigens, indicating that antibodies involved in the PFC formation are of Paul-Bunnell specificity. An increased number of PFC against BRBC were obtained in two of three lymphocyte cultures after cultivation with BRBC or solubilized Paul-Bunnell antigen.     

Genetic analysis of human lymphocyte proteins by two-dimensional gel electrophoresis: 2. Genetic polymorphism of lymphocyte cytosol 64K polypeptide

Summary We describe a genetic polymorphism of human lymphocyte cytosol major polypeptide with mol. wt. 64,000, detected in peripheral blood lymphocytes by high resolution two-dimensional electrophoresis. Three different electrophoretic types (1-1, 2-1, 2-2) of the polypeptide have been identified. Family and population studies indicate that the three phenotypes of the polypeptide are determined by two common alleles at a single autosomal locus. The polypeptide occurs in the cytosol and is predominent in peripheral blood lymphocytes, B-lymphoblastoid cells, T-lymphoblastoid cells, lymph node, and spleen. The polypeptide has not been detected in HeLa cells, fibroblasts, erythrocytes, serum, and cerebrum. Traces of the polypeptide exist in liver, kidney, and skeletal muscle. It is proposed that the polypeptide and its locus be temporarily designated lymphocyte cytosol 64K polypeptide (LC64K polypeptide) andLC64P, respectively. In a Japanese population, the gene frequencies ofLC64P ¹ andLC64P ² were 0.936 and 0.064, respectively. The data suggest thatLC64P is a new locus, product of which shows genetic polymorphism and is associated with the function and/or the structure of lymphocytes.     

Changes in blood lymphocyte numbers with age in vivo and their association with the levels of cytokines/cytokine receptors

Background

Alterations in the number and composition of lymphocytes and their subsets in blood are considered a hallmark of immune system aging. However, it is unknown whether the rates of change of lymphocytes are stable or change with age, or whether the inter-individual variations of lymphocyte composition are stable over time or undergo different rates of change at different ages. Here, we report a longitudinal analysis of T- and B-cells and their subsets, and NK cells in the blood of 165 subjects aged from 24 to 90 years, with each subject assessed at baseline and an average of 5.6 years follow-up.

Results

The rates of change of T-(CD4⁺ and CD8⁺) and B-cells, and NK cells were relative stable throughout the adult life. A great degree of individual variations in numbers of lymphocytes and their subsets and in the rates of their changes with age was observed. Among them, CD4⁺ T cells exhibited the highest degree of individual variation followed by NK cells, CD8⁺ T cells, and B cells. Different types of lymphocytes had distinct trends in their rates of change which did not appear to be influenced by CMV infection. Finally, the rates of CD4⁺, CD8⁺ T cells, naive CD4⁺ and naïve CD8⁺ T cells were closely positively correlated.

Conclusion

Our findings provide evidence that the age-associated changes in circulating lymphocytes were at relative stable rates in vivo in a highly individualized manner and the levels of selected cytokines/cytokine receptors in serum might influence these age-associated changes of lymphocytes in circulation.

     

Immunologic and hematopoietic alterations by 2,450-MHz electromagnetic radiation

A biphasic modulation of responsiveness of spleen lymphocytes to mitogens was observed in mice exposed to 2,450-MHz radiation at power densities of 5–15 mW/cm² over various periods ranging between one and 17 days. This modulated phenomenon may be explained on the basis of 1) suppression of lymphocyte response by microwave-activated macrophages which persists throughout the entire course of radiation, and 2) concurrent progressive direct stimulation of lymphocytes which culminates around day 9 of exposure. Tumor cytotoxicity of killer lymphocytes from mice exposed to five or nine days of radiation did not appear different from sham controls. The highly proliferative hematopoietic marrow cells were sensitive to microwave radiation. Nine days of exposure to radiation (15 mW/cm²) reduced the colonyforming units of myeloid and erythroid series by 50%. This observation may offer a new and more sensitive assay for studying biological effects of electromagnetic radiation.