Low proliferation capacity of lymphocytes from alloxan-diabetic rats: involvement of high glucose and tyrosine phosphorylation of Shc and IRS-1

The proliferation capacity of lymphocytes obtained from mesenteric lymph nodes of control and alloxan-diabetic (40 mg/kg) rats in response to concanavalin A (ConA) and lipopolysaccharide (LPS) stimuli was examined. Proliferation response of lymphocytes from diabetic rats was significantly reduced under Con A (43%) and LPS (46%) stimulation as compared with the control group. Insulin (166 microM) promoted a marked increase of lymphocyte proliferation (7.5-fold) in the control group and this response was much lower (2.6-fold) in lymphocyte from diabetic rats. Cells were also cultured in medium containing glucose at 5, 10 or 20 mM. High glucose concentration (20 mM) caused a marked inhibition of lymphocyte proliferation reaching the values of the diabetic group. In lymphocytes from control rats, the degree of Shc tyrosine phosphorylation was gradually increased, whereas that of cells from diabetic rats was much lower in response to insulin. In lymphocytes obtained from control rats, the tyrosine phosphorylation of IRS-1 was time-dependent on insulin. In cells from diabetic rats, the basal tyrosine phosphorylation of IRS-1 was higher than that of control rats, however, there was no further phosphorylation after insulin addition. We conclude that the response of lymphocyte proliferation from diabetic rats to Con A and LPS stimuli is decreased but insulin was able to promote a significant proliferative effect on these cells. Also, high glycemia in addition to the lack of insulin participates in the reduced proliferation capacity of lymphocytes from diabetic rats.     

Enhancing and suppressive effects of macrophages on T-lymphocyte stimulation in vitro.

The immunoregulatory effect of peritoneal and splenic macrophages on Con A-stimulated mouse splenic T lymphocytes was investigated in vitro using [¹²⁵I]UdR incorporation as a measure of lymphocyte proliferation. [¹²⁵I]UdR incorporation was enhanced by the addition of increasing numbers of splenic or low doses of peritoneal adherent cells to macrophagedepleted splenic lymphocytes. The addition of increasing numbers of peritoneal macrophages beyond 5–10%, however, proportionally suppressed T-cell proliferation. Activated splenic macrophages obtained from mice 6 days after infection with Listeria monocytogenes were suppressive, whereas macrophages obtained from immune donors 9–10 days after infection were not, so that a chronological association appeared to exist between macrophage activation and immunosuppression. The addition of 2-mercaptoethanol to the cell cultures increased [¹²⁵I]UdR incorporation without affecting the stimulatory and suppressive effects of splenic and peritoneal macrophages, respectively. Heat-killed and freeze-thawed macrophages lost their capacity to enhance or inhibit lymphocyte transformation. Macrophages treated with mitomycin C to inhibit DNA synthesis retained their regulatory functions. These studies suggest differential regulatory roles for spleen versus peritoneal macrophages on T-lymphocyte responses to Con A stimulation in vitro.     

Peritoneal macrophages exposed to purified macrophage colony-stimulating factor (M-CSF) suppress mitogen- and antigen-stimulated lymphocyte proliferation

The effect of M-CSF-exposed macrophages on murine splenic lymphocyte responses was determined. Resident peritoneal macrophages incubated with purified M-CSF for 48 hr inhibited lymphocyte proliferation to Con A, PHA, and listerial antigen as determined by [3H]TdR uptake, and inhibited Con A-stimulated lymphocyte IL 2 production. The inhibition was similar to that observed with macrophages from BCG-infected mice. Maximal suppression occurred at M-CSF concentrations of 500 U/ml or greater and when the incubation time with M-CSF was 48 hr or more. M-CSF effect was specific because rabbit anti-M-CSF IgG blocked the suppression whereas control rabbit IgG did not. Secretory products of macrophages could not be implicated in this interaction. Catalase and indomethacin, alone or together, did not reverse the inhibition. In addition, putative suppressive factors were not detected in supernatants of M-CSF-stimulated macrophages. Lymphocytes that were removed from macrophage monolayers and were recultured in medium plus Con A were able to proliferate. Macrophages stimulated by M-CSF therefore appear to have inhibitory activity for proliferating lymphocytes, and may play a role in immunoregulatory mechanisms.     

Modulation of the immunosuppressive effects of splenic macrophages in Fischer rats bearing adenocarcinoma 13762

Summary The nature of spleen cells in Fischer rats bearing a large size (>1 cm diameter) mammary adenocarcinoma 13762A (MAC) which block the immunostimulating capacities of MTP² (a synthetic immunomodulator) and suppress proliferation in vitro of splenic T and B lymphocytes by their respective mitogens was investigated. Splenic macrophages were recognized as the suppressor cells by (a) restoration of mitogenic responses by depletion of macrophages from spleen cell suspensions and (b) continued suppressor activity in spleen cell suspensions of tumor bearers devoid of viable T lymphocytes. Macrophage contact with T lymphocytes was required for the inhibition of T lymphocyte proliferation by concanavalin A as shown by (a) the absence of suppressor activity in supernatants derived from cultured suppressor macrophages, (b) lowering of the suppressor activity of intact macrophages after treatment with neuraminidase, (c) lowering of the suppressor activity of macrophages by addition of red cells to spleen cultures of tumor bearers indicating red cell interference with macrophage-T cell interaction and (d) lack of inhibiting action of suppressor macrophages on allogenic T lymphocyte proliferation showing macrophage T cell recognition for suppression.Animals bearing a large size tumor exhibited spleen hypertrophy and an increase in macrophage:lymphocyte ratio and a decrease in red cell:lymphocyte ratio. Splenic macrophages did not appear to be implicated in blocking antitumor immunity induction since (a) suppressor macrophages were absent in spleens during the inductive phase of the immune response and (b) MAC implanted in allogenic Wistar rats grew to about 2 cm diameter, induced splenic suppressor macrophages but the tumor was later rejected by the animals. Collectively the results suggest that suppressor macrophages are the result of increasing tumor volume rather than its cause.This study was supported by a grant from the National Cancer Institute of Canada Abbreviations used: Con A, Concanavalin A; LPS, lipopolysaccharide; PHA, phytohemagglutinin; MTP, maltose tetrapalmitate; MAC, mammary adenocarcinoma 13762; RPMI, Roswell Park Memorial Institute; TBR, tumor bearing rat; RBC, red blood cell     

Molecular basis of "suppressor" macrophages. Arginine metabolism via the nitric oxide synthetase pathway.

A molecular explanation for "suppressor" macrophage inhibition of lymphocyte proliferation is described. NG-monomethyl-L-arginine (NGMMA), a specific inhibitor of the nitric oxide synthetase pathway, markedly augments Con A-induced proliferation of rat splenic leukocytes. Macrophages are necessary and sufficient for NGMMA-releasable-suppression, as indicated by a loss of suppression after either pretreatment of isolated splenic macrophages with NGMMA or their depletion by plastic adherence or L-leucine methyl ester. L- (but not D-) arginine overrides NGMMA-releasable suppression, and suppression is blocked by RBC as would be expected if nitric oxide were the effector molecule. Unlike rats, NGMMA did not augment Con A-induced proliferation of normal mouse splenic leukocytes. However, NGMMA did augment Con A-induced proliferation of mouse splenic leukocytes induced to contain suppressor macrophages by intravenous injection of Corynebacterium parvum, which suggests a quantitative, not qualitative, difference in suppressor macrophages between rats and mice. Nitrite production, as an indicator of nitric oxide synthesis, correlated with suppressor macrophage activity in rats and mice and was inhibited by NGMMA. Finally, NGMMA also markedly enhanced proliferation with every other mitogen examined (PHA, protein A, PWM, and LPS). It is concluded that immunoregulation of lymphocyte proliferation by suppressor macrophages is mediated, in part, directly or indirectly by products of the nitric oxide synthetase pathway.     

Effect of T- and B-lymphocyte mitogens on interactions between lymphocytes and macrophages.

The mitogenic response of murine T cells ² to Con A, S-Con A and PHA was found to be macrophage-dependent. Optimal mitogenic responses were obtained when macrophage-depleted T-cell populations were reconstituted with 5% normal peritoneal macro-phages. Studies were carried out to investigate the effect of T- and B-cell mitogens on in vitro physical interactions between murine lymphocytes and macrophages. This was done by determining the number of T- or B cells binding to macrophages in the absence and in the presence of T- and B cell mitogens, and comparing the results of these experiments with the induction of lymphocyte proliferation. Con A increased the binding of T cells to macrophages when used in mitogenic doses (1–5 μg/ml). Dose response experiments showed that the same dose of Con A which produced maximal mitogenic stimulation also induced the greatest number of T cells to bind to macrophages. Nonmitogenic doses of Con A (20–50 μg/ml) did not enhance the binding of T cells, while identical doses of S-Con A both induced T cell mitogenesis and increased the number of T cells bound to macrophages. Similar results were obtained with PHA. None of the B-cell mitogens tested (LPS, EPO 127 and LAgl) increased the binding of either T or B cells to macrophages. PWM, which is mitogenic for both T and B cells, increased the binding of T cells to macrophages, but not that of B cells. In brief, the four T-cell mitogens tested (Con A, S-Con A, PHA, and PWM) induced specific physical interactions between T cells and macrophages, while none of the B-cell mitogens had any effect on the physical interactions between either B or T cells and macrophages when used in mitogenic doses.     

Effect of macrophages on the translocation of protein kinase C in concanavalin A-stimulated lymphocytes

The concanavalin A (Con A)-induced proliferation of lymph node lymphocytes is dependent on the presence of macrophages. When lymphocytes are depleted of macrophages, Con A is no longer mitogenic. Either 12-0-tetradecanoylphorbol-13-acetate (TPA), interleukin 1 (IL1), or macrophages in combination with Con A can restore proliferation. To establish where the proliferation process is blocked in the absence of macrophages, an early step in the signalling pathway, the activation of protein kinase C, was examined. It was found that although Con A caused translocation of protein kinase C from the cytosol to the membrane of lymph node cells, when the lymph node cells were depleted of macrophages and exposed to Con A, this translocation of protein kinase C did not occur. Instead, protein kinase C activity decreased in the membrane fraction and increased in the cytosol. On the other hand, TPA caused translocation of protein kinase C (PKC) from the cytosol to the membrane regardless of the presence of macrophages. However, the macrophage product, IL1, alone or in combination with Con A did not cause translocation of protein kinase C. In a reconstitution experiment, in which lymph node cells were depleted of macrophages and then macrophages were added back, the addition of Con A again lead to translocation of protein kinase C from the cytosol to the membrane. This combination also restored cell proliferation. Therefore, the Con A induced PKC translocation in T lymphocytes is macrophage mediated. TPA overcomes the macrophage requirement by directly activating PKC, while IL1 appears to act at a different step in proliferation.     

Induction of human gamma interferons by a mitogen derived form Mycoplasma arthritidis and by Phytohemagglutinin: differential inhibition with monoclonal anti-HLA.DR antibodies

The peripheral blood lymphocytes from eight healthy volunteers produced significant amounts of interferon (IFN) when co-cultured with a recently discovered mitogen preparation derived from cultures of Mycoplasma arthritidis (MAS). Maximum levels of 281 to 2187 U were reached after 3 to 4 days of incubation. The IFN was characterized as IFN gamma on the basis of pH and heat lability, and neutralization with anti-human IFN gamma but not anti-IFN alpha. A monoclonal antibody to HLA.DR determinants suppressed IFN induction and lymphocyte proliferation when co-cultured with MAS but was not effective against PHA-induced IFN and proliferation; PHA-induced proliferation was enhanced in the presence of the antibody. Anti-HLA.DR-mediated inhibition of lymphocyte functions, however, was not specific for MAS inasmuch as viral-induced IFN was also suppressed, as was Con A-induced proliferation. These and other studies suggest that the cellular requirement for T cell activation by MAS, PHA, and Con A may all be distinct.     

NBD-cholesterol incorporation by rat macrophages and lymphocytes: a process dependent on the activation state of the cells

The time-course of incorporation of NBD-cholesterol by macrophages (Ma) and lymphocytes (LY) obtained from untreated and thioglycollate-injected (thio) rats was investigated. NBD-cholesterol incorporation was also examined in Ma obtained from untreated rats and stimulated in vitro by lipopolysaccharide (LPS) and phorbol-myristate acetate (PMA). The same measurement was performed in LY from untreated rats stimulated by addition of LPS and concanavalin A (Con A) into the culture medium. Thio-treated Ma showed high fluorescence intensity after 1 h of incubation with NBD-cholesterol. Ma submitted concomitant to LPS and NBD-cholesterol showed low fluorescence intensity, as well as Ma stimulated with PMA. Ma from untreated and LPS pre-treated rats showed a similar time-course of incorporation. LY from thio-treated rats showed lower incorporation of NBD-cholesterol in comparison to LY from untreated rats. Incorporation was reduced when LPS was added concomitantly with NBD-cholesterol. On the other hand, LY pre-treated with LPS for 48 h showed a very high incorporation of NBD-cholesterol. Con A treatment did not cause a significant effect on NBD-cholesterol incorporation. The findings presented herein led us to conclude that the uptake of NBD-cholesterol by Ma and LY is markedly affected by the activation state of the cells.     

Studies on the regulation of lymphocyte reactivity by normal and activated macrophages.

To determine the potential role of macrophages as regulators of the immune response, the effect of mouse peritoneal macrophages on transforming mouse spleen lymphocytes was investigated. Mitogen and antigen stimulated lymphocyte transformation, as measured by DNA synthesis, was enhanced by all concentrations of normal macrophages tested, but only by low concentrations of activated macrophages. High concentrations of activated macrophages markedly inhibited lymphocyte transformation. This inhibition occurred whether lymphocyte DNA synthesis was measured by incorporation of [³H]TdR or of ³²P. Activated macrophages cultured with lymphocytes within 4 hr of being removed from the peritoneal cavity inhibited lymphocyte transformation. When activated macrophages were cultured alone for 24 or more hours before addition of lymphocytes, enhancement of transformation was noted. Once lymphocytes were exposed to activated macrophages, they could not be induced to undergo transformation in the presence of Con A. Whereas heat-killed activated macrophages, which appeared intact morphologically, lost their capacity to inhibit lymphocyte transformation, macrophages treated with mitomycin C to inhibit DNA synthesis retained this capacity. Syngeneic and allogeneic macrophages had similar inhibitory ability. Supernatants from cultures of many cell types (including normal or activated macrophages, lymphocytes, lymphocytes plus macrophages, and L cells) inhibited [³H]TdR incorporation by both mitogen stimulated lymphocytes and tumor cells. These studies demonstrate the capacity of macrophages to regulate lymphocyte transformation in vitro and suggest a role for these cells as regulators of cell-mediated immunity in vivo.     

Splenic macrophages enhance prolactin-induced progestin secretion from mature rat granulosa cells in vitro.

The effect of splenic macrophages on in vitro progestin secretion (the sum of the progesterone and 4-pregnen-20 alpha-ol-3-one concentrations in the medium) from mature rat granulosa cells was examined by means of co-culture techniques. When splenic macrophages (3.0 x 10(5) cells/ml) obtained from adult female rats on the evening of proestrus (1800 h) were added to granulosa cells (1.5 x 10(5) cells/ml) and co-cultured for 96 h in the absence of prolactin (PRL), progestin secretion from granulosa cells did not change. However, co-culture of granulosa cells with the macrophages in the presence of PRL (2 micrograms/ml) significantly enhanced progestin secretion after 48 h of culture. This stimulatory effect on progestin secretion was observed only when the number of macrophages added was more than twice the number of granulosa cells. On the other hand, splenic macrophages obtained on the evening of diestrus had no effect on progestin secretion from granulosa cells even in the presence of PRL. These results suggest that splenic macrophages can enhance PRL action so as to stimulate progestin secretion from granulosa cells and that this function of splenic macrophages varies during the estrous cycle.     

束缚应激大鼠血清淋巴细胞转化抑制因子的研究

为研究应激对淋巴细胞转化的影响,将 SD 大鼠四肢束缚于支架上,仰卧位,室温(20℃)下维持20h,对照组留置原饲养笼中,不予惊动。然后在乙醚轻麻下穿刺心脏取血,肝素化后密度梯度离心分离淋巴细胞,或待凝后分离血清。结果表明,应激大鼠外周血淋巴细胞对刀豆素(Con A)诱导的转化反应明显下降(p<0.01,n=8,ANOVA),而且应激大鼠血清可明显抑制正常小鼠淋巴细胞转化,这提示应激大鼠血清中可能存在某种具有抑制淋巴细胞转化的活性物质。进一步的分析实验表明,这种血清经加热56℃(30min),30%甲醇或透析(透析袋孔径阻滞分子量为6000)处理,抑制活性均不受影响;但经加热100℃(3min),80%甲醇或胰蛋白酶(64/μg/ml)处理,抑制活性丧失。提示这种抑制活性物质很可能是一类蛋白质。     

Antigen handling by guinea pig macrophages: further evidence for the sequestration of antigen relevant for activation of primed T lymphocytes.

Guinea pig macrophages can take up sufficient 2,4 dinitrophenyl guinea pig albumin during a brief in vitro exposure at 37 degrees C to trigger proliferation and lymphokine production with primed T lymphocytes on subsequent co-culture. Treatment of such antigen-bearing macrophages with trypsin, a procedure which removes surface antigen, does not alter the ability of such macrophage to initiate the release of migration inhibition factor from sensitized T lymphocytes. In addition, formation of antigen-specific rosettes between primed T cells and antigen-bearing macrophages is not blocked by high concentrations of antibody directed against the antigen mediating this interaction. Similarly, primed T lymphocyte DNA synthesis induced by antigen-bearing macrophages is not inhibited by specific antibody to that antigen. These data support the conclusion that the fraction of macrophage-associated antigen which is relevant to T lymphocyte activation does not reside on the macrophage surface but rather remains in a restricted compartment from which it is accessible to the T cell but unavailable to either blockade by specific antibody or removal by proteolytic enzymes.     

Transferrin synthesis by macrophages: up-regulation by γ-interferon and effect on lymphocyte proliferation

Abstract We have investigated transferrin synthesis by human and mouse lymphoid and myeloid cells. It was found that transferrin synthesis is a property of mouse but not human macrophages, whereas in man T lymphocytes synthesised transferrin. Synthesis by mouse macrophages showed a dose-dependent increase in response to γ-interferon (γ-IFN), but iron added as ferric nitrilotriacetate had no effect. Macrophage-derived transferrin was found to contain iron already bound to it and was able to support Con A-stimulated mouse lymphocyte proliferation.     

Evidence that macrophages transfer arachidonic acid and cholesterol to tissues in vivo

Our previous studies have shown that [(14)C]-labelled cholesterol (CHOL) and arachidonic acid (AA) are transferred from macrophages (Mphi) to lymphocytes (LY) when these cells are co-cultured. In this study, we investigated whether these lipids can be transferred from control and thioglycollate-elicited Mphi (THIO-elicited Mphi) to various tissues and organs in vivo. For this purpose, control and THIO-elicited Mphi were pre-treated with [(14)C]-AA and [(3)H]-CHOL and then injected into the jugular vein of adult rats. More than 75% of the radioactivity injected was found in the liver of rats treated with [(14)C]-AA labelled-Mphi either control and THIO-stimulated. The radioactivity of [(3)H]-CHOL labelled Mphi was transferred mainly to the liver (51% in the control Mphi and 23% in the thioglycollate Mphi7) but it was also found in the kidney, lung and spleen. These results support the proposition that the transfer of lipids between cells also occurs in vivo. The full significance of this phenomenon however remains to be elucidated.     

Splenic macrophages enhance prolactin and luteinizing hormone action in rat luteal cell cultures.

We have reported that splenic macrophages play a role in the regulation of progestin secretion in rats. In this study, splenic macrophages were obtained from cycling rats at different estrous cycle stages and co-cultured with luteal cells from mid-pseudopregnant rats in the absence/presence of prolactin (PRL) or luteinizing hormone (LH). The effect of macrophages on the luteotropic action of PRL and LH was evaluated with 2 parameters, i.e. an increase in total progestin output (progesterone plus 20 alpha-hydroxyprgn-4-en-one [20 alpha-OHP]), and an increase in the progesterone to 20 alpha-OHP (P/20 alpha-OHP) secretion ratio. Splenic macrophages obtained from proestrous or metestrous rats enhanced the PRL action to increase the P/20 alpha-OHP secretion ratio, but those from estrous or diestrous donors did not. Only macrophages from proestrous donors enhanced the PRL action to increase the total progestin output. In contrast, the LH action increasing the P/20 alpha-OHP secretion ratio was enhanced by splenic macrophages regardless of the donors' estrous cycle stages. The LH action increasing the total progestin output was enhanced only by proestrous or metestrous macrophages. Therefore, if luteal cells are co-cultured with proestrous macrophages, the luteotropic actions of PRL and LH can be fully expressed. These results indicate that splenic macrophages directly act on luteal cells and enhance the luteotropic action of PRL and LH, and that this function of splenic macrophages is modified somehow according to the donors' estrous cycle stages.     

Characterization of the recognition of target cells sensitive to or resistant to cytolysis by activated macrophages: II. Competitive inhibition of macrophage-dependent tumor cell killing by mitogen-induced,nonmalignant lymphoblasts

We have previously reported that tumoricidal rat macrophages can distinguish quiescent normal lymphocytes from concanavalin A (Con A)-stimulated lymphocytes and thymic lymphoma cells on the basis of their ability to compete for the macrophage-dependent cytolysis of a sensitive tumor cell line. The present study was undertaken to determine (a) whether recognition was related to the proliferative response induced by Con A stimulation and (b) whether the competition of cytolysis was dependent upon the binding of sensitive target cells to activated macrophages. These possibilities were tested by examining Con A-treated lymphocytes in different functional stages of the Con A response with respect to their ability to compete either for cytolysis or binding of a tumor cell line susceptible to both activities. The results show that the ability to compete for either function was acquired coincidentally with the Con A-induced proliferative response. This competitive activity was not due solely to the presence of Con A in the culture medium nor to culture of unstimulated lymphocytes but rather required a blastogenic response to the mitogen. Blast-transformed nonproliferative cells (96 hr post-Con A stimulation) were as competitive as cells which had been stimulated to reinitiate DNA replication by treatment with Interleukin 2. Thus, competition for cytolysis is a consequence of blastogenesis rather than proliferation per se and operates mechanistically by competing for the binding of target cells to activated macrophages, an event known to be a necessary prerequisite to cytolysis.     

Arachidonic acid turnover in peritoneal macrophages is altered in endotoxin-tolerant rats

Peritoneal macrophages from endotoxin-tolerant rats have been found to exhibit depressed metabolism of arachidonic acid (AA) to prostaglandins and thromboxane in response to endotoxin. The effect of endotoxin tolerance on AA turnover in peritoneal macrophages was investigated by measuring [14C]AA incorporation and release from membrane phospholipids. Endotoxin tolerance did not affect the amount of [14C]AA incorporated into macrophages (30 min-24 h). However, the temporal incorporation of [14C]AA into individual phospholipid pools (15 min-24 h) was altered. In endotoxin-tolerant macrophages, [14C]AA incorporation into phosphatidylcholine (PC) (2, 4, 24 h) and phosphatidylethanolamine (PE) (8 h) was increased, while the incorporation into phosphatidylserine (PS) (2-24 h) was reduced (P less than 0.005) compared to control macrophages. There was no change in [14C]AA incorporation into phosphatidylinositol (PI). Following 2 or 24 h of incorporation of [14C]AA, macrophages were incubated (3 h) with endotoxin (50 micrograms/ml) or A23187 (1 microM), and [14C]AA release was measured. Endotoxin-tolerant macrophages released decreased (P less than 0.05) amounts of [14C]AA in response to both endotoxin and the calcium ionophore A23187 compared to controls. Control macrophages in response to endotoxin released [14C]AA from PC, PI and PE. In contrast, tolerant cells released [14C]AA only from PC (P less than 0.05). A23187 released [14C]AA from all four pools in the control cells, but only from PC and PE in the tolerant cells. These data demonstrate that endotoxin tolerance alters the uptake and release of AA from specific macrophage phospholipid pools. These results suggest that changes in AA turnover and/or storage are associated with endotoxin tolerance.     

Regulation of human lymphocyte proliferation by fatty acids

In the present study, the effect of increasing concentrations of palmitic (PA, C16:0), stearic (SA, C18:0), oleic (OA, C18:1, n-9), linoleic (LA, C18:2n-6), docosahexaenoic (DHA, C22:6 n-3) and eicosapentaenoic (EPA, C20:5 n-3) acids on lymphocyte proliferation was investigated. The maximal non-toxic concentrations of these fatty acids for human lymphocytes in vitro were determined. It was also evaluated whether these fatty acids at non-toxic concentrations affect IL-2 induced lymphocyte proliferation and cell cycle progression. OA and LA at 25 microM increased lymphocyte proliferation and at higher concentrations (75 microM and 100 microM) inhibited it. Both fatty acids promoted cell death at 200 microM concentration. PA and SA decreased lymphocyte proliferation at 50 microM and promoted cell death at concentrations of 100 microM and above. EPA and DHA decreased lymphocyte proliferation at 25 and 50 microM being toxic at 50 and 100 microM, respectively. PA, SA, DHA and EPA decreased the stimulatory effect of IL-2 on lymphocyte proliferation, increasing the percentage of cells in G1 phase and decreasing the proportion of cells in S and G2/M phases. OA and LA caused an even greater pronounced effect. The treatment with all fatty acids increased neutral lipid accumulation in the cells but the effect was more pronounced with PA and DHA. In conclusion, PA, SA, DHA and EPA decreased lymphocyte proliferation, whereas OA and LA stimulated it at non-toxic concentrations.     

Apoptosis induced by membrane damage in human lymphocytes; effects of arachidonic acid and its photoproducts

The effect of arachidonic acid (AA) combined with UVA irradiation was studied in a model system mimicking phototherapy PUVA (psoralen+UVA) ex vivo in vitro. The contribution of damage to the plasma membrane by PUVA was tested on human lymphocytes derived from healthy donors. The effect of arachidonic acid (AA) combined with UVA irradiation was compared with that of a psoralen photoadduct to AA added to the culture. The adduct, obtained photochemically and purified, was characterized by NMR and MS spectrometry as a cycloadduct of psoralen to the vinylene bond of the acid (AA<>PSO). The reactions of cultured cells, manifested 20 h after treatment by changes in apoptosis and mitochondrial depolarization, were monitored by flow cytometry by tagging lymphocytes with appropriate fluorescent probes. Treatment of lymphocyte suspension within AA doses from 40 to 100 microM gradually induced a shift from Anx-V(+) (single positive cells) to late apoptotic, Anx-V(+)PI(+) (double positive cells) in a dose dependent manner. The adduct, AAPSO, induced apoptotic changes at a concentration 2-3 times higher than free AA. Combination of psoralen (1 microM ) or arachidonic acid (20-120 microM) with UVA irradiation (2-6 J/cm(2)) accelerated the plasma membrane changes in a synergic way. Preliminary studies indicated that changes in the transmembrane potential of mitochondria paralleled the apoptosis when cells were treated by AA alone. Our findings showed that UVA radiation of lymphocytes in the presence of arachidonic acid, as in the presence of psoralen, enhanced apoptosis of cells in a synergic manner. Thus, PUVA-induced apoptosis may proceed in part by a still undefined signaling pathway(s) triggered in lymphocyte membranes.