Immunomodulatory effects of turmeric: Proliferation of spleen cells in mice

Experiments were conducted to examine the effects of turmeric on spleen cell proliferation. Cell suspensions of spleen cells from young and aged mice were treated with or without conconavalin A (Con-A) as a proliferation stimulant, and with and without turmeric (20 mg/mL) in different concentrations. Spleen cells from young mice that received turmeric showed significant increase in spleen cell proliferation (P < 0.05), while spleen cells from aged mice that received turmeric showed no significant increase in T lymphocytes. The data indicates that turmeric increases the ability of spleen cells in young mice to proliferate, in vitro.     

Surface properties of lymphocyte subpopulations in autoimmune NZB/NZW F1 hybrid mice: alterations correlated with the immunodeficiency of aging

Partitioning in a two-polymer aqueous phase system was used to probe the surface properties of lymphoid cell subpopulations in aged male NZB/NZW F1 hybrid (B/W) mice, an important model of autoimmunity, immunodeficiency, and lymphoid malignancy. Spleen cells were fractionated by countercurrent distribution (CCD, a multiple-step extraction procedure) in a charged dextran-polyethylene glycol system. CCD of spleen cells from young, clinically normal male B/W mice yielded several broad distribution patterns which frequently had two or more peaks. Analysis of differentiation antigens and functional properties of cells from different parts of the distribution revealed a subfractionation of the three major lymphocyte subpopulations. B lymphocytes had a low partition coefficient (K); T cells had an intermediate K and null cells had the highest K. To examine the partitioning behavior of T lymphocytes, spleen cells which were nonadherent to nylon wool columns were subjected to CCD. Nonadherent cells from young B/W mice consistently gave a single peak with high K. Aged mice (18 months) usually had nonadherent cells with a predominantly low K. In some experiments a systematic increase in the number of these cells could be demonstrated with increasing mouse age. An analysis of the adherence and partitioning behavior of lymphocyte subpopulations revealed no change in the adherence properties or proportions of B lymphocytes in aged mice. The large proportion of cells having a low partition coefficient in the nonadherent spleen cell population of old mice appears to be due to an increase in the number of null cells and in a decrease in the K of some T lymphocytes.     

Studies on the syngeneic mixed lymphocyte reaction. II. Decline in he syngeneic mixed lymphocyte reaction with age.

The syngeneic mixed lymphocyte reaction (SMLR) is the proliferative response of T lymphocytes cultured with syngeneic non-T lymphocytes. In previous studies, we found that the SMLR reaches adult level of activity at 4 weeks of age in BALB/c mice. We now report that the SMLR declines with age in this strain. The decline was first documented at 12 months of age, when non-T spleen cells were less able to stimulate young adult T cells than were non-T cells from 2 to 3 month-old mice. Splenic T cells from 12 month old mice were as responsive as splenic T cells from 2 to 3 months old mice. By 24 months of age, mice had no significant SMLR activity. Splenic T cells from 24 month old mice did not respond and splenic non-T cells did not stimulate SMLR when cultured with cells from young adult mice. Finally, suppressor cells were demonstrated in spleen cells preparations from 24 month old mice and may explain or contribute to the impaired SMLR in these animals.     

Decreased membrane potential of T lymphocytes in ageing mice: flow cytometric studies with a carbocyanine dye.

The membrane potential of lymphocytes from young (1-4-month-old) and old (25-37-month-old) CBA/Ca mice was studied with the aid of the fluorescent dye 3,3'-dihexyloxacarbocyanine iodide (DiOC6(3)). In young mice, most B and T lymphocytes showed a high, and equal, degree of polarization. In old animals most, and in the older individuals almost all, T lymphocytes were found to be depolarized; both Lyt-2+ and Lyt-2- subsets were affected. B cells were largely unaffected. Since changes in transmembrane potential, including temporary hyperpolarization, are known to accompany lymphocyte activation, the depolarized state of T cells in old mice may be related to the decline of T-cell function that occurs during senescence.     

Age-associated changes in mitogen-induced protein phosphorylation in murine T lymphocytes.

Since T lymphocyte proliferation declines with age, and since activation of a still only partially defined set of protein kinases is thought to play a critical role in T cell activation, we have carried out a systematic survey of age-related changes in protein phosphorylation in T lymphocytes. We used two-dimensional electrophoretic analysis to examine lysates prepared from T cells after 10 min of exposure to mitogens [anti-CD3, concanavalin A (Con A) and phorbol 12-myristate 13-acetate (PMA) plus ionomycin] and nonmitogenic activators (PMA or ionomycin used separately). Our results show a progressive, life-long decline in the levels of anti-CD3-induced phosphorylation of all 16 phosphoproteins that respond vigorously in T cells of young mice. Mice 10-18 months of age showed levels of response that were clearly below those induced in young mice, while responses of mice 22-24 months of age were even more severely diminished. Responses to Con A, PMA, ionomycin and a combination of PMA plus ionomycin were equally blunted in old mice, except for 2 (of 12) phosphoproteins that continued to respond to PMA even in the old animals. None of the phosphoproteins which were ionomycin responsive in young mice continued to respond in old mice, although 1 (of 3) ionomycin-inhibitable phosphoproteins remained inhibitable in old mice. We also found three phosphoproteins which became phosphorylated in response to anti-CD3, PMA and Con A (but not ionomycin) only in old mice, and a pair of phosphoproteins which were unresponsive to all mitogens but showed a higher "baseline" phosphorylation in T cells from old mice. Comparing phosphoprotein patterns between CD8- and CD8-CD45RB- T cells from young mice allowed us to identify nine phosphoproteins that were strongly responsive to anti-CD3 only when CD45RB+ (i.e. virgin) cells were present. Although the immune system of old mice consists largely of memory T cells, the change in phosphoprotein phosphorylation patterns cannot simply be explained by the accumulation of this cell type. We conclude that aging leads to a global impairment of several distinct protein kinase pathways in both virgin and memory T cell sets.     

Production of auto-anti-idiotype antibody during the normal immune response. XIV. Evidence for the antigen-independent operation of the idiotype network.

We have previously shown that that idiotype (Id) repertoire expressed by old mice is different from that of young mice after immunization with trinitrophenylated Ficoll. Older mice also produce more auto-anti-Id antibodies than do young mice. Mice surviving a normally lethal dose of radiation (800 rads) as result of partial shielding of their bone marrow slowly recover immune function, after the repopulation of their peripheral lymphoid system by bone marrow precursor cells. Aged mice subjected to such a procedure produce low auto-anti-Id responses, like those of young mice. However, transfer of splenic T cells from old donors into such mice increases the magnitude of the auto-anti-Id response. In the present studies, we show that the age-related shift in Id expression is also determined by the age of the donor T cells. Furthermore, we show in serial cell transfer studies that the peripheral T-cell population of old mice modifies the level of the auto-anti-Id response in the absence of antigen. The results thus provide evidence for the normal, in vivo, operation of an Id-anti-Id network between B and T lymphocytes.     

Neoplasms arising in CBA mice after transfer of spleen cells from syngeneic old donors.

Young (15-week-old) CBA/Ca mice were injected intravenously with spleen cells from individual young (15-week-old) or old (18-24-month-old) CBA/T6T6 mice. Samples of peripheral blood were taken at monthly intervals and cultured with phytohaemagglutinin (PHA) to stimulate T lymphocytes into mitosis. In the recipients of young lymphocytes, the percentage of donor cells dividing in these cultures remained low throughout the experiment, but in the recipients of old spleen cells, after an initial period when the percentage of donor cells declined, there was a marked increase in the percentage of donor cells. The interval between the injection and the increase in the proportion of donor cells was very variable. Ten of the 12 recipients of old lymphocytes developed tumours involving the spleen and mesenteric lymph node. They resembled type B reticulum cell neoplasms as described by Dunn & Deringer (1968), and all but two were transplantable. In addition, one mouse that had no evidence of tumour on histological examination nevertheless gave rise to a transplantable tumour. The five tumours on which chromosomal analysis was carried out proved to be of old donor cell origin. Two out of the five recipients of young cells also eventually developed tumours, but these arose later than the others, had a more granulocytic character, and did not transplant.     

Immunotoxicity of alcohol in young and old mice. II. Impaired T cell proliferation and T cell-dependent antibody responses of young and old mice fed ethanol-containing liquid diet

The effect of extended ethanol consumption of young and old BALB/c mice on the proliferative response to Concanavalin A (Con A) and T cell-dependent antibody response of their spleen cells to sheep red blood cell (RBC) stimulation was determined. Splenic cells of young (3 months) and old (25 months) BALB/c mice, fed with one of three different diets (ethanol, maltose-substitute and standard mouse chow), were first cultured with Con A to assess T cell proliferation and production of interleukin 2 (IL2). Then, Con A-activated T blast cells from young and old mice were assessed for their proliferative responding capacity to exogenous human recombinant IL2 and crude rat IL2 supernatant. Finally, splenic cells of young and old mice were assessed for their ability to generate plaque-forming cells in response to sheep RBC. The results revealed that both T cell mitogenesis and IL2-dependent proliferation of T blast cells from young and old ethanol diet-fed mice were remarkably diminished as compared to that of young and old maltose-substituted diet (isocaloric control) fed mice, respectively. The ability of T cells from both young and old ethanol diet-fed mice to produce IL2, however, was not affected. Finally, the ability of young and old ethanol diet-fed mice to mount a primary antibody response to SRBC was also significantly reduced. These results taken together demonstrate for the first time that both T cell proliferative activity and T cell-dependent antibody response of young and old ethanol diet-fed mice are impaired; however, with respect to age, a differential effect of immunosuppression of ethanol was not noted.     

Immune function in aged mice. IV. Loss of T cell and B cell function in thymus-dependent antibody responses.

The decline in antibody-forming potential with age was studied in mice by analyzing the relative contributions of T and B cells in collaborative PFC responses to the T cell-dependent antigens, dinitrophenylated (DNP) keyhole limpet hemocyanin, DNP-human IgG, fowl IgG and sheep red blood cells. The experimental system involved the adoptive transfer of purified lymphocyte populations derived from the spleens of old and young mice into young irradiated recipients. An unequivocal reduction in B cell function was demonstrated in both primary and secondary antibody responses. In the former, young T cells failed to restore responsiveness to old B cells, while in the latter, similar results were obtained, even if old B cells were primed in the presence of young T cells. Despite the lower level of antibody production in old mice compared with young, no decrease in the number of antigen-binding cells (detected by resetting and autoradiography) was observed. Taken together, these results suggest that a defect exists in B cells which is independent of T cell help, and that it is not due to cell depletion but rather to a qualitative abnormality in the cells themselves. Old T cells did not collaborate with young B cells as well as young T cells did, indicating a loss of helper T cell activity. Spleen cells from old mice, when mixed with young spleen cells at a 1:1 ratio, caused a reduction in their antibody-forming potential which was consistent with the presence of cells with suppressive activity. The suppressor cells were shown to be T cells since their effect was abrogated by treatment with anti-Thy-1.2 serum plus complement and enriched by passage through nylon wool columns. These findings emphasize the need to use purified cell populations in analysis of responsiveness in old animals and highlight the multifactorial nature of the mechanisms involved in the ageing process.     

Immune function in aged mice. III. Role of macrophages and effect of 2-mercaptoethanol in the response of spleen cells from old mice to phytohemagglutinin, lipopolysaccharide and allogeneic cells.

Spleen cells from old mice responded less well to phytohemagglutinin (PHA), lipopolysaccharide (LPS), lipid A and allogeneic cells than those from young mice. The defect in each case resided with the nonadherent responding lymphocyte population rather than adherent accessary cells (macrophages). This conclusion was reached by showing that macrophages from old mice functioned normally in each of their known roles in lymphocyte responses in vitro; namely, presentation of antigen or mitogen to responding lymphocytes, support of lymphocyte responses and regulation of responses to mitogens and antigens. Normal presentation function was demonstrated by the comparable ability of peritoneal exudate cells from old and young mice to furnish the macrophage requirement for PHA responsiveness in vitro. This conclusion was confirmed by the finding that old, nonadherent cells reconstituted with macrophages from young mice, responded to PHA like unfrationated old cells. Old macrophages were also shown to be normal in their ability to provide the 2-mercaptoethanol (2ME) replaceable support function to young lymphocytes in vitro. Furthermore, replacement of macrophage supportive activity with 2ME did not rejuvenate the response of old cells to PHA, LPS, lipid A or alloantigens. Finally, no evidence of adherent cell suppression of responses of old cells could be obtained by two different approaches. First, although depletion of adherent cells increased, to a similar degree, the responses of both old and young cells to allogeneic stimulation, this procedure did not reduce the difference in responsiveness between them. That is, the decreased response of old cells in a mixed lymphocyte culture (MLC) could not be explained by excessive adherent cell suppression. Second, no evidence for suppression could be obtained in co-cultures of old and young cells responding to PHA, LPS or allogeneic cells. Taken together, these results suggest that macrophage function, in contrast to lymphocyte function, does not decline with age. It is suggested that this difference may result from the different half-lives of macrophages and lymphocytes in the intact animal. In contrast to the above results, old spleen cells acting as stimulators in an MLC were not always less effective than young cells. Furthermore, any difference that did exist between young and old cells was largely ablated by depletion of adherent cells. This result suggests that adherent cells from old mice may determine the ability of old cells to stimulate allogeneic lymphocytes in an MLC. It is not known whether this adherent cell is a macrophage or some other adherent (perhaps regulatory) cell.     

Patterns of dual lymphocyte development in co-cultures of foetal thymus and lymphohaemopoietic cells from young and old mice.

Patterns of lymphocyte development in the thymus were analysed, focusing on newly emigrating bone marrow (BM) and resident thymic cells. We co-cultured foetal (Day 15 of gestation) thymic explants (FT, C57BL/Ka, Thy-1.1), with BM cells from young (2-3 months) or old (24 months) syngeneic, Thy-1 congenic (C57BL/6J, Thy-1.2) mice. When the FT was severely depleted [treated with either 2-deoxyguanosine (dGua) or exposed to an irradiation dose of 20 Gy] BM-type T lymphocytes were dominant, regardless of BM donor age. When the FT was only partially depleted of its proper lymphoid cells (by exposure to 10 Gy), the lymphocytes which developed were from both BM and FT origins, yet the level of donor-type thymocytes from the young mice was higher than that of the old. Under these conditions the proportion of FT-derived double-positive CD4+ CD8+ (DP) cells was higher, and that of single-positive CD4- CD8+ cells was lower, than in the BM-derived cells, irrespective of the BM donor age. The proportions of old BM-derived DP cells were lower than in the young. Co-cultures of thymus cells from young and old mice with partially depleted FT explants resulted in similar proportions of CD4/CD8 subsets from both donor and FT origins, with the exception that in the presence of old-thymus cells there was an increase in the level of FT-type CD4- CD8+ cells. Patterns of T-cell differentiation in the thymus thus seem to be determined by newly emigrating cells and the resident thymocytes.     

Impairment of CD3-dependent and CD3-independent activation pathways in CD4+ and in CD8+ T cells from old CBA/RIJ mice

Stimulation of T cells from old mice with anti-CD3 antibodies resulted in a high variability of proliferative responses, which were 2- to 8-fold lower than the responses by T cells from young mice, even in the presence of exogenous rIL-2. Moreover, the CD4+ T cells from these old mice displayed a diminished capacity to produce IL-2 in response to anti-CD3. A partial explanation was found in the observation that T cells from the majority of old mice displayed a diminished expression of CD3 of variable intensity. However, after stimulation of the T cells with the combination of phorbol-12-myristate-13-acetate (PMA) and ionomycin to bypass CD3, 3 out of 6 old mice still exhibited 2-fold lower proliferative responses than T cells from young mice; IL-2 production by the CD4+ T cells was lower in all old mice tested. Comparison of CD4+ T cells and CD8+ T cells from old mice revealed a defective PMA/ionomycin response in both subsets, although this defect seemed more pronounced in CD4+ T cells when compared with the young counterparts. The diminished response of CD8+ T cells was accompanied by a diminished expression of the IL-2R alpha-chain. In contrast, old CD4+ T cells expressed rather higher levels of IL-2R alpha-chain than young CD4+ T cells. Altogether, multiple defects which are not necessarily the same in CD4+ and CD8+ T cells are responsible for defective T cell responses in old mice.     

Lectin-induced cytotoxic activity in spleen cells from young and old mice. Age-related changes in types of effector cells, lymphokine production and response.

Concanavalin A (Con A)-induced cytotoxic activity, interferon (IFN) and interleukin-2 (IL-2) levels in cultures of spleen cells from young (2-3 months) and old (22-24 months) C57BL/6 female mice were studied. Con A-activated spleen cells from old mice attained significantly higher cytotoxic activity compared with activated spleen cells from young mice. Activated spleen cells from old and young mice showed differences in their ability to lyse different types of target cells. Both could lyse P-815 cells, neither could lyse K562 cells, and only activated cells from old mice could lyse EL-4 cells. Cytotoxic spleen cells from the old mice were more sensitive to anti-asialo-GM-1 and anti-Lyt-2.2 plus complement (C) treatment. While levels of IL-2 produced by spleen cells from young mice were higher, the addition of exogenous IL-2 had no effect on cytotoxic activity of the spleen cells from old mice. Exogenous IL-2, however, could lower cytotoxic activity of Con A-activated spleen cells from young mice. Activated spleen cells from old mice generated higher levels of IFN-gamma while the addition of an anti-IFN-gamma antibody boosted the level of cytotoxicity by Con A-activated spleen cells from young mice. These results suggest that IFN-gamma may act as a feedback inhibitory signal regulating the levels of cytotoxicity induced in spleen cells from young mice in response to Con A. The cytotoxic activity generated in Con A-activated spleen cells from old mice reflects a defect in this feed-back regulation.     

Suppressor cells and immunodeficiency in (NZB x NZW)F1 hybrid mice.

Old (15-20 month) male (NZB x NZW)F1 (B/W) mice have severely impaired spleen cell reactivity to phytohemagglutinin (PHA), a mitogen which stimulates mainly T lymphocytes. Spleen cells from old mice markedly suppressed the PHA response of splenocytes from young (3-4 month) B/W males. Similar suppressor activity was not present in the spleens of old mice of four nonautoimmune strains. The suppressor activity of old B/W spleen cells was mediated by a nonphagocytic, radioresistant, mononuclear leukocyte. Although this cell was eluted in the "T lymphocyte" fraction of nylon wool colums, it was not sensitive to treatment with anti-Thy-1 antiserum and complement. Suppressor activity was lost after 18 h incubation at 37 degrees C in tissue culture medium. Supernatants of these overnight cultures had no suppressive effect on fresh young B/W spleen cells. Old B/W spleen cells suppressed PHA reactivity more than concanavalin A or lipopolysaccharide reactivity. Kinetic studies demonstrated an increasing suppression with time over 72 h of culture. This study demonstrate that the severely impaired PHA reactivity of old B/W mice is mediated, at least in part, by active suppression.     

CD3+ T cells in severe combined immune deficiency (scid) mice. I. Transferred purified CD4+ T cells, but not CD8+ T cells are engrafted in the spleen of congenic scid mice.

Young (less than 3 months of age) and old (greater than 1 year of age) C.B-17 scid/scid mice were tested for the presence of immunoglobulin in serum and CD3+ T cells in spleen and peritoneal cavity. In all old severe combined immune deficiency (scid) mice tested we found detectable, but very variable levels of serum immunoglobulin as well as splenic and peritoneal CD3+ T cells comprising 3% to 10% of the nonfractionated cell populations of these organs (n = 10). In contrast, none of the analyzed young scid mice showed any evidence of peripheral lymphocytes. Low numbers (2 x 10(5) to 5 x 10(5) cells/mouse) of highly purified CD4+ cells from congenic C.B-17 or BALB/c donor mice were injected intravenously into young scid recipient mice. A CD4+ T cell population was clearly engrafted when transplanted scid mice were analyzed 8 to 13 weeks after T cell transfer: (a) a CD3+CD4+CD8- T cell population was detectable in the spleens of all recipient scid mice by flow microfluorometry analyses; (b) CD3+CD4+CD8 T cell lines could be grown out of these spleens in vitro; (c) the histological examination revealed evidence of lymphoid cell repopulation in the spleens of all transplanted scid mice and (d) transplanted CD4+ T cell populations could be serially transferred into secondary and tertiary recipient scid mice. These data indicate that scid mice can be constructed in which only the CD4+ T cell compartment is selectively reconstituted. In contrast to the successful engraftment of CD4+ T cell, highly purified congenic CD8+ T cells could not be engrafted into the spleen of scid mice.     

In Vitro Effects of Melatonin on Mitogen-Induced Lymphocyte Proliferation and Cytokine Expression in Young and Old Rats

Melatonin (MLT) treatment in vivo has been shown to have immunomodulatory and anti-immunosenescent effects in the mouse model. In the present report, the in vitro effect of MLT on mitogen-induced lymphocyte proliferation and cytokine expression was evaluated in a rat model. Splenic lymphocytes were isolated from young (6 months) and old (24 months) F344 rats and were incubated with MLT in the presence or absence of mitogens. The proliferative response to concanavalin A (ConA) or PMA plus ionomycin was measured in splenocytes or T cells isolated from young and old rats. In addition, the induction of interleukin-2 (IL-2) and interferon-gamma (IFN-γ) production was measured in MLT-treated and untreated lymphocytes isolated from young and old rats. The ConA-induced lymphocyte proliferation and IL-2 expression were significantly lower and induction of IFN-γ production was significantly higher in splenocytes and purified T cells isolated from old rats compared to splenocytes and T cells isolated from young rats. Treatment of lymphocytes with MLT did not significantly alter ConA-induced lymphocyte proliferation or IL-2 or IFN-γ expression in lymphocytes isolated from either young or old rats. On the basis of these data, we conclude that in vitro MLT treatment had no immunomodulatory effect on lymphocytes from rats.     

The effect of taurine on age-related immune decline in mice: the effect of taurine on T cell and B cell proliferative response under costimulation with ionomycin and phorbol myristate acetate

Proliferative responses to the costimulation with phorbol-12-myristate-13-acetate (PMA) and suboptimal doses of ionomycin in the purified T and B cells from old mice were lower than those from young mice. The degree of the age-related decline was more significant in T cells than in B cells. Taurine, a sulfur containing amino acid, augmented the proliferative responses of T cells from both young and old mice. The augmentation of the proliferative response by taurine was more marked in old T cells than in young ones. The concentration of intracellular free calcium ion ([Ca2+]i) was significantly lower in the old T cells under the stimulation with PMA and ionomycin than that in the young ones. In the presence of taurine, the concentration of [Ca2+]i in the old T cell significantly increased under the stimulation. The results indicate that taurine improved the proliferative response of old T cells by the restoration of the increment of the concentration of [Ca2+]i under the stimulation.     

Age-related bias in function of natural killer T cells and granulocytes after stress: reciprocal association of steroid hormones and sympathetic nerves

Stress-associated immune responses were compared between young (8 weeks of age) and old (56 weeks) mice. Since stress suppresses the conventional immune system (i.e. T and B cells) but inversely activates the primordial immune system (i.e. extrathymic T cells, NKT cells, and granulocytes), these parameters were analysed after restraint stress for 24 h. The thymus became atrophic as a function of age, and an age-related increase in the number of lymphocytes was seen in the liver. Although the number of lymphocytes in both the thymus and liver decreased as the result of stress, the magnitude was much more prominent in the thymus. To determine stress-resistant lymphocyte subsets, two-colour immunofluorescence tests were conducted in the liver and spleen. NKT cells were found to be such cells in the liver of young mice. On the other hand, an infiltration of granulocytes due to stress was more prominent in the liver of old mice than in young mice. Liver injury as a result of stress was prominent in young mice. This age-related bias in the function of NKT cells and granulocytes seemed to be associated with a difference in the responses of catecholamines (high in old mice) and corticosterone (high in young mice) after stress. Indeed, an injection of adrenaline mainly induced the infiltration of granulocytes while that of cortisol activated NKT cells. The present results suggest the existence of age-related bias in the function of NKT cells and granulocytes after stress and that such bias might be produced by different responses of sympathetic nerves and steroid hormones between young and old mice.     

Prevalence and specificity of lymphocytotoxic antibodies in different stages of HIV infection.

Sera obtained from 27 HIV-infected persons were investigated for complement-dependent humoral cytotoxicity. Uninfected as well as HTLV-IIIB-infected H9 cells were used as cellular targets either before or after stimulation by phytohemagglutinin (PHA) or concanavalin A (Con-A). The degree of cytotoxicity was determined by 51Cr-release assay. Two different antibodies could be found in sera of HIV-infected persons, one being directed against HIV-induced cell surface component(s) and the other reacting with structure(s) present on activated T4 cells. Asymptomatic HIV-carries were found to have antibodies exerting complement-dependent cytotoxicity to HIV-infected T4 cells. These antibodies were reactive mainly after stimulation of HIV-infected target cells by Con-A. Sera of ARC and AIDS patients contained autoantibodies reactive with PHA-stimulated or HIV-infected T4 lymphocytes. These data suggest that HIV-specific antibodies represent an anti-viral immune defense, while autoantibodies may be important in destruction of the immune system in AIDS.