Louis E. Adams

Cellular Immunity to Nuclear Antigens in Systemic Lupus Erythematosus

Cellular immune repsonses were determined by skin testing and mitogen- and antigen-induced blastic transformation of peripheral blood lymphocyte cultures in 24 patients with systemic lupus erythematosus (SLE) and 24 normal subjects. The incidence of positive skin tests with Candida albicans, PPD (tuberculin-purified protein derivative) intermediate strength, Trichophyton and histoplasmin was not significantly different in the two groups nor was lymphocyte stimulation by the mitogen phytohemagglutinin-M (PHA-M), implying that cellular immunity is normal in SLE. However, the SLE patients had a significantly increased incidence of positive skin tests and stimulated lymphocyte cultures to a number of nuclear antigens compared with normal subjects. No correlation could be made between the test results and the activity of the SLE at the time of study except for a significant association between lymphocyte culture stimulation by rabbit thymus native DNA and active SLE nephritis. Patients with a membranous antinuclear factor (ANF) pattern had positive skin tests with rabbit thymus native DNA and usually had active disease.

Drug-Related Lupus

SummaryAdverse side effects to drugs and chemicals in which immune mechanisms may be responsible have been described in drug-related lupus (DRL). The spectrum of drugs that may elicit DRL includes such classes as the hydrazines, arylamines, and chemicals that can be metabolised to amines. The 2 major pathways of metabolism — acetylation and N-hydroxylation — are described in detail.The events leading to autoantibody production are not well understood; however, specific consideration of the genetic makeup of patients who are candidates for treatment with these drugs may help identify those at risk of developing DRL.

Induction of antibodies to nuclear antigens in rabbits by immunization with hydralazine-human serum albumin conjugates.

The antihypertensive drug hydralazine can induce in man a syndrome similar to spontaneous systemic lupus erythematosus (SLE). The pathogenesis of this drug-induced syndrome is not understood. In this investigation, five groups of rabbits were studied: group I, 10 rabbits hyperimmunized with hydralazine conjugated to human serum albumin (HSA) in complete Freunds adjuvant (CFA); group II, four rabbits with HSA in CFA; group III, four rabbits with CFA alone; group IV, five rabbits with hydralazine conjugated to rabbit serum albumin (RSA); and group V, four rabbits with a major metabolite of hydralazine conjugated to HSA. The rabbits immunized with hydralazine-HSA developed rising titers of antibodies to hydralazine and progressively increasing amounts of antibodies to both single-stranded and native DNA. The antibodies to DNA were cross-reactive with hydralazine as determined by inhibition of DNA binding and DNA hemagglutination tests. Similar results were obtained in rabbits immunized with the metabolite-HSA compound except the major hapten antibody response was to the metabolite. The DNA antibodies in this group were also capable of being absorbed by metabolite-HSA as well as hydralazine-HSA, indicative of the cross-reactivity between hydralazine and its metabolite. Immunization with hydralazine-RSA caused rabbits to produce antibodies to hydralazine but not to DNA, indicating the requirement for an immune response to the carrier protein in order for antibodies reactive with DNA to be produced. Thus, hyperimmunization of rabbits with hydralazine-protein conjugates may provide a useful animal model of SLE. The data suggests that an immune response to hydralazine may be important in human hydralazine-induced SLE.

Prospective study of immunologic effects of hydralazine in hypertensive patients

Twenty‐seven hypertensive patients (23 of whom were black) were treated with hydralazine as their major antihypertensive drug and were followed for evidence of autoimmunity and clinical systemic lupus erythematosus (SLE). Only one patient developed SLE but many, although asymptomatic, had serologic evidence of autoimmunity: antibodies to single‐ and double‐stranded ribonucleic acid (RNA), single‐stranded deoxyribonucleic acid (DNA), histones, and lymphocytes. Acetylation phenotype profoundly influenced this response; slow acetylators had a higher incidence and larger amounts of autoantibodies. Antibodies to both types of RNA were a more sensitive index of autoimmunity than antinuclear antibodies. Hydralazine treatment did not alter cell‐mediated immune responses. The hydralazine SLE patient had large amounts of autoantibodies that were predominantly IgG, while in the others IgM autoantibodies were predominant. No antibodies, but positive lymphoproliferative responses to hydralazine, were found in half the patients tested.

Genetic, Immunologic and Biotransformation Studies of Patients on Procainamide

This report represents follow-up observations of a unique long-term study of patients on procainamide (PA) for various cardiac arrhythmias. Serologic and clinical evaluations associated with drug-related autoimmunity were assessed and patients were characterized for factors postulated to influence susceptibility to autoimmunity, including acetylator phenotype, oxidative metabolism of PA, HLA class profile, and production of interleukin-1 (IL-1) and tumor necrosis factor (TNF). Fifty-two percent had IgM and 70% IgG antibodies to total histones; 67% had IgG antibodies to histone H2A/H2B. Patients were equally divided between fast and slow acetylators. N-oxidative metabolism of PA was indicated by the presence of urinary nitroprocainamide, which correlated with elevated titers of antihistone antibodies. There was a significant incidence of the DQw7 split of DQw3 in PA patients when compared to controls, and the frequency of antibodies to total histones and H2A/H2B was significantly increased in the DQw7 patients. C4A*QO and C4B*QO alleles were more frequent in the PA patients than in controls. IL-1 and TNF production was not different in patients compared to controls. These data suggest that certain genetic factors may serve as markers for PA-related autoimmunity.

Procainamide hydroxylamine lymphocyte toxicity—I. Evidence for participation by hemoglobin

A number of lines of evidence suggest that the lupus-like symptoms associated with procainamide therapy may be caused by products of metabolic N-oxidation. In the present study, the perfusion of the isolated rat liver with a hemoglobin-free solution containing procainamide (100 microM) resulted in the rapid appearance of the N-oxidation metabolite procainamide hydroxylamine in the perfusate. Addition of procainamide hydroxylamine in vitro to whole rat blood (1-40 microM) resulted in a concentration-dependent loss of proliferative response among mononuclear cells isolated from the treated blood and cultured with mitogens (phytohemagglutinin, PHA-P: concanavalin A, Con A; and pokeweed mitogen, PWM), as well as a loss of viability. Similar effects on lymphocyte mitogen responsiveness were observed when procainamide hydroxylamine (1-40 microM) was added to rat whole splenic cell populations. Carbon monoxide or ascorbic acid pretreatment inhibited the toxicity of procainamide hydroxylamine to lymphocytes in whole blood, but only carbon monoxide pretreatment inhibited procainamide hydroxylamine-induced methemoglobin formation. These observations are consistent with the participation of hemoglobin in a redox cycle with procainamide hydroxylamine, generating products which are primarily responsible for its cytotoxicity in blood.

Role of genetic factors in drug-related autoimmunity.

Although there is evidence to suggest that genetic factors play a major role in the pathogenesis of many of the rheumatic diseases, far less is known of their role in the induction and expression of human autoimmunity resulting from long-term exposure to drugs, chemicals and environmental agents. Pharmacogenetic factors represent an important source of interindividual variation in response to drugs; most research to date has focused on genetic polymorphism of drug metabolism via N-acetylation, S-methylation or cytochrome P-450-catalyzed oxidation. In drug-related autoimmunity, there is limited evidence that the hosts genetic background plays a major role beyond the expression of autoantibodies. More recent prospective studies have concentrated on the association of MHC-genes in the expression of autoimmunity and the susceptibility of patients to develop drug-related clinical syndromes.

Effects of procainamide hydroxylamine on generation of reactive oxygen species by macrophages and production of cytokines

A series of experiments was conducted to examine the effects of the N-oxidized metabolite of procainamide, procainamide hydroxylamine (PAHA), on reactive oxygen species (ROS) production by macrophages in vitro, as well as on the release of the cytokine interleukin-1 (IL-1). Results with PAHA were compared with those from the parent compound, procainamide, and in some cases with other procainamide metabolites such as N-acetylprocainamide or nitrosoprocainamide. The effects of PAHA on ROS production by mouse and rat macrophages were complex, resulting in both stimulatory and inhibitory activity depending upon the PAHA concentration and whether macrophages were resting or elicited. The primary effect of PAHA appeared to be a stimulation of ROS production. Monocytes pretreated with PAHA (20 microM) depressed the responsiveness of lymphocytes in co-culture to a T-cell mitogen (conconavalin A) but not a B-cell mitogen (lipopolysaccharide). This effect was inhibited when monocyte pretreatment with PAHA was accompanied by the antioxidants, catalase or superoxide dismutase. IL-1 production by rat adherent splenocytes was unaffected by PAHA in concentrations that were not cytotoxic. These observations suggest that the oxidative metabolism of procainamide to PAHA may result in enhanced production of ROS by macrophages contributing its toxicity to lymphocytes.

Sperm and seminal plasma antibodies in acquired immune deficiency (AIDS) and other associated syndromes

Although HIV has been established as the etiologic agent in AIDS, other contributory cofactors may be responsible for selective clinical manifestations of the syndrome. While the pathogenesis remains unclear, the development of immunologic abnormalities observed in some homosexual males with AIDS and AIDS-related complex may be attributed to repeated exposure to allogeneic sperm and seminal plasma components. Accordingly, antibody levels to semen fractions were measured in sera from 338 individuals (295 AIDS, 36 ARC, 16 randomly selected homosexuals, 29 patients with infectious hepatitis, 12 hemophiliacs, 20 rheumatic disease patients, and 24 healthy heterosexual adults). The methods were (i) passive hemagglutination for antibodies to human seminal plasma (HuSePl), and (ii) indirect immunofluorescence (IF) assay on methanol-fixed human sperm noting staining of acrosomal, equatorial, postnuclear, and tail main-piece regions. HuSePl was positive in 31% AIDS sera, while 39% were positive by IF. ARC sera were 30% positive for HuSePl and 38% positive IF. No control sera were positive. Results reveal a significant incidence of antibody to sperm and seminal plasma components in ARC and AIDS patients. Because of the known immunomodulating properties of both, it is possible that these responses may indicate risk factors for disease progression and severity.

The Role of the Lymphocyte in an Immune Response

The immune system has evolved in the human being as an elaborate mechanism to distinguish itself from all else that is not self. This process serves in the defence against invaders. The cells of the immune system learn to tolerate all tissues, cells and proteins of the body. Failure to control the state of tolerance results in autoimmunity. The understanding of the role of T-cell receptors (TCR), the Major Histocompatibility Complex (MHC), adhesion molecules and growth factors in antigen recognition has lead to the exploration of various means to modulate the immune response. Safety measures exist to prevent the immune system from attacking its host. The antigen has to be recognized by the T-cell. This involves the TCR and the MHC. In addition it must receive a second signal to become activated. The second signal involves a protein such as B7 binding with CD28. Certain specialized cells, macrophages, dendritic cells and activated B-cells can deliver this second signal for activation; receipt of only one signal can prevent activation. The elucidation of the role of cell-to-cell interactions, the adhesion molecules involved and the accessory growth factors provides modalities for selectively modifying the immune response. This would be of great relevance in autoimmunity and transplantation.