Histamine inhibits neutrophil NADPH oxidase activity triggered by the lipoxin A4 receptor-specific peptide agonist Trp-Lys-Tyr-Met-Val-Met.

The vasoactive amine histamine is found at high concentrations in the immune and inflammatory tissues. Earlier studies have revealed that histamine regulates the nicotinamide-adenine dinucleotide phosphate (NADPH) oxidase-dependent formation of oxygen radicals by phagocytic cells. However, the effects of histamine on intracellular signal transduction mechanisms of relevance to oxidase regulation remain controversial. For this study, we investigated the effects of histamine on NADPH oxidase activity in human neutrophil granulocytes triggered by a lipoxin A4 receptor agonist [the hexapeptide Trp-Lys-Tyr-Met-Val-Met (WKYMVM), a formyl peptide receptor (FPR) agonist (the chemotactic tripeptide formylmethionyl-leucyl-phenylalanine (fMLF)) and an activator of protein kinase C (phorbol myristate acetate (PMA)]. We report that histamine, acting via H2-type histamine receptors (H2R), suppresses NADPH oxidase-dependent formation of oxygen radicals induced by WKYMVM and fMLF but not that induced by PMA. Peptide-induced mobilization of granule-localized complement receptor 3 (CR3) was unaffected by histamine suggesting that the inhibition specifically affected NADPH oxidase activation. Our data suggest that histamine downregulates FPRL1- and FPR-induced NADPH oxidase activity upstream of protein kinase C (PKC) and downstream of the separation of the peptide-induced signal into granule secretion and oxidase activation.

Serotonin protects NK cells against oxidatively induced functional inhibition and apoptosis.

High concentrations of the neurotransmitter serotonin can be found in inflamed and ischemic peripheral tissues, but the role of serotonin in immunoregulation is largely unknown. Here we report that serotonin protected human natural-killer (NK) cells from oxidatively induced inhibition inflicted by autologous monocytes in vitro. Serotonin protected NK cells from monocyte-mediated apoptosis and suppression of cytotoxicity and maintained the activation of NK cells induced by interleukin-2 despite the presence of inhibitory monocytes. A detailed analysis of these protective effects revealed that serotonin scavenged reactive oxygen species (ROS) derived from the H(2)O(2)-myeloperoxidase (-MPO) system. Serotonin shared this scavenger activity with its precursor, 5-hydroxytryptophan (5-HTP); however, serotonin was >10-fold more potent than 5-HTP in protecting NK cells against functional inhibition and apoptosis. We propose that serotonin, by scavenging peroxidase-derived ROS, may serve to protect NK cells from oxidative damage at inflammatory sites.

Alleviating oxidative stress in cancer immunotherapy: a role for histamine?

Interleukin-2 is a remarkable activator of lymphocytes with anti-neoplastic properties such as T-cells or natural killer cells, but tumor regression only rarely occurs in interleukin-2-treated cancer patients. In this review, we focus on interactions between monocytes/macrophages and T-cells/natural killer-cells, and in particular the role of such interactions for the outcome of cancer immunotherapy with interleukin-2. We propose that interleukin-2 therapy should be supplemented with compounds that alleviate toxicity inflicted by monocyte/macrophage-derived reactive oxygen metabolites within and around tumors. The hypothesis is founded on data demonstrating that (i) functions of intratumoral lymphocytes in many human malignant tumors are inhibited by reactive oxygen metabolites, generated by neighboring monocytes/macrophages, (ii) interleukin-2 only weakly activates T-cells or natural killer cells in an environment of oxidative stress, and (iii) inhibitors of the formation of reactive oxygen metabolites or scavengers of reactive oxygen metabolites synergize with interleukin-2 to activate these lymphocyte subsets. We also review the preclinical background to the use of histamine dihydrochloride, an inhibitor of reactive oxygen metabolite formation in monocytes/macrophages, as a supplement to cancer immunotherapy with interleukin-2.

Natural killer cell dysfunction and apoptosis induced by chronic myelogenous leukemia cells: role of reactive oxygen species and regulation by histamine.

Natural killer (NK) cells are deficient in patients with chronic myelogenous leukemia (CML), but the mechanisms responsible for the dysfunction are not completely understood. This study reports that CML cells effectively inhibit the baseline and interleukin-2 (IL-2)-induced NK cell cytotoxicity against a CML cell-derived line (K562). A sizable fraction of NK cells subsequently acquired features characteristic of programmed cell death/apoptosis. The CML cell-mediated inhibition of NK cells required triggering of reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase-mediated formation of reactive oxygen species (ROS) and was prevented by catalase, a scavenger of ROS, and by histamine, acting via H(2)-receptor-mediated inhibition of ROS production in CML cells. In contrast, nonmalignant neutrophilic granulocytes inhibited NK cells via ROS production without the requirement of exogenous NADPH oxidase-triggering stimuli. We propose that paracrine production of ROS may contribute to the dysfunction of NK cells in CML and that histamine may serve as an autocrine inhibitor of ROS formation in leukemic granulocytes. (Blood. 2000;96:1961-1968)

Adjuvant histamine in cancer immunotherapy.

Interleukin-2 (IL-2) is an effective activator of lymphocytes with anti-neoplastic properties such as T-cells or natural killer cells, and this property of IL-2 has formed the basis for its widespread used as an immunotherapeutic agent in human neoplastic disease. In recent years, IL-2 therapy for solid neoplastic diseases and hematopoietic cancers has been supplemented with histamine dihydrochloride with the aim of counteracting immunosuppressive signals from monocytes/macrophages. Here we review the preclinical basis for the use of histamine as an adjunct to IL-2 in cancer immunotherapy.

Histamine: a novel approach to cancer immunotherapy.

The functions of intratumoral lymphocytes in many human malignant tumors are inhibited by reactive oxygen species (ROS), generated by adjacent monocytes/macrophages (MO). In vitro data suggest that immunotherapeutic cytokines such as interleukin-2 (IL-2) or interferon-alpha (IFN-alpha) only weakly activate T cells or natural killer (NK) cells in a reconstituted environment of oxidative stress and that inhibitors of the formation of ROS or scavengers of ROS synergize with IL-2 and IFN-alpha to activate T cells and NK cells. In this review, we focus on the immunoenhancing properties of histamine, a biogenic amine. Histamine inhibits ROS formation in MO via H2-receptors; thereby, histamine protects NK cells from MO-mediated inhibition and synergizes with IL-2 and IFN-alpha to induce killing of NK cell-sensitive human tumor cells in vitro. Histamine also optimizes cytokine-induced activation of several subsets of T cells by affording protection against MO-inflicted oxidative inhibition. The putative clinical benefit of histamine as an adjunct to immunotherapy with IL-2 and/or IFN-alpha is currently evaluated in clinical trials in metastatic malignant melanoma and acute myelogenous leukemia.

Histamine protects T cells and natural killer cells against oxidative stress.

Oxidative stress inflicted by monocytes/macrophages (MO) is recognized as an important immunosuppressive mechanism in human neoplastic disease. We report that two types of lymphocytes of relevance for protection against malignant cells, T cells and natural killer (NK) cells, became anergic to the T cell and NK cell activator interleukin-2 (IL-2) after exposure to MO-derived reactive oxygen metabolites and subsequently acquired features characteristic of apoptosis. The MO-induced anergy and apoptosis in T cells and NK cells were reversed by histamine, an inhibitor of reactive oxygen metabolite synthesis in MO. We propose that strategies to circumvent oxidative inhibition of lymphocytes may be of benefit in immunotherapy of neoplastic disease.

Histamine and cytokine therapy.

Interleukin-2 (IL-2) and interferon-alpha (IFN-alpha) are potent activators of natural killer (NK) cells and other anti-tumor effector cells, but the results obtained in clinical trials with these cytokines have proved disappointing in many forms of cancer. It may be that IL-2 and IFN-alpha are often not sufficiently effective because intratumoral monocytes/macrophages (MO) inhibit the cytokine-induced activation of cytotoxic effector lymphocytes such as NK-cells at the site of tumor growth. An essential part of this inhibitory signal is conveyed by MO-derived reactive oxygen species (ROS), which potently inhibit NK-cell-related functions, including the constitutive and cytokine-induced cytotoxicity against tumor cells. Histamine, a biogenic amine, inhibits ROS formation in MO; thereby, histamine synergizes with IL-2 and with IFN-alpha to induce killing of NK-cell-sensitive human tumor cells in vitro. Furthermore, treatment of tumor-bearing mice with histamine potentiates cytokine-induced killing of NK-cell-sensitive murine tumor cells in vivo. In ongoing clinical trials, histamine has been added to IL-2 or IFN-alpha in immunotherapy of human neoplastic disease. The results of two pilot trials in metastatic melanoma suggest that the addition of histamine to IL-2/IFN-alpha prolongs survival time and induces regression of tumors, such as liver melanoma, which are considered refractory to immunotherapy with IL-2 or IFN-alpha. In acute myelogenous leukemia (AML), histamine and IL-2 have been given in order to protect patients in remission against relapse of leukemic disease. The potential benefit of histamine therapy in melanoma and AML will be evaluated in randomized trials.

Histamine and the response to IFN-alpha in chronic hepatitis C.

Whole blood concentrations of histamine were examined in 20 patients with chronic hepatitis C after longterm treatment with interferon-alpha (IFN-alpha). In 13 of these patients, a transient (n = 5) or sustained (n = 8) normalization of liver enzymes and elimination of viral RNA were noted at the end of therapy. Seven patients did not respond to IFN-alpha. Nonresponding patients had significantly lower histamine levels in blood than transient (p = 0.0005) or sustained (p = 0.04) responders. Histamine levels were not different in patients with a sustained vs. a transient IFN response. Confounding factors, such as ongoing viral replication or liver cirrhosis, did not account for the differences in histamine levels. Our data suggest that hypohistaminism in peripheral blood may determine a poor response to IFN-alpha in chronic hepatitis C.

Histamine in cancer immunotherapy.

A novel strategy for enhancing the efficacy of immunotherapy with interleukin-2 (IL-2) and interferon-alpha (IFN-alpha) in human neoplasia is presented. IL-2 and IFN-alpha are potent activators of the antitumour activity of natural killer (NK) cells but only rarely reduce the tumour burden in treated patients. Recent studies suggest that a reason why these cytokines are insufficiently effective in human cancer is that phagocytes inhibit the tumour-killing activity of NK cells at the site of the tumour. Histamine prevents the phagocyte-induced, NK cell-inhibiting signal; thus, histamine and IL-2 or histamine and IFN-alpha synergize to induce NK cell-mediated killing of human tumour cells in vitro. Further, treatment of tumour-bearing mice with histamine enhances IL-2- and IFN-alpha-induced destruction of NK cell-sensitive tumour cells in vivo. More than 50 patients with neoplastic disease have been treated with histamine, given in subcutaneous injections, together with IL-2 or IFN-alpha. The results of two pilot trials in metastatic melanoma suggest that the addition of histamine to IL-2 and IFN-alpha prolongs survival time and induces regression of tumours, such as liver melanoma, which are otherwise considered refractory to immunotherapy. The results of a trial in acute myelogenous leukaemia (AML) suggest that histamine and IL-2 protects AML patients against relapse of leukaemic disease. Histamine is well tolerated: for example, AML patients in remission have treated themselves with histamine at home without supervision for a total of > 300 weeks with only a handful of therapy-related hospital contacts. Controlled trials in melanoma and AML are under way to further investigate the putative benefit of histamine in neoplastic disease.

NK cell-mediated killing of AML blasts: role of histamine, monocytes and reactive oxygen metabolites.

Blasts recovered from patients with acute myelogenous leukaemia (AML) were lysed by heterologous natural killer (NK) cells treated with NK cell-activating cytokines such as interleukin-2 (IL-2) or interferon-alpha (IFN-alpha). The cytokine-induced killing of AML blasts was inhibited by monocytes, recovered from peripheral blood by counterflow centrifugal elutriation. Histamine, at concentrations exceeding 0.1 microM, abrogated the monocyte-induced inhibition of NK cells; thereby, histamine and IL-2 or histamine and IFN-alpha synergistically induced NK cell-mediated destruction of AML blasts. The effect of histamine was completely blocked by the histamine H2-receptor (H2R) antagonist ranitidine but not by its chemical control AH20399AA. Catalase, a scavenger of reactive oxygen metabolites (ROM), reversed the monocyte-induced inhibition of NK cell-mediated killing of blast cells, indicating that the inhibitory signal was mediated by products of the respiratory burst of monocytes. It is concluded that (i) monocytes inhibit anti-leukemic properties of NK cells, (ii) the inhibition is conveyed by monocyte-derived ROM, and (iii) histamine reverses the inhibitory signal and, thereby, synergizes with NK cell-activating cytokines to induce killing of AML blasts.

Minor role of hepatitis B and C virus infection in the etiology of hepatocellular carcinoma in a low-endemic area.

BACKGROUND: The etiologic role of hepatitis B (HBV) and C virus (HCV) for hepatocellular carcinoma (HCC) in a low-endemicity area is obscure. METHODS: Patients suspected of having primary liver cancer (PLC) in Göteborg, Sweden (n = 113), were tested serologically for HBV surface antigen and antibodies to HBV surface and core antigens. The presence of HBV surface and core antigens in cancer and non-neoplastic liver tissue in HCC cases was investigated immunohistochemically. Antibodies to HCV were tested by third-generation tests. The prevalence of HBV and HCV infection was compared in 73 patients with HCC and 32 patients with a final diagnosis other than PLC. RESULTS: No patient had signs of chronic HBV infection. Seven of 64 (11%) HCC patients were anti-HCV-positive, compared with 1 of 31 (3%) without PLC. All seven patients with HCC and HCV infection had liver cirrhosis, and two were alcoholics. Alcoholism was judged the commonest (42%) cause of cirrhosis. CONCLUSION: Contrary to areas with a high incidence of HCC, chronic viral hepatitis, particularly HBV, seems to play a minor etiologic role for HCC in Sweden compared with alcohol-related cirrhosis.

Histaminergic regulation of interferon-gamma (IFN-gamma) production by human natural killer (NK) cells.

Monocytes, recovered from human peripheral blood by counter-current centrifugal elutriation, effectively inhibit the production of IFN-gamma by CD3-/56+ NK cells in response to IL-2. This study aimed at defining the nature of the inhibitory signal, particularly the importance of monocyte-derived reactive metabolites of oxygen. It was found that monocytes recovered from patients with chronic granulomatous disease (CGD), a condition characterized by deficient NADPH-oxidase activity of phagocytes, did not inhibit IFN-gamma production by NK cells. Further, catalase, a scavenger of hydrogen peroxide, completely reversed the inhibitory signal whereas scavengers of the superoxide anion, hypohalous acids, the hydroxyl radical, or nitric oxide synthesis inhibitors such as L-NMMA were ineffective. Inhibition of IFN-gamma production was operating on a pretranslational level, as indicated by the inability of enriched NK cells to accumulate IFN-gamma mRNA in the presence of elutriated monocytes. Hydrogen peroxide, at micromolar concentrations, reconstituted the inhibition of IFN-gamma production when added to enriched NK cells. Histamine, a biogenic amine which inhibits the generation of reactive oxygen metabolites in monocytes, abrogated the inhibition of IFN-gamma production in NK cells; by this mechanism, histamine strongly synergized with IL-2 to induce IFN-gamma in mixtures of NK cells and monocytes. The synergizing effect of histamine was specifically mediated by H2-type histamine receptors. We conclude that: (i) the induction of IFN-gamma mRNA in NK cells is effectively down-regulated by products of the oxidative metabolism of monocytes; and (ii) histamine effectively enhances IFN-gamma production by preventing monocyte-induced oxidative damage to NK cells.

Histaminergic regulation of NK-cells: protection against monocyte-induced apoptosis.

Human natural killer (NK) cells (with CD3-/56+ phenotype) acquired features characteristic of apoptosis after incubation with autologous monocytes, as revealed by apoptotic nuclear morphology and degradation of DNA into oligonucleosomal fragments. The monocyte-induced apoptosis in NK-cells was prevented by the biogenic amine histamine at concentrations exceeding 0.1 microM. The protective effect of histamine was blocked by the H2-receptor (H2R) antagonist ranitidine but not by AH202399 A, a chemical control to ranitidine devoid of H2R affinity. It is concluded that histaminergic mechanisms may serve to protect NK cells from damage inflicted by products of the oxidative metabolism of monocytes.

Histaminergic regulation of natural killer cell-mediated clearance of tumour cells in mice.

Treatment of Swiss albino mice with histamine enhanced the clearance of natural killer (NK)-cell sensitive YAC-1 lymphoma and B16/F10 melanoma cells from lung tissue in vivo, but did not affect the elimination of NK-cell-insensitive P815 mastocytoma cells. The effect of histamine was apparently mediated by H2-type histamine receptors (H2R) since it was blocked by ranitidine, and H2R antagonist. Histamine did not affect clearance of tumour cells in animals depleted of NK cells in vivo by treatment with antibodies to asialo-GM1 or NK1.1. The effect of histamine was time-dependent: pretreatment with histamine for 3 h significantly augmented the clearance of YAC-1 cells, whereas, pretreatment with histamine for 5 min was ineffective. Histamine potentiated the anti-tumour properties of NK-cell activators such as interleukin-2 (IL-2) or interferon-alpha (IFN-alpha) in vivo. None of these lymphokines significantly affected the clearance of YAC-1 cells unless animals were concomitantly treated with histamine. Treatment with ranitidine alone reduced the in vivo clearance of YAC-1 cells from lungs but did not affect the clearance of NK-cell-insensitive P815 cells. Effects of ranitidine on NK-cell function in vivo were not shared by a chemical control to ranitidine, AH20239AA, thus indicating that the inhibition of NK-cells results from H2R antagonism rather than non-specific toxicity. It is concluded that histaminergic mechanisms may be involved in the regulation of NK cell function in vivo.

Induction of apoptosis in NK cells by monocyte-derived reactive oxygen metabolites.

Human NK cells (with CD3-/56+ phenotype) acquired features characteristic of apoptosis after incubation with autologous monocytes, as revealed by apoptotic nuclear morphology, degradation of DNA into oligonucleosomal fragments, and reduced nuclear interchalation of propidium iodide. In contrast, T cells (CD3+/56-) remained non-apoptotic. The monocyte-induced apoptosis in NK cells was prevented by catalase, a scavenger of hydrogen peroxide; whereas superoxide dismutase (a scavenger of superoxide anion), hydroxyl radical scavengers such as mannitol and deferoxamine, or the hypochlorus acid scavenger taurine did not prevent apoptosis. Sodium azide, a myeloperoxidase inhibitor, substantially reduced the monocyte-induced apoptosis in NK cells. Exogenous hydrogen peroxide, at concentrations exceeding 1 microns, induced apoptosis in both NK and T cells. Apoptosis induced by hydrogen peroxide occurred independently of synthesis of protein or mRNA and was blocked by the endonuclease inhibitor aurin tricarboxylic acid. Furthermore, oxidatively induced apoptosis in NK cells was inhibited by herbimycin A, indicating that apoptosis was dependent on protein kinases. Two to five times more hydrogen peroxide was required to induce apoptosis in T cells compared with NK cells. Similarly, NK cells were considerably more susceptible to apoptosis induced by the topoisomerase II inhibitor etoposide or by gamma-irradiation than were T cells. We conclude that monocyte-derived reactive oxygen metabolites kill NK cells by apoptosis and that NK cells are unusually sensitive to oxidatively as well as non-oxidatively induced apoptosis.

Hepatitis C superinfection in hepatitis C virus (HCV)-infected patients transplanted with an HCV-infected kidney.

Hepatitis C virus (HCV) genotypes, determined by polymerase chain reaction with type-specific primers, were studied in 5 already HCV-infected patients receiving kidneys from HCV-infected cadaver donors. Three patients were investigated retrospectively using stored pre- and posttransplantation sera and followed 18-28 months after transplantation. Two recipients with HCV genotype 2b infection had received kidneys from 1 genotype 3a-infected donor. In 1 recipient, HCV 2b was replaced by the donor's type; in the other recipient, a prolonged mixed infection of 3a and 2b occurred. Persistent alanine aminotransferase (ALT) elevation (3- to 5-fold) appeared in both patients. The third patient, also HCV 2b infected when transplanted with an HCV 3a-infected kidney, remained infected with HCV 2b only. Two patients, one with HCV genotype 1b and the other with genotype 3a, were followed prospectively with frequent bleeds (initially biweekly) and genotyping over 14 months after they had received kidneys from 1 HCV genotype 1a-infected donor. The HCV 1b-infected recipient remained infected with 1b only and had minimal biochemical signs of liver injury. In the other recipient, mixed infection of 3a and 1a appeared at week 3 and persisted for several weeks, until only genotype 1a could be detected. This patient had elevated ALT levels before transplantation. After onset of mixed infection, ALT levels increased further for several weeks, and returned to pretransplantation levels when only HCV 1a was found. HCV-infected kidneys transplanted into HCV-infected recipients gave 3 different virus patterns. Most patients benefitted in the short term, but some super-infected patients experienced increased liver damage.

HCV genotypes in Swedish blood donors as correlated to epidemiology, liver disease and hepatitis C virus antibody profile.

Sixty-two anti-HCV and HCV-RNA positive Swedish blood donors (44 men, 18 women; median age 34 years) were studied. HCV genotypes were correlated to parenteral risk factors, liver morphology, serum alanine aminotransferase (ALAT) levels and HCV antibody profile. Forty percent of the donors were infected with HCV genotype 1a, 10% with 1b, 21% with 2b, and 29% with 3a. Intravenous drug use (IVDU) was more common in donors with genotype 3a than in those with genotype 1a (p = 0.024), and prior blood transfusion more common in genotype 2b than in 3a (p = 0.012). Chronic active hepatitis with and without cirrhosis was found in 38% of donors infected with genotype 2b as compared to 8% of donors infected with 1a (p = 0.034). Forty percent of donors with genotype 1a had normal ALAT at the time of liver biopsy versus 11% with genotype 3a (p = 0.046). Antibodies to C33c and C22-3 were present in nearly all donors whereas reactivity to C100-3 and 5-1-1 was detected more often in donors with genotypes 1a and 1b as compared to donors with genotypes 2b and 3a. In conclusion, genotype 3a was correlated to IVDU or tattooing as parenteral risk factors for the acquisition of HCV infection, and genotype 2b to prior blood transfusion. Donors with genotypes 1a seemed to have less severe liver disease than those infected with genotypes 2b and 3a.

Herpes simplex virus-2 may increase susceptibility of the sexual transmission of hepatitis C.

OBJECTIVES: Antibodies against herpes simplex viruses-1 and -2, cytomegalovirus, and syphilis were determined in six heterosexual couples with strong indications of having sexually transmitted hepatitis C virus infection and in 17 other heterosexual couples in which one partner was hepatitis C virus viremic (source partner), but the other had remained hepatitis C virus uninfected (exposed partner). STUDY DESIGN: Antibody testing was done with an enzyme-linked immunosorbent assay. Anti-herpes simplex virus 2 and anti-hepatitis C virus findings were further confirmed by immunoblotting. Hepatitis C virus RNA was determined by polymerase chain reaction and genotyped with type-specific primers. RESULTS: Five of six anti-hepatitis C virus-positive exposed heterosexual partners without parenteral risk factors, compared with three of 17 anti-hepatitis C virus-negative exposed partners, had antibodies to herpes simplex virus-2. On the other hand, no statistically significant difference was found regarding the frequency of herpes simplex virus-2 seropositivity when source partners in the anti-hepatitis C virus concordant and discordant couples were compared. The presence of antibodies to herpes simplex virus-1, cytomegalovirus, and syphilis did not significantly differ between source or exposed partners in anti-hepatitis C virus concordant and discordant couples, respectively. No predominance of any one hepatitis C virus genotype or liver morphology in couples concordant compared with discordant for anti-hepatitis C virus was found. CONCLUSIONS: The findings support the role of herpes simplex virus-2 in the heterosexual transmission of hepatitis C virus infections, and more specifically an increase in susceptibility to hepatitis C virus infections in exposed heterosexual partners with antibodies to herpes simplex virus-2.

Role of histamine in natural killer cell-dependent protection against herpes simplex virus type 2 infection in mice.

Depletion of natural killer (NK) cells in vivo with anti-NK1.1 monoclonal antibody or anti-asialo-GM1 antiserum drastically reduced survival time in Swiss albino mice infected intravenously (i.v.) with herpes simplex virus type 2 (HSV-2). In contrast, depletion of NK cells did not affect the survival time of mice inoculated with HSV-2 by the intraperitoneal route. A single dose of histamine prolonged survival time in animals inoculated with HSV-2 i.v. but not in animals infected intraperitoneally. Treatment with the histamine H2 receptor antagonist ranitidine alone reduced survival time in i.v.-infected animals and blocked the protective effect of histamine. Histamine or ranitidine did not affect survival time in anti-NK1.1- or anti-asialo-GM1-treated animals. Our data suggest a role for histaminergic mechanisms in NK cell-mediated protection against HSV-2.