Pro-enkephalin opioid peptides are abundant in porcine and bovine splenic nerves,but absent from nerves of rat,mouse, hamster,and guinea-pig spleen

The opioidergic innervation of the mammalian spleen and possible species differences were investigated. Light-microscopic immunohistochemistry revealed that splenic nerves of bovine and porcine spleen, but not of rat, mouse, hamster and guinea-pig spleen contained proenkephalin-derived opioidergic innervation. Immunoreactivity to both prodynorphin and pro-opiomelanocortin was absent from splenic nerves. In bovine and porcine spleen, fibers immunoreactive for met-enkephalin, met-enkephalin-Arg-Phe, met-enkephalin-Arg-Gly-Leu, leu-enkephalin and peptide F formed perivascular plexus, traveled in trabecular connective tissue, and extended into the capsule. Spatial relationships with immune cells were apparent in the white and red pulp, excluding lymphoid follicles. Colocalization of enkephalin immunoreactivity with immunoreactivities for tyrosin hydroxylase, dopamin--hydroxylase, and neuropeptide Y, but not for substance P or calcitonin gene-related peptide were found. Our results provide evidence that opioid expression in splenic innervation is strongly species-dependent and exclusively proenkephalin-derived. Colocalization with marker enzymes of noradrenergic neurons indicates a mainly postganglionic sympathetic origin of proenkephalinergic splenic innervation. Opioidergic perivascular nerves probably control the splenic blood flow. A close interrelationship of opioidergic fibers with immune cells provides the anatomical basis for direct effects of neurally released opioids on splenic immune functions.     

Rat heart organ culture for the study of trophic substances involved in the maintenance of normal sensitivity to norepinephrine: possible involvement of cAMP and search for other factors

In organ culture conditions, in the absence of in vivo factors, the newborn rat right atria acquire a high sensitivity to agonists similar to that seen before sympathetic innervation and after denervation. In the present study, we examined the effects of various extracts and substances on the development of supersensitivity to norepinephrine (NE) to obtain information on the in vivo factors that regulate myocardial sensitivity. Addition of rat serum, right atrial extract, superior cervical ganglionic extract, vas deferens extract, carbachol, insulin, cortisone, thyroxin, and neuropeptide Y in the culture medium did not prevent the development of supersensitivity. Addition of NE completely inhibited the development of supersensitivity. This effect of NE was blocked by sotalol but not by phentolamine. Addition of calcitonin gene related peptide, forskolin, and 8-bromo-cAMP partially inhibited the development of supersensitivity. These results are consistent with the view that NE released from sympathetic nerve terminals in the newborn atria maintains myocardial sensitivity at normal level by acting on beta-adrenergic receptors, and that the effect may be partially mediated by a rise in intracellular cAMP concentration.     

Lipopolysaccharide-induced suppression of the primary immune response to a thymus-dependent antigen.

The immune response to a thymus-dependent antigen was depressed in vivo and in vitro in spleen cells from mice injected with LPS i.p. a few days before challenge with the antigen. Spleen cells from LPS-injected mice could, however, respond with increase DNA synthesis after activation with polyclonal B and T cell activators in vitro. The LPS-activated spleen cells could actively suppress normal cells in their response to the antigen sheep red blood cells. The suppressor cells contained in the LPS-activated spleens were most likely B lymphocytes, and the possible mechanism for their inhibitory function is discussed.     

Hematological, immunological and neurochemical effects of chronic amphetamine treatment in male rats

In the present study, we have analyzed the effect of chronic amphetamine sulfate (AMPH) treatment on haematological, immunological and neurochemical parameters in the male rat. AMPH increased the total peripheral leukocyte count, and altered its differential counts, decreasing lymphocytes and increasing neutrophils. Flow cytometry study showed that the decline in circulating lymphocytes was caused by the loss of a particular lymphocyte subset, B-cell, which reduced both in percentage and in absolute number by 50%. T-cell population increased by 15% but not in absolute number, however there was no difference in either CD4+ or CD8+ T lymphocyte subsets between experimental groups. Neurochemically, AMPH reduced norepinephrine (NE) and serotonin (5-HT) contents in the hypothalamus and increased dopamine (DA) content in the striatum. Chronic AMPH increased in a dose-dependent manner serum corticosterone levels, had no effect on circulating catecholamines, reduced adrenal weights, and did not affect spleen weights although reduced their cellularities. These results show that chronic AMPH have important effects on immune function, particularly on humoral immune response because it reduced the circulating B cell population by half. In addition, AMPH plays an important role in the redistribution and trafficking of leukocytes, and both effects seem to be mediated by sympathetic innervation of the lymphoid organs.     

Presynaptic 5-HT1A receptors in immunomodulation

It is shown that a selective agonist of 5-HT1A receptors 8-OH-DPAT in a low dose (0.1 mg/kg), which is known to affect mainly the presynaptic 5-HT1A receptors increased the immune response at the peak of reactions (the forth or fifth day after immunization with sheep red blood cells - SRBC) in CBA mice and Wistar rats. Treatment of the animals with the drug 15 min prior to antigen injection raised the number of plaque-forming cells (lgM-PFC) and rosette-forming cells (RFC) in the spleen. The preliminary blockade of 5-HT1A receptor with a selective antagonist of 5-HT1A receptors WAY-100635 (0.1 mg/kg) prevented the immunostimulating effect of 5-HT 1A receptors agonist 8-OH-DPAT, whereas WAY-100635 administration alone in the same dose didn't change the immune response. Activation of 5-HT1A receptors under conditions of electrical lesion of 5-HTergic neurons of the nucleus raphe was unable to enhance the immune reactions, as it did in sham-operated rats. The data obtained indicate that the somatodendric 5-HT1A autoreceptors are involved in immunomodulation.     

Inhibition of the immune response by membrane-bound antibody.

Cells from the spleens of "normal" swine, which were pretreated with pronase to remove surface membrane-bound immunoglobulin, gave an enhanced hemolytic plaque-forming cell response to sheep red blood cells in vitro in comparison with untreated controls. The enhancement could be abrogated by preincubating pronase-treated spleeen cells in preparations containing antibody to sheep red blood cells. This effect was demonstrated by autologous sera, immune sera, and all three known classes of porcine serum immunoglobulins, including IgM, IgA, and IgG and could be removed by absorption with sheep red blood cells. Surface membrane-bound antibody exerted its effect by binding to the nonadherent cell population. The response of normal spleen cells was unaffected by antibody treatment. Pronase-treatment was not mitogenic, did not function as a polyclonal B cell activator, and did not selectively eliminate T or B cells. The results indicate that removal of antibody from the surface of lymphoid cells enhanced the humoral immune response invitro and confirm that membrane-bound antibody can inhibit response to antigen.     

Tolerance-like condition developing in mice under the effect of antigen of erythrocyte lysate]

Lysate of sheep red blood cells obtained by the treatment of these cells with distilled water and purified by ultracentrifugation in cold possessed a weak immunogenicity. Its administration to mice caused the state of hyporeactivity to sheep red blood cells (a reduction of the immune response level to 10-25% of control. The capacity of the mise spleen cells to respond by immune reaction to the red blood cells following adoptive transfer was not disturbed. At the early periods after the lysate administrations the mouse spleen cells possessed a weak supressive activity in case of their transfer to the intact animals. The blood serum of mice treated with the lysate possessed a blocking activity which disappeared after the serum absorption with sheep red blood cells. A conclusion was drawn that hyporeactivity originating in mice after the lysate administration was caused by the presence in the serum of antibodies inhibiting the immune response.     

精氨酸加压素对大鼠抗体产生和淋巴细胞增殖的上调作用

大鼠侧脑室注射１００ｎｇ精氨酸加压素（ＡＶＰ）,用ＥＬＩＳＡ法检测血中对鸡卵白 白抗原产生的ＩｇＧ抗体水平。结果显示,ＩｇＧ水平高于对照,而ＡＶＰ的Ｖ１受体阻断剂ＤＰＡＶＰ则可阻断此作用;ｉｃｖ８００ｎｇＡＶＰ,大鼠的ＳＲＢＣ溶血素 水平高于对照;ｉｃｖ１００ｎｇ、８００ｎｇＡＶＰ２ｈ后,脾淋巴细胞对ＭＴＴ产生的颜色反应均比对照增加,而ＤＰＡＶＰ可阻断之;ｉｃｖ８００ＡＶＰ２ｈ后,脾淋巴细胞对ＭＴ     

Enhanced antibody response in retrovirus-infected mice treated with endotoxin or nontoxic polysaccharide derivative

Friend leukemia virus (FLV) is a retrovirus which causes marked suppression of the immune response of genetically susceptible mice. In the present study the depressed antibody response to sheep erythrocytes by spleen cells from FLV-infected mice was partially reversed by injection of either a bacterial endotoxin or a nontoxic polysaccharide derivative directly into infected mice or by addition to spleen cell cultures from these mice immunized in vitro with sheep red blood cells (SRBC). The endotoxin and PS in a dose-related manner markedly increased the antibody responsiveness of the spleen cells to SRBC. Thus these results indicate that the nontoxic polysaccharide derivative has properties equivalent to the toxic endotoxin in enhancing the antibody responsiveness of FLV-suppressed spleen cells to a T-cell-dependent antigen like SRBC.     

Neural influences and norepinephrine sensitivity in the rat portal vein

Experimental evidence suggests that innervation can exert a long-term control and modulation on effector cell homeostasis. These trophic influences are known to occur between the motor innervation and skeletal muscles, tissues in which these phenomena have been well studied. A similar picture is also emerging to indicate that smooth muscles may be subjected to a neurotrophic influence. The present paper reviews and presents data obtained after chemical sympathectomy of rat portal vein with 6-hydroxydopamine. Basically three experimental protocols were utilized: 1) studies before and after complete in vitro denervation, using the vessel as its own control; 2) in vivo sympathectomy followed by in vitro studies at various times thereafter; and 3) experiments in which the veins were denervated in vitro, placed in organ culture, and treated with either norepinephrine (NE) or the vehicle. The results indicate that in rat portal vein the sympathetic innervation normally exerts a trophic influence mediated, at least in part, by NE. This evidence is discussed in relation to other smooth muscles insofar as supersensitivity mechanisms and other possible effects triggered by transmitter withdrawal. The discussion is extended to encompass ways by which NE could exert its effects, and the possibility of other trophic factors.     

Photoperiod modulates the effects of norepinephrine on lymphocyte proliferation in Siberian hamsters

Siberian hamsters (Phodopus sungorus) rely on photoperiod to coordinate seasonally appropriate changes in physiology, including immune function. Immunity is regulated, in part, by the sympathetic nervous system (SNS), although the precise role of the SNS in regulating photoperiodic changes in immunity remains unspecified. The goal of the present study was to examine the contributions of norepinephrine (NE), the predominant neurotransmitter of the SNS, to photoperiodic changes in lymphocyte proliferation. In experiment 1, animals were maintained in long [16:8-h light-dark cycle (16:8 LD)] or short days (8:16 LD) for 10 wk, and splenic NE content was determined. In experiment 2, in vitro splenocyte proliferation in response to mitogenic stimulation (concanavalin A) was assessed in spleen cell suspensions taken from long- or short-day hamsters in which varying concentrations of NE were added to the cultures. In experiment 3, splenocyte proliferation was examined in the presence of NE and selective alpha- and beta-noradrenergic receptor antagonists (phenoxybenzamine and propranolol, respectively) in vitro. Short-day animals had increased splenic NE content compared with long-day animals. Long-day animals had higher proliferation compared with short-day animals independent of NE. NE (1 microM) further suppressed splenocyte proliferation in short but not long days. Last, NE-induced suppression of proliferation in short-day hamsters was blocked by propranolol but not phenoxybenzamine. The present results suggest that NE plays a role in photoperiodic changes in lymphocyte proliferation. Additionally, the data suggest that the effects of NE on proliferation are specific to activation of beta-adrenergic receptors located on splenic tissue. Collectively, these results provide further support that photoperiodic changes in immunity are influenced by changes in SNS activity.     

Beta-adrenoceptor blockade alters thymocyte differentiation in aged mice.

The thymus is the primary site for generation of naive T-lymphocytes in the young animal. With age, the thymus progressively involutes and fewer mature T-cells are produced and migrate to the periphery. With thymic involution, increased density of sympathetic noradrenergic (NA) innervation and concentration of norepinephrine (NE) have been observed. To determine if the age-related changes in thymocyte differentiation are modified by NE signaling through beta-adrenergic receptors, 2-month (mo) and 18-mo old BALB/c mice were implanted subcutaneously with pellets containing the non-selective beta-adrenoceptor antagonist nadolol. Four and one-half weeks later, thymus and peripheral blood were collected to assess changes in thymocyte differentiation and naive T-cell output by flow cytometric analysis of T-cell subpopulations. In old mice, but not in young mice, thymocyte CD4/CD8 co-expression was altered by beta-adrenoceptor blockade. In nadolol-treated old mice, the frequency of the immature CD4-8- population was increased, and the intermediate CD4+8+ population was reduced. A corresponding increase in the frequency of mature CD4-8+, but not CD4+8- cells was observed. The increase in CD4-8+ cells is most likely not mediated by more CD4-8+ cells undergoing positive selection, because CD3hi expression in the CD4+8+ population was not altered by nadolol. The percentage of CD8+44low naive cells in peripheral blood increased in nadolol-treated mice, suggesting that more CD4-8+ cells were exported from the thymus to the periphery. These results indicate that the age-associated increase in sympathetic NA innervation of the thymus modulates thymocyte maturation. Pharmacological manipulation of NA innervation may provide a novel means of increasing naive T-cell output and improving T-cell reactivity to novel antigens with age.     

Norepinephrine transporter expression in cholinergic sympathetic neurons: differential regulation of membrane and vesicular transporters

Sympathetic neurons that undergo a noradrenergic to cholinergic change in phenotype provide a useful model system to examine the developmental regulation of proteins required to synthesize, store, or remove a particular neurotransmitter. This type of change occurs in the sympathetic sweat gland innervation during development and can be induced in cultured sympathetic neurons by extracts of sweat gland-containing footpads or by leukemia inhibitory factor. Sympathetic neurons initially produce norepinephrine (NE) and contain the vesicular monoamine transporter 2 (VMAT2), which packages NE into vesicles, and the norepinephrine transporter (NET), which removes NE from the synaptic cleft to terminate signaling. We have used a variety of biochemical and molecular techniques to test whether VMAT2 and NET levels decrease in sympathetic neurons which stop producing NE and make acetylcholine. In cultured sympathetic neurons, NET protein and mRNA decreased during the switch to a cholinergic phenotype but VMAT2 mRNA and protein did not decline. NET immunoreactivity disappeared from the developing sweat gland innervation in vivo as it acquired cholinergic properties. Surprisingly, NET simultaneously appeared in sweat gland myoepithelial cells. The presence of NET in myoepithelial cells did not require sympathetic innervation. VMAT2 levels did not decrease as the sweat gland innervation became cholinergic, indicating that NE synthesis and vesicular packaging are not coupled in this system. Thus, production of NE and the transporters required for noradrenergic transmission are not coordinately regulated during cholinergic development.     

Mechanisms of action of synthetic polyelectrolytes and polyampholytes on the immune response]

We investigated the effect of polyacrilic acid (PAA) on the immune response in mice of various strains on sheep red blood cells and also the influence of poly-2-methyl-5-vinyl-pyridine (PMVY), PAA and their statistical copolymers on antibody-forming cells (AFC) production in cultures of T- and B-lymphocytes in vivo. PAA was seen to increase accumulation of AFC in the spleen of mice depending on their genotypes. PMVP and PAA were found to intensify the cooperating interaction of T- and B-lymphocytes, whereas their copolymers exert quite an opposite effect. The injection of copolymers to the recipients of cooperating T- and B-lymphocytes practically results in the complete elimination of the cooperation effect between T- and B-lymphocytes in the immune response to sheep erythrocytes without cytostatic action of cell proliferation.     

Vasoactive amines modulate actin cables (stress fibers) and surface area in cultured bovine endothelium

Cultured bovine aortic endothelial cells were fixed and stained with NBD-phallicidin and quantitated with a digital image analyzer for changes in actin cables and surface area. Serotonin (5-HT), norepinephrine (NE), dopamine and histamine (all at 10(-4)M concentrations) were tested for their ability to induce cytoskeletal changes. Only 5-HT and NE increased actin cables significantly (p less than 0.01), 80.7% and 97.9%, respectively. Dopamine and histamine treated cells showed a 67.4% and 80.8% decrease in actin cables respectively (p less than 0.01). Stimulated increases of actin cables by 5-HT were inhibited by Ketanserin, and propranolol inhibited NE stimulation of actin cables. Treatment of cells with these blockers alone also decreased actin cables below control values (p less than 0.01). Pretreatment of cells with diphenhydramine, but not cimetidine, inhibited histamine-induced decreases in actin cables. Stimulation of surface area by 5-HT and NE was also observed, with 40.8% and 80.7% increases respectively, when compared with controls (p less than 0.01). The increases in actin cables were associated with a lack of ruffled edges that are indicative of motile cells. In contrast, induced decreases in actin cables resulted in cells with ruffled edges. Exogenous 5-HT and NE have been shown to prevent the increased permeability visible as extravasation of red blood cells from postcapillary venules in thrombocytopenic animals. The present data suggest that 5-HT and NE may be involved in maintaining the endothelial barrier function by a receptor-mediated stimulation of actin cables. Also, histamine-induced decreases in actin cables may be correlated with the amine's action in vivo as a mediator of increased inflammatory permeability.     

On the behaviour of murine lymphocytes after in vitro treatment with acid mucoproteins from human serum.

Seromucoproteins from human serum were isolated by perchloric acid extraction followed by DEAE-Sephadex A-50 ion exchange chromatography. The in vitro pretreatment of spleen leukocytes with this fraction caused a dose-dependent inhibition of graft-versus-host reaction as well as an increase of their electrophoretic mobility, the viability being maintained. On contrary, the pretreatment of mice (prospective spleen cell donors of recipients of sheep red blood cells) with human seromucoproteins had no effect on the gvh-reaction as well as on the agglutinin formation to sheep red blood cells under the given conditions. It is supposed that the suppressive effect after in vitro pretreatment may be attributed to a coating effect of seromucoproteins. The fact that spleen cells pretreated in vitro with seromucoproteins are lysed in presence of complement and antiseromucoprotein antiserum supports our opinion. These findings as well as data from the literature support the hypothesis that local concentrated mucoproteins in the skin graft bed in cases of protractedly surviving skin grafts, in the placenta, and on neoplastic tissues can influence unspecifically the immune response. We hope that the understanding of this mechanism may open new possibilities in prolonging allograft survival time.     

The loss of sympathetic nerve fibers in the synovial tissue of patients with rheumatoid arthritis is accompanied by increased norepinephrine release from synovial macrophages.

Our objective was to investigate sympathetic and sensory nerve fibers in synovial tissue in rheumatoid arthritis (RA) and osteoarthritis (OA) in relation to histological inflammation and synovial cytokine and norepinephrine (NE) secretion. Immunohistochemistry was used to detect nerve fibers and inflammatory parameters. A superfusion technique of synovial tissue pieces was used to investigate cytokine and NE secretion. In RA, we detected 0.2 +/- 0.04 tyrosine hydroxylase-positive (TH-positive=sympathetic) nerve fibers/mm2 as compared to 4.4 +/- 0. 8 nerve fibers/mm2 in OA (P<0.001). In RA, there was a negative correlation between the number of TH-positive nerve fibers and inflammation index (RRank=-0.705, P=0.002) and synovial IL-6 secretion (RRank=-0.630, P=0.009), which was not found in OA. Substance P-positive (=sensory) nerve fibers were increased in RA as compared to OA (3.5+/-0.2 vs. 2.3+/-0.3/mm2, P=0.009). Despite lower numbers of sympathetic nerve fibers in RA than in OA, NE release was similar at baseline (RA vs. OA: 152+/-36 vs. 106+/-21 pg/ml, n.s.). Basal synovial NE secretions correlate with the number of TH-positive CD 163+ synovial macrophages (RA: RRank=0.622, P=0.031; OA: RRank=0.299, n.s.), and synovial macrophages have been shown to produce NE in vitro. Whereas sympathetic innervation is reduced, sensory innervation is increased in the synovium from patients with longstanding RA when compared to the synovium from OA patients. The differential patterns of innervation are dependent on the severity of the inflammation. However, NE secretion from the synovial tissue is maintained by synovial macrophages. This demonstrates a loss of the influence of the sympathetic nervous system on the inflammation, accompanied by an up-regulation of the sensory inputs into the joint, which may contribute to the maintenance of the disease.     

Role of the sympathetic innervation on uterine electromyographic activity in nonpregnant ovariectomized sheep under estrogen supplementation.

The aims of the present study were to characterize the sympathetic innervation of the nonpregnant sheep uterus, to determine the catecholamine content in myometrium (MYO) and endometrium, and to study the effects of chemical sympathectomy (CHSPX) on uterine catecholamine content and on uterine electromyographic (EMG) activity recorded from the MYO and mesometrium (MESO) in the nonpregnant ovariectomized sheep. After synchronization of estrus, 9 nonpregnant sheep were anesthetized with halothane, ovariectomized, and fitted with vascular catheters and EMG electrodes. Estradiol-17 beta was administered intravascularly at a rate of 50 micrograms/24 h for 10 days. CHSPX was induced with 6-hydroxy dopamine (20 mg/kg). Uterine tissues were obtained for determination of catecholamine content by HPLC and for immunocytochemical staining using an antibody against tyrosine hydroxylase (TH). In nonpregnant ovariectomized sheep, TH immunostaining was present in nerve fibers located in endometrium and MYO. In all layers of the uterus, catecholamine fibers were found in the proximity of blood vessels as well as in defined regions of the parenchyma. Throughout the uterus, norepinephrine content and TH immunostaining were dramatically decreased after CHSPX. CHSPX decreased uterine short EMG event activity in both MYO and MESO. Contracture-type activity was not affected in MYO and was increased in MESO. We conclude that sympathetic innervation modulates the MYO and MESO EMG activity in nonpregnant ovariectomized sheep under estradiol supplementation, and that the removal of the sympathetic innervation induces a decrease in the spontaneous activity.     

Effect of radiation-induced bystander chemosignals of mice on the humoral immune response in spleen and lymph nodes of intact recipients

The ability of post-radiation (4 Gy) bystander chemosignals (the volatile components of mouse urine) to distantly modulate the humoral immune response to the sheep red blood cells in the spleen and popliteal lymph nodes of intact recipients has been investigated. It was shown that the exposure of animals to chemosignals before antigen injection resulted in the decrease and increase of the immune response in the spleen and lymph nodes, respectively. When animals were exposed to chemosignals after the antigenic stimulus, an increased immune response was observed in both spleen and lymph nodes. The contribution of radiation-induced bystander signaling in the response of socially organized animals to the effect of ionizing irradiation is discussed.     

A reverse effect of in vitro and in vivo concanavalin A-induced spleen cells on anti-sheep red blood cells response detected with a new method based on flow cytometry

A simple flow cytometric method for detecting humoral immunity against sheep red blood cells (SRBC) is described. The SRBC were incubated with the serum from SRBC-immunized mice, monoclonal anti-SRBC, or the supernatant which was obtained from the in vitro primary culture of spleen cells with SRBC. The antibodies which bound to SRBC were estimated by means of an immunofluorescence and a flow cytometry. When the channel number of the peak in the histogram of flow cytometry was measured as an index of fluorescence intensity of SRBC, the number significantly correlated with the concentration of IgM and IgG classes of anti-SRBC. The flow cytometry method and hemagglutination (HA) test, as a classic method, were compared in SRBC-immune sera and monoclonal anti-SRBC antibody. The sensitivity determined with flow cytometry was much higher than that with HA. The minimum detectable concentration of anti-SRBC antibody was found to be 3.4 ng/ml by the flow cytometry. The dose response of SRBC in in vitro primary culture was detected by the flow cytometry, not by HA, and the response increased with the dose of SRBC. Using this method, the effect of in vitro and in vivo concanavalin A (Con A)-induced spleen cells on humoral response against SRBC was examined in an in vitro culture system. Anti-SRBC response (IgM and IgG) was found to be suppressed by in vitro Con A-induced lymphocytes, but enhanced by in vivo Con A-induced lymphocytes. Thus, this new approach is found to be a good method for detecting the in vitro primary humoral antibody response, which is known to have a low reactivity.