The Role of Biogenic Amines in the Regulation of Interaction between the Immune and Nervous Systems in Multiple Sclerosis

OBJECTIVE

Multiple sclerosis (MS) is a demyelinating, presumably autoimmune disease of the central nervous system. Biogenic amines may participate in MS pathogenesis modulating immune cell activity and cytokine production.

METHODS

Forty-three patients with relapsing-remitting MS were examined. Serotonin (SE), norepinephrine (NE) and epinephrine (EPI) concentrations in sera were measured by ELISA. The functional activity of Th17 and Th1 cells was assessed by the ability of peripheral blood mononuclear cells (PBMCs) to produce interferon-gamma (IFN-γ) and interleukin-17 (IL-17) and cell proliferation upon stimulation with microbeads coated with anti-CD3 and anti-CD28 antibodies. To evaluate the effect of biogenic amines on Th17 and Th1 cells, PBMCs were cultured in the presence of SE and NE. Statistical analysis was performed using Prism 6 software.

RESULTS

Concentrations of SE and EPI in sera were not different between the groups. Concentrations of NE in sera from MS patients were lower than those in the healthy control group. The production of IL-17 and IFN-γ in MS patients in relapse was higher than that in patients in remission or in the control group. SE at a concentration of 10-4M suppressed IL-17 production. NE at a concentration of 10-4M suppressed both IL-17 and IFN-γ production.

CONCLUSIONS

These data suggest an anti-inflammatory role for biogenic amines in MS.

Exploring the role of biogenic amines in schistosome host-parasite interactions

Biogenic amines (BAs) are important neurotransmitters of the schistosome nervous system, but their role in the host-parasite interaction is poorly understood. Recent findings suggest that BAs may play an important role in the interaction with the snail intermediate host. This new evidence adds an important piece of information to our understanding of this complex system.

[Natural killers and biogenic amines: the paracrine regulation in the immune system]

Natural killers are referred to the category of cells well known for their assistance in cyto-differentiation control. Mechanisms of such assistance include cytolytic and secretory effects on the target. In this aspect, the NK capacity to assist in local aminoregulatory processes by adrenalin, serotonin, histamine release contained in these cells granules is considered to be the least studied and the most problematic issue. The solution of this problem demands taking into consideration a number of conditions: the NK ability to receipt biogenic amines and peculiarities of receptor structure; principal differences in mechanism of action of biogenic amines which enter the cell through exogenous pathway or which are synthesized endogenously; correlation between biogenic amines presence in the granules and functional NK state. Hypothesis of generation connected with the problem suggests the NK assistance in cytolysis in concomitant mechanisms of paracrine regulation of cellular microenvironmental proliferative response, induction of local inflammatory and immunomodulating processes.

[Immunoglobulins, binding opioid peptides, biogenic amines, and opiates, in substance abusers]

Immunoglobulins binding morphine, biogenic amines, and an opioid peptide dermorphine were measured by solid-phase enzyme immunoassay in patients abusing narcotics. The patients' ages varied from 20 to 40, with the duration of narcotic use 1-17 years. Narcotic dependence was found to involve increased production of immunoglobulins binding opioid and monoamine neuromediators. Enzyme immunoassay of antibodies to opiates detects latent forms of narcomania in cases when the narcotic is not present in the body. These results serve the basis for creating a new method for analysis of narcotic abuse and evaluation of the duration of their use, which can be used in practical medicine and in forensic medical expert evaluations.

Development of monoclonal antibodies to gizzerosine, a toxic component present in fish meal

This study is the first report of the development of monoclonal antibodies (MAbs) against gizzerosine (GZ), one of the causative agents of black vomit, a serious poultry disease. Balb/c mice were immunized with different GZ conjugates; the most immunogenic conjugate in experimental animals was determined by enzyme-linked immunoadsorbent assays (ELISA). Somatic fusions were carried out using splenic lymphocytes from GZ-immune mice and the NSO/2 myeloid cell line. Primary selection of hybridomas secreting antibodies to GZ was done using a direct ELISA, with GZ bound to bovine serum albumin (BSA), GZ directly bound to maleinimide preactivated plates and histamine bound to BSA, a GZ related biogenic amine present in fish meal. Four MAbs--3H4, 3H10, and 5B1 of the IgG1 isotype, and 8G7 of the Ig2a isotype-were specific to GZ and did not cross-react with histamine. Only monoclonals 3H4 and 8G7 bound GZ in solution by means of a competitive ELISA. Finally, to determine the performance of the competitive ELISA developed with the MAbs, experiments were conducted with GZ in solution (0 to 10 microg/ml) and with GZ labeled with horseradish peroxidase (HRP) as the tracer; the antibody complex was captured by using rabbit anti-mouse IgG preactivated ELISA plates. These experiments showed that monoclonal anti-GZ-3H4 generates a more sensitive assay close to linearity in the range about of 0.1 to 10 microg/ml of GZ. No cross-reaction was observed with histamine, histidine, or lysine at all concentrations tested.

Biochemical resistance to development of morphine-dependence in rats: biogenic amines, its receptors and antibodies

The level of norepinephrine (NE), epinephrine (E) and dopamine (DA) in hypothalamus and blood plasma along with antibodies to NE, DA and serotonin (5-HT) and characteristics of alpha 1-, alpha 2-adrenergic, D2-dopaminergic and S2-serotoninergic receptors in synaptic brain membranes were studied in two groups of rats predisposed or resistant to the formation of physical morphine dependence. The resistant animals were characterized by a significant elevation of DA levels in blood plasma, elevation of antibodies to NE, and by higher concentration of alpha 2-adrenergic receptors in the brain cortex and of D2-receptors in striatum. The affinity of D2-receptors to dopamine in resistant rats also was higher than in predisposed animals. The other parameters studied did not differ significantly between the two groups. These findings suggest that the increased activity of DA and NE neurotransmitter systems can be a cause for the genetic resistance of some individuals among Wistar rats to the formation of physical dependence on morphine.

The innervation of intraocular spinal cord transplants by cografts of locus ceruleus and substantia nigra neurons

The nucleus locus ceruleus and the substantia nigra were sequentially cografted with spinal cord in the anterior chamber of the eye of adult rats. The double grafts were allowed to mature in oculo. After a survival time of 2 months, half of the number of rats were sacrificed, the grafts were dissected out and prepared for tyrosine hydroxylase immunohistochemistry and Falck-Hillarp monoamine histochemistry. The remaining animals were sacrificed after 12-14 months and processed according to the same protocol. No ingrowth from the sympathetic ground plexus in the host iris was seen in single spinal cord grafts at any of the survival times. At the shorter survival time there were no or very few catecholaminergic nerve fibers from the locus ceruleus or substantia nigra that were innervating the spinal cord cograft. In double grafts that were allowed to remain in oculo for 12-14 months, the entire spinal cord graft was innervated with varicose, catecholamine-containing nerve fibers. The locus grafts were able to innervate the spinal cord cografts much more densely than the substantia nigra grafts. In conclusion, the results demonstrate that isolated intraocular spinal cord grafts can be innervated by adjacent central catecholamine neurons. However, this is done in a delayed manner as compared to other models. The isolated replicas of descending adrenergic pathways to the spinal cord thus formed should provide useful information about the function of descending spinal catecholamine pathways.

Monoamines as immunomodulators: importance of suppressors and helpers of the bone marrow

The intraimmune pathways and mechanisms of action of the serotoninergic and dopaminergic systems in exerting a modulating effect upon immunogenesis are presented. Experiments were carried out in mice immunized with sheep red blood cells (1 X 10(7); 5 X 10(6)). Participation of the hypothalamic-pituitary complex in the monoaminergic mechanisms of stimulation and inhibition of rosette formation was revealed. Dissection of the pituitary stalk prevented stimulation of rosette formation by apomorphine (1 mg/kg i.p) and bupropion (20 mg/kg) and the reduction of the immune response by haloperidol (1 mg/kg), 5-hydroxytryptophan (300 mg/kg) and serotonin (50 mg/kg). The results of syngeneic cellular transfer of different immunocompetent organs showed that serotonin injection induced an increase in B-suppressor activity of bone marrow cells, reaching maximal value in the inductive period (day 3 of the immune response). B-Lymphocyte suppression in donors not treated with serotonin peaked on day 5 of the immune response. Stimulation of the immune response under activation of the dopaminergic system after apomorphine administration was provided by an increase in T-helper activity in the bone marrow cells, mainly with respect to IgM-response. The suppressive activity of bone marrow T cells on IgM- and IgG-immune responses was increased in nonimmunized donors treated with serotonin or haloperidol. The mechanisms of neurochemical multichannel immunomodulation by means of redistribution of cellular populations resulting in an increase in suppressors or helpers in bone marrow are discussed.