G. Miller Jonakait

Neurotrophins and the anti-inflammatory agents interleukin-4 (IL-4), IL-10, IL-11 and transforming growth factor-β1 (TGF-β1) down-regulate T cell costimulatory molecules B7 and CD40 on cultured rat microglia

Microglia are essential for T cell activation in the CNS. Since T cell activation requires costimulation by B7 and/or CD40, we examined the regulation by cytokines of B7-1, B7-2 and CD40 mRNA expression in cultured rat microglia in serum-free medium. All three ligands are expressed constitutively, but are profoundly up-regulated by granulocyte-macrophage colony-stimulating factor (GM-CSF). By contrast, interferon-gamma raises only B7-2 and CD40 mRNA, and the B7-2 increase is inhibited by IL-10. IL-4, transforming growth factor-beta1, and nerve growth factor (NGF) repress GM-CSF-induced B7-2 and CD40, but not B7-1. NGF also down-regulates its own high-affinity trkA receptor. IL-11, unrecognized for its effect on antigen presentation, represses GM-CSF-induced B7-2.

Vasoactive intestinal peptide and pituitary adenylate cyclase‐activating polypeptide inhibit chemokine production in activated microglia

Microglia react to even minor disturbances in CNS homeostasis and function as critical regulators of CNS inflammation. Activated microglia secrete inflammatory mediators such as cytokines and chemokines, which contribute to the pathophysiological changes associated with several neuroimmunologic disorders. Microglia‐derived inflammatory chemokines recruit various populations of immune cells, which initiate and maintain the inflammatory response against foreign antigens. Entry and retention of activated immune cells in the CNS is a common denominator in a variety of traumatic, ischemic, and degenerative diseases. Vasoactive intestinal peptide (VIP) and pituitary adenylate cyclase‐activating polypeptide (PACAP) are two structurally related neuropeptides that function as potent anti‐inflammatory factors in the periphery. Here we investigated the effects of VIP and PACAP on chemokine production by activated microglia. VIP and PACAP inhibit the expression of the microglia‐derived CXC chemokines MIP‐2 and KC, and of the CC chemokines MIP‐1α, ‐1β, MCP‐1, and RANTES. The inhibition of chemokine gene expression correlates with an inhibitory effect of VIP/PACAP on NFkB binding. The VIP/PACAP inhibition of both chemokine production and of NFkB binding is mediated through the specific receptor VPAC1 and involves a cAMP‐dependent intracellular pathway. Of biological significance is the fact that the inhibition of chemokine production by VIP/PACAP leads to a significant reduction in the chemotactic activity generated by activated microglia for peripheral leukocytes, i.e., neutrophils, macrophages, and lymphocytes. Because reduction in the number and activation of infiltrating leukocytes represents an important factor in the control of inflammation in the CNS, VIP and/or PACAP released by neurons during an inflammatory response could serve as neuronal survival factors by limiting the inflammatory process. GLIA 39:148–161, 2002.

An mRNA homologous to interleukin-1 receptor type I is expressed in cultured rat sympathetic ganglia

Interleukin-1 (IL-1) induces substance P (SP) gene expression in cultured rat superior cervical ganglion (SCG) explants. In order to study the molecular mechanism of this action of IL-1, the presence of an interleukin-1 receptor (IL-1R) activity and the identity of an mRNA homologous to known IL-1R sequence was determined in SCG. The SP increase is blocked by recombinant IL-1 receptor antagonist protein, so IL-1 must be interacting with a specific receptor. We have cloned cDNA homologous to IL-1R type I from rat SCG using a reverse transcription-polymerase chain reaction (RT-PCR). The resulting cDNA sequence is strongly homologous with mouse and human IL-1R cDNA of the T cell and fibroblast type (type I; encoding an 80-kDa protein). mRNA specific for IL-1R can be readily detected in intact SCG by quantitative RT-PCR and S1 hybridization. However, the level of IL-1R mRNA increases 3-6-fold by 2 days in culture. This increase is independent of the presence of dexamethasone, IL-1 beta or IL-1 receptor antagonist protein ligands. The increase of IL-1R following explantation, a model of nerve injury, may provide a mechanism linking inflammatory signalling to neuronal phenotypic changes.

Serotonin regulation of tachykinin biosynthesis in the rat neostriatum

Serotonin (5-HT) neurotransmission was altered to determine its role in regulating the biosynthesis of tachykinins in the neostriatum (NS). Depletion of 5-HT with subchronic p-chlorophenylalanine (pCPA) treatment decreased preprotachykinin (PPT, the prohormone precursor to SP) mRNA levels in the NS. By contrast, raising extracellular 5-HT levels with zimelidine (a 5-HT uptake inhibitor) or clorgyline (a monoamine oxidase inhibitor) resulted in increased levels of PPT mRNA. To determine whether 5-HT receptors played a role in mediating the changes in PPT mRNA, animals were treated with the 5-HT2 agonist DOI. This drug significantly increased both PPT mRNA and SP-like immunoreactivity in the NS. These results together indicate that neostriatal tachykinin biosynthesis is sensitive to alterations in 5-HT neurotransmission.

Neural—immune interactions in sympathetic ganglia

Effects of immune cytokines on neuronal gene expression have recently been examined in cultured superior cervical (sympathetic) ganglia, a widely used model system for the study of neurotransmitter plasticity. Following deafferentation and explantation into culture, interleukin-1 causes an up-regulation of the neuropeptide substance P as well as of choline acetyltransferase. Tumor necrosis factor-alpha has a similar, though less potent, action. Since interleukin-1 was ineffective in raising the concentration of substance P in pure neuronal cultures, the existence of a non-neuronally derived intermediate was postulated and found to exist in interleukin-1-conditioned medium. Antibody neutralization of either nerve growth factor or ciliary neurotrophic factor failed to affect the ability of interleukin-1 to induce substance P. Inhibition of prostaglandin biosynthesis was equally ineffective. However, immunoprecipitation of leukemia inhibitory factor from interleukin-1-conditioned medium eliminated substance-P-inducing activity, suggesting leukemia inhibitory factor as a possible interleukin-1-induced intermediate. The ability of interleukin-1 to induce leukemia inhibitory factor mRNA strengthens this conclusion. Glucocorticoid hormones block the interleukin-1 induction of leukemia inhibitory factor, which explains why they block the interleukin-1 induction of substance P.

Inhibition of microglial CD40 expression by pituitary adenylate cyclase-activating polypeptide is mediated by interleukin-10

Microglia are intrinsic mediators of the central nervous system (CNS) immune response induced by a variety of insults. Activated microglia express costimulatory molecules CD40 and B7 that are important equally for T-cell activation and further activation of microglia. In this study, we sought to investigate the regulation of costimulatory molecule expression on primary microglia and microglial cell line, BV-2, by pituitary adenylyl cyclase-activating polypeptide (PACAP) and vasoactive intestinal peptide (VIP), potent anti-inflammatory neuropeptides. The neuropeptides inhibited CD40 and B7-2 mRNA expression in activated microglia. PACAP decreased surface expression of CD40 and B7-2 on activated microglia. The inclusion of an anti-IL-10 antibody completely abrogated PACAP inhibition of lipopolysaccharide (LPS)-induced CD40 expression, suggesting that PACAP inhibition is at least in part mediated by IL-10. Indeed, PACAP enhanced LPS-induced IL-10 mRNA and protein levels in microglia. These data indicate that PACAP, through an increase in IL-10 protein, can down-regulate important costimulatory molecule expression on microglia, thereby possibly affecting CNS immunity.

Macrophage cell-conditioned medium promotes cholinergic differentiation of undifferentiated progenitors and synergizes with nerve growth factor action in the developing basal forebrain.

Conditioned medium from stimulated microglia and from the monocyte/macrophage cell line (RAW 264.7; MC-CM) promotes the differentiation of cholinergic neurons from undifferentiated progenitors in the septal nuclei and adjacent basal forebrain (BF). We have studied the regulation of this process by measuring the activity of choline acetyltransferase (ChAT) in cultured BF taken from embryonic day 16 rat brain. Inhibition of either xanthine oxidase with allopurinol or nitric oxide synthase with N(G)-monomethyl-l-arginine produces a small but significant improvement in the efficacy of MC-CM while inclusion of pyrrolidine dithiocarbamate, a hydroxyl radical scavenger widely used as an antioxidant, lowers MC-CM-induced ChAT activity. Addition of nerve growth factor (NGF) but not brain-derived neurotrophic factor or glial-derived neurotrophic factor together with MC-CM has a synergistic effect on both ChAT activity and ChAT mRNA, raising ChAT activity as much as 29-fold and ChAT mRNA almost 15-fold. While MC-CM raised mRNA for trkA, the effect was not synergistic with NGF. mRNA for the common neurotrophin receptor (p75NTR) showed a modest synergistic increase. Blockade of the Ras/Raf/ERK [extracellular signal-regulated kinase, also known as mitogen-activated protein [(MAP) kinase] signal transduction pathway with either PD28059 (an inhibitor of MAP kinase/ERK kinase kinase or MEK) or N-acetyl-S-farnesyl-l-cysteine (an inhibitor of Ras farnesylation and, hence, activation) inhibited the action of MC-CM. Moreover, a subpopulation of cells responded rapidly to MC-CM with an increased appearance of phosphorylated ERK. Because NGF also utilizes this pathway, synergy may occur along this signal transduction pathway.

Interleukin-1 specifically increases substance P in injured sympathetic ganglia.

In the neonatal superior cervical (sympathetic) ganglion (SCG), substance P (SP) and the mRNA coding for its prohonnone precursor (preprotachykinin; PPT) are increased following severance of preganglionic fibers in vivo’ or explantation of the ganglion into ~ulture.2,~ Since the ganglionic increase in SP occurs only in response to traumaticinjury (deafferentation), the first goal of our study was to investigate the possibility that products of the immune system affect neurotransmitter expression in the ganglion. Beyond that, however, recent evidence has shown that interleukin-1 (IL-l), released by macrophages invading the site of a splenic nerve lesion, stimulates the production of nerve growth factor (NGF) and its receptor in non-neuronal cells of the nerve sheath.*r5 Since NGF is a requirement for the normal growth and development of the neonatal SCG both in vivo6 and in vitro;*8 and since NGF is needed for tissue regeneration?” an IL-1-induced increase in NGF biosynthesis suggests one means by which lymphokines could facilitate neuronal repair following a lesion. We have, therefore, sought to determine whether lymphokine-induced increases in SP are mediated by NGF.

Identification of mRNAs Regulated by Interferon-γ in Cultured Rat Astrocytes by PCR Differential Display

We have used RNA differential display to identify specific mRNA species that are regulated by interferon-gamma (IFN gamma) treatment of enriched astrocyte cultures. Following a 24-hour treatment with IFN, mRNA was subjected to differential display using 15 different random primers. 105 upregulated and 5 downregulated cDNAs were selected for further sequencing and identification. Northern blot analysis confirmed the upregulation of 13 genes identical or highly similar to: intercrine adrenomedullin, H-rev 107, CAP-like protein, ATP synthase epsilon-subunit, complement C3, S-100 beta, Ca2+ ATPase, mg11, IFN-upregulated 56-kD protein mRNA, laminin receptor-like protein, protein tyrosine phosphatase, and zic. These data suggest that exposure to IFN gamma results in a complex change in the pattern of astrocyte gene expression.

Lipopolysaccharide induces substance P in sympathetic ganglia via ganglionic interleukin-1 production

The immune cytokine interleukin-1 (IL-1) causes a pronounced elevation in substance P (SP) immunoreactivity and the mRNA coding for its preprotachykinin precursor in cultured superior cervical (sympathetic) ganglia (SCG; Jonakait and Schotland, 1990; Freidin and Kessler, 1991; Hart et al., 1991). In this study we have investigated the possibility that the SCG can respond to other immune stimulators, notably lipopolysaccharide (LPS), a product of bacterial cell walls. LPS treatment of cultured SCG resulted in a dose-dependent increase in SP. However, LPS did not induce SP in the absence of non-neuronal cells, suggesting the necessity of a non-neuronal cell-derived intermediate. Since the LPS induction of SP was partially blocked by a specific IL-1 receptor antagonist (IL-1ra) and since LPS induced approximately an 8-fold increase in mRNA coding for IL-1 itself, we concluded that IL-1 is at least one of these LPS-induced intermediates. TNF-alpha, which also raises SP levels, may be another. IL-6, which may also be increased by LPS, does not increase levels of SP. The synthetic glucocorticoid hormone dexamethasone (DEX) blocks the LPS induction of SP with a Ki approximating 8 x 10(-11) M. The inhibition is due in part to the blockade of the LPS induction of ganglionic IL-1 mRNA. Moreover, inhibition of the LPS induction of SP by indomethacin implies mediation of the effect through prostaglandins. The inhibition by indomethacin suggests a non-monocytic cell source since prostaglandins are thought to restrict the LPS induction of monocytic IL-1.(ABSTRACT TRUNCATED AT 250 WORDS)