Exacerbated fatigue and motor deficits in interleukin-10-deficient mice after peripheral immune stimulation.

The anti-inflammatory cytokine interleukin (IL)-10 is important for regulating inflammation in the periphery and brain, but whether it protects against infection- or age-related psychomotor disturbances and fatigue is unknown. Therefore, the present study evaluated motor coordination, time to fatigue, and several central and peripheral proinflammatory cytokines in male young adult (3-mo-old) and middle-aged (12-mo-old) wild-type (IL-10(+/+)) and IL-10-deficient (IL-10(-/-)) mice after intraperitoneal injection of lipopolysaccharide (LPS) or saline. No age-related differences were observed; therefore, data from the two ages were pooled and analyzed to determine effects of genotype and treatment. LPS treatment increased IL-1beta, IL-6, and TNFalpha mRNA in all brain areas examined in IL-10(+/+) and IL-10(-/-) mice, but to a greater extent and for a longer time in IL-10(-/-) mice. Plasma IL-1beta and IL-6 were increased similarly in IL-10(+/+) and IL-10(-/-) mice 4 h after LPS but remained elevated longer in IL-10(-/-) mice, whereas TNFalpha was higher in IL-10(-/-) mice throughout after LPS treatment. Motor performance and motor learning in IL-10(+/+) mice were not affected by LPS treatment; however, both were reduced in IL-10(-/-) mice treated with LPS compared with those treated with saline. Furthermore, although LPS reduced the time to fatigue in IL-10(+/+) and IL-10(-/-) mice, the effects were exacerbated in IL-10(-/-) mice. Thus the increased brain and peripheral inflammation induced by LPS in IL-10(-/-) mice was associated with increased coordination deficits and fatigue. These data suggest that IL-10 may inhibit motor deficits and fatigue associated with peripheral infections via its anti-inflammatory effects.

IL-10 inhibits apoptosis of promyeloid cells by activating insulin receptor substrate-2 and phosphatidylinositol 3'-kinase.

IL-10 is well known to be a potent inhibitor of the synthesis of proinflammatory cytokines, but noninflammatory hemopoietic cells also express IL-10Rs. Here we show that IL-10 directly affects progenitor myeloid cells by protecting them from death following the removal of growth factors. Murine factor-dependent cell progenitors cultured in the absence of growth factors were 43 +/- 1% apoptotic after 12 h. Addition of IL-10 at a concentration as low as 100 pg/ml significantly reduced the apoptotic population to 32 +/- 3%. At 10 ng/ml, IL-10 caused a 4-fold reduction in the apoptotic population (11 +/- 1%). The anti-apoptotic activity of IL-10 was significantly inhibited with a neutralizing IL-10R Ab. Factor-dependent cell progenitor promyeloid cells expressed functional IL-10Rs, as assessed by precipitation of a 110-kDa protein with an Ab to the IL-10R and by the ability of IL-10 to activate Jak1 and Tyk2 and to phosphorylate tyrosine 705 on Stat-3. IL-10 increased tyrosyl phosphorylation of insulin receptor substrate-2 and stimulated the enzymatic activity of both phosphatidylinositol 3'-kinase and Akt. The anti-apoptotic activity of IL-10 was blocked by inhibition of phosphatidylinositol 3'-kinase. Wortmannin and LY294002 also totally inhibited activation of extracellular signal-related kinase (ERK)1/2 by IL-10. Direct inhibition of ERK1/2 with the mitogen-activated protein kinase/ERK kinase inhibitor PD98059 partially, but significantly, impaired the anti-apoptotic activity of IL-10. These data establish that activation of the IL-10R promotes survival of progenitor myeloid cells. This survival-promoting activity is totally due to IL-10 stimulating the insulin receptor substrate-2/PI 3-kinase/Akt pathway, which increases the anti-apoptotic activity of ERK1/2.

Tumor necrosis factor(alpha) and insulin-like growth factor-I in the brain: is the whole greater than the sum of its parts?

The cytokine tumor necrosis factor(alpha) (TNFalpha) and the hormone insulin-like growth factor-I (IGF-I) have both been shown to regulate inflammatory events in the central nervous system (CNS). This review summarizes the seemingly independent roles of TNFalpha and IGF-I in promoting and inhibiting neurodegenerative diseases. We then offer evidence that the combined effects of IGF-I and TNFalpha on neuronal survival can be vastly different when both receptors are stimulated simultaneously, as is likely to occur in vivo. We propose the framework of a molecular model of hormone-cytokine receptor cross talk in which disparate cell surface receptors share intracellular substrates that regulate neuronal survival.

Molecular characterization of a novel glycoprotein hormone G-protein-coupled receptor.

We report the molecular characterization of a novel G-protein-coupled receptor, GPR48, that resembles proteins in the glycoprotein hormone receptor family. The full-length human GPR48 cDNA is comprised of 951 amino acids. The large extracellular amino terminus of 538 residues is composed of seventeen leucine-rich repeats (LRR). The genomic structure of GPR48 has several features in common with genes in the glycoprotein hormone receptor family. Analogous to these receptors, most of the LRR are encoded on single small exons, and the last exon encodes the seven transmembrane segments. The complete gene spans more than 60 kb with 18 exons and 17 introns. Northern blot analysis demonstrated high expression of GPR48 in the adult human pancreas, with moderate levels of expression in placenta, kidney, brain, and heart. Additionally, this receptor is expressed as early as 7 days post coitus in the mouse, indicating its potential involvement in development.

Simian immunodeficiency virus replicates to high levels in naturally infected African green monkeys without inducing immunologic or neurologic disease.

African green monkeys can maintain long-term persistent infection with simian immunodeficiency viruses (SIVagm) without developing AIDS and thus provide an important model for understanding mechanisms of natural host resistance to disease. This study assessed the levels and anatomic distribution of SIVagm in healthy, naturally infected monkeys. Quantitative competitive reverse transcriptase PCR assays developed to measure SIVagm from two African green monkey subspecies demonstrated high levels of SIV RNA in plasma (>6 x 10(6) RNA copies/ml) in sabaeus and vervet monkeys. Infectious virus was readily recovered from plasma and peripheral blood mononuclear cells and shown to be highly cytopathic in human cell lines and macrophages. SIVagm DNA levels were highest in the gastrointestinal tract, suggesting that the gut is a major site for SIVagm replication in vivo. Appreciable levels of virus were also found within the brain parenchyma and the cerebrospinal fluid (CSF), with lower levels detected in peripheral blood cells and lymph nodes. Virus isolates from the CSF and brain parenchyma readily infected macrophages in culture, whereas lymph node isolates were more restricted to growth in human T-cell lines. Comparison of env V2-C4 sequences showed extensive amino acid diversity between SIVagm recovered from the central nervous system and that recovered from lymphoid tissues. Homology between brain and CSF viruses, macrophage tropism, and active replication suggest compartmentalization in the central nervous system without associated neuropathology in naturally infected monkeys. These studies provide evidence that the nonpathogenic nature of SIVagm in the natural host can be attributed neither to more effective host control over viral replication nor to differences in the tissue and cell tropism from those for human immunodeficiency virus type 1-infected humans or SIV-infected macaques.

Interleukin-10 in the brain.

Interleukin (IL)-10 is synthesized in the central nervous system (CNS) and acts to limit clinical symptoms of stroke, multiple sclerosis, Alzheimer's disease, meningitis, and the behavioral changes that occur during bacterial infections. Expression of IL-10 is elevated during the course of most major diseases in the CNS and promotes survival of neurons and all glial cells in the brain by blocking the effects of proapoptotic cytokines and by promoting expression of cell survival signals. Stimulation of IL-10 receptors regulates numerous life- or death-signaling pathways--including Jak1/Stat3, PI 3-kinase, MAPK, SOCS, and NF-kappaB--ultimately promoting cell survival by inhibiting both ligand- and mitochondrial-induced apoptotic pathways. IL-10 also limits inflammation in the brain; it does so by three major pathways: (1) reducing synthesis of proinflammatory cytokines, (2) suppressing cytokine receptor expression, and (3) inhibiting receptor activation. Finally, IL-10 induces anergy in brain-infiltrating T cells by inhibiting cell signaling through the costimulatory CD28-CD80/86 pathway. The multiple functions of IL-10 in the brain will create new and intriguing vistas that will promote a better understanding of neurodegenerative diseases. These discoveries could lead to development of innovative approaches for the use of antiinflammatory cytokines in major debilitating diseases of the CNS.

Chromosomal localization of GPR48, a novel glycoprotein hormone receptor like GPCR, in human and mouse with radiation hybrid and interspecific backcross mapping.

We report the chromosomal localization in both mouse and human of a novel G-protein-coupled receptor, GPR48, which resembles glycoprotein hormone receptors, that may be implicated in Wilms tumor deletion syndromes such as WAGR. This receptor forms a novel sub-family of glycoprotein hormone-like GPCRs. We have mapped this receptor to human chromosome 11p14-->p13 by several approaches, including radiation hybrid and interspecific backcross mapping, and show that GPR48 is close to BDNF. This data differs from the recently published mapping of LGR4 (5q34-->q35.1) (Hsu et al., 1998). Additionally, we show that Gpr48 and Bdnf are tightly linked on mouse chromosome 2, in a region with conserved synteny to human 11p14-->p13.

Molecular characterization and expression of cloned human galanin receptors GALR2 and GALR3.

Galanin is a 29- or 30-amino acid peptide with wide-ranging effects on hormone release, feeding behavior, smooth muscle contractility, and somatosensory neuronal function. Three distinct galanin receptor (GALR) subtypes, designated GALR1, 2, and 3, have been cloned from the rat. We report here the cloning of the human GALR2 and GALR3 genes, an initial characterization of their pharmacology with respect to radioligand binding and signal transduction pathways, and a profile of their expression in brain and peripheral tissues. Human GALR2 and GALR3 show, respectively, 92 and 89% amino acid sequence identity with their rat homologues. Radioligand binding studies with 125I-galanin show that recombinant human GALR2 binds with high affinity to human galanin (K(D) = 0.3 nM). Human GALR3 binds galanin with less affinity (IC50 of 12 nM for porcine galanin and 75 nM for human galanin). Human GALR2 was shown to couple to phospholipase C and elevation of intracellular calcium levels as assessed by aequorin luminescence in HEK-293 cells and by Xenopus melanophore pigment aggregation and dispersion assays, in contrast to human GALR1 and human GALR3, which signal predominantly through inhibition of adenylate cyclase. GALR2 mRNA shows a wide distribution in the brain (mammillary nuclei, dentate gyrus, cingulate gyrus, and posterior hypothalamic, supraoptic, and arcuate nuclei), and restricted peripheral tissue distribution with highest mRNA levels detected in human small intestine. In comparison, whereas GALR3 mRNA was expressed in many areas of the rat brain, there was abundant expression in the primary olfactory cortex, olfactory tubercle, the islands of Calleja, the hippocampal CA regions of Ammon's horn, and the dentate gyrus. GALR3 mRNA was highly expressed in human testis and was detectable in adrenal gland and pancreas. The genes for human GALR2 and 3 were localized to chromosomes 17q25 and 22q12.2-13.1, respectively.

Amplification of simian retroviral sequences from human recipients of baboon liver transplants.

Investigations into the use of baboons as organ donors for human transplant recipients, a procedure called xenotransplantation, have raised the specter of transmitting baboon viruses to humans and possibly establishing new human infectious diseases. Retrospective analysis of tissues from two human transplant recipients with end-stage hepatic disease who died 70 and 27 days after the transplantation of baboon livers revealed the presence of two simian retroviruses of baboon origin, simian foamy virus (SFV) and baboon endogenous virus (BaEV), in multiple tissue compartments. The presence of baboon mitochondrial DNA was also detected in these same tissues, suggesting that xenogeneic "passenger leukocytes" harboring latent or active viral infections had migrated from the xenografts to distant sites within the human recipients. The persistence of SFV and BaEV in human recipients throughout the posttransplant period underscores the potential infectious risks associated with xenotransplantation.

Characterization of new simian foamy viruses from African nonhuman primates.

Simian foamy viruses (SFV) are exogenous retroviruses present in most if not all nonhuman primate species. Baboons and other African monkey species are known to harbor SFVs, yet there is presently no data in regard to their genetic relationship. Here we studied SFVs from baboons as compared to other SFVs isolated from a Hamlyn's guenon, a patas monkey, and a vervet. By Western blot analysis, the gag precursor proteins (p74/p70) were detected from all SFVs. In addition, the envelope glycoproteins from a vervet isolate (SFV-Agm2) were comparable in size to the env precursor gp130, the exterior glycoprotein (gp70), and the transmembrane protein (gp48) as detected by lentil lectin binding and radioimmunoprecipitation (RIPA). Molecular comparison of PCR amplified products from pol and LTR regions of each SFV demonstrated a close relationship among baboon SFVs while SFVs from patas, Hamlyn's guenon, and vervet clustered together. The baboon viruses only varied by 4% among each other in the LTR region; however, as much as 26% variation was noted when compared to the other African monkey SFVs. To determine the prevalence rate of SFV-Bab in our baboon colony, we employed both Western blotting and PCR analysis. Antibodies to SFV gag precursor proteins were seen in 7 of 10 infants; however, none were positive by PCR, suggesting that these infants were virus negative and that their antibodies were maternal in origin. Only one juvenile (1/10) and all adults (38/38) were infected with SFV. Taken together these results suggest that SFVs have arisen and diverged along with the evolution of their natural hosts. Furthermore, the high prevalence rates to SFV seen in adult baboons strongly suggest a sexual or oral routes of transmission.