Monocyte chemotactic protein-1 as a chemoattractant for human hepatic stellate cells

Patients admitted acutely to hospital may be at risk of increased morbidity and mortality as a result of gastroesophageal reflux and its complications. The recognized association of gastroesophageal reflux with cardiac and respiratory disease, the use of drugs that reduce lower esophageal sphincter pressure, and the supine position in which many patients are nursed may increase the risk of gastroesophageal reflux. This study aimed to determine the prevalence and severity of refluxlike symptoms in a series of consecutive unselected patients admitted acutely through the accident and emergency department of a district general hospital and to study the effect of hospitalization on these symptoms. Patients were interviewed by questionnaire on two occasions: immediately following admission and again 7-10 days later. The frequency of symptoms of heartburn, acid regurgitation, dysphagia, nausea, and belching were recorded on a 6-point scale, in addition to whether these symptoms occurred at night. Medication history, the number of days spent on bed rest, nasogastric intubation, and operation history were also recorded. In all, 275 patients were interviewed, of whom 229 had a second interview; 27% (62) had symptoms at least once a week (49% reported symptoms at least once a month) prior to admission, of whom 4% (9) had daily heartburn and/or acid regurgitation. Following admission to hospital there was a significant (P < 0.001) fall in the prevalence and frequency of refluxlike symptoms. There was a significant association of refluxlike symptoms with number of days spent in bed (P < 0.05) and with the use of nonsteroidal antiinflammatory drugs in hospital (P < 0.0001). Logistic regression analysis confirmed the association of NSAIDs with refluxlike symptoms. Nasogastric intubation and surgery were not associated with heartburn. In conclusion, symptoms of heartburn and acid regurgitation become less frequent following admission to hospital. This probably relates to a reduction in physical exertion following hospital admission but may reflect a reduction in anxiety levels or treatment of underlying disease. Patients on prolonged bed rest and those given non-steroidal anti-inflammatory drugs are at increased risk of refluxlike symptoms and may require antireflux measures.     

A novel macrophage actin-associated protein (MAYP) is tyrosine-phosphorylated following colony stimulating factor-1 stimulation

An approximately 37-kDa cytoplasmic protein is rapidly tyrosine-phosphorylated in the response of mouse BAC1.2F5 macrophages to colony stimulating factor-1 (CSF-1). pp37 was purified from the cytosolic fraction by anti-Tyr(P) affinity chromatography, size exclusion chromatography, and C4 reverse phase high pressure liquid chromatography. The sequences of four peptides derived from the purified protein matched portions of an expressed sequence tag (EST) sequence, and the EST clone was used to obtain cDNA clones encoding the pp37 protein, which shares sequence similarity with the PST PIP (proline, serine, threonine phosphatase interacting protein)/CDC15 family of protein-tyrosine phosphatase substrates. pp37 is predicted to contain a Fes/CIP4 homology (FCH) domain and an actin-binding domain-like sequence. It is expressed selectively in macrophages, macrophage cell lines, and at low levels in macrophage-containing tissues. pp37 is predominantly found in the cytosol, where it is associated with actin. However, approximately 4% resides in the membrane fraction, and the trace amount in the cytoskeletal fraction is increased by CSF-1 stimulation. Termed macrophage actin-associated tyrosine-phosphorylated protein (MAYP), p37 is the major F-actin-associated protein that is tyrosine-phosphorylated in macrophages and is likely to play a role in regulating the CSF-1-induced reorganization of the actin cytoskeleton.     

Antibody to Mac-1 or monocyte chemoattractant protein-1 inhibits monocyte recruitment and promotes tumor growth

Human tumors are frequently infiltrated by numerous monocytes/macrophages, which can be found within the tumor mass (intratumoral) or surrounding the tumor (peritumoral). The functional role that these monocytes/macrophages play in tumor growth is controversial. To address this issue we inhibited intratumoral monocyte/macrophage recruitment with mAbs that either blocked integrin function or neutralized a tumor-produced chemotactic protein. Both treatments significantly increased tumor formation and accelerated tumor growth. Surprisingly, the same results were obtained when recruitment of peritumoral or intratumoral monocytes/macrophages was blocked. Our findings are contrary to one of the purported roles of monocytes/macrophages, particularly in the peritumoral area, since we found no evidence for monocyte/macrophage-supported tumor growth. These results provide direct evidence that intratumoral as well as peritumoral monocytes/macrophages act to limit tumor size in the early stages following tumor inoculation and provide a mechanism that accounts for monocyte/macrophage recruitment to human tumors.     

The expression of receptor tyrosine phosphatases is responsive to sciatic nerve crush

Given the importance of phosphotyrosine signaling in growth cone dynamics, we have examined the embryonic and adult expression of receptor-like protein tyrosine phosphatases in sensory neurons and studied their responsiveness to nerve lesions in young adult animals. The phosphatases LAR, PTPsigma, and PTPalpha are expressed in most neurons of E14 and E18 rat embryo dorsal root ganglia, while BEM-1 is expressed in a more restricted subset of these neurons. These phosphatases continue to be expressed in young adult animals, suggesting that they have roles in mature as well as in developing dorsal root ganglia neurons. After an experimental sciatic nerve crush, the expression of the phosphatase genes was significantly and differentially altered in these neurons. PTPsigma mRNA was increased by 50% after 3 days, while LAR and PTPalpha expression dropped by 50 and 20%, respectively. BEM-1 mRNA levels were unaltered. These data show that mRNA levels of specific tyrosine phosphatase genes are highly responsive to nerve damage and may be reset to a new and potentially optimal pattern of expression more conducive for nerve regeneration. We propose that tyrosine phosphatases are not only involved in primary axonogenesis but can also now be implicated in the molecular control of adult nerve repair.     

Increase of preprotachykinin mRNA and substance P immunoreactivity in spared dorsal root ganglion neurons following partial sciatic nerve injury

Complete sciatic nerve injury reduces substance P (SP) expression in primary sensory neurons of the L4 and L5 dorsal root ganglia (DRG), due to loss of target-derived nerve growth factor (NGF). Partial nerve injury spares a proportion of DRG neurons, whose axons lie in the partially degenerating nerve, and are exposed to elevated NGF levels from Schwann and other endoneurial cells involved in Wallerian degeneration. To test the hypothesis that SP is elevated in spared DRG neurons following partial nerve injury, we compared the effects of complete sciatic nerve transection (CSNT) with those of two types of partial injury, partial sciatic nerve transection (PSNT) and chronic constriction injury (CCI). As expected, a CSNT profoundly decreased SP expression at 4 and 14 days postinjury, but after PSNT and CCI the levels of preprotachykinin (PPT) mRNA, assessed by in situ hybridization, and the SP immunoreactivity (SP-IR) of the L4 and L5 DRGs did not decrease, nor did dorsal horn SP-IR decrease. Using retrograde labelling with fluorogold to identify spared DRG neurons, we found that the proportion of these neurons expressing SP-IR 14 days after injury was much higher than in neurons of normal DRGs. Further, the highest levels of SP-IR in individual neurons were detected in ipsilateral L4 and L5 DRG neurons after PSNT and CCI. We conclude that partial sciatic nerve injury elevates SP levels in spared DRG neurons. This phenomenon might be involved in the development of neuropathic pain, which commonly follows partial nerve injury.     

Astrocytes in the aged rat spinal cord fail to increase GFAP mRNA following sciatic nerve axotomy

We have expanded the original Glucocorticoid Receptor Resource (GRR) database to include several individual resources as part of a larger project called the Nuclear Receptor Resource (NRR). In addition to the GRR, the NRR currently features the Thyroid Hormone Receptor Resource, the Androgen Receptor Resource, the Mineralocorticoid Receptor Resource, the Vitamin D Receptor Resource, and the Steroid Receptor Associated Proteins Resource. The goal of the NRR project is to provide a comprehensive resource for information on the nuclear receptor superfamily, and to provide a forum for the dissemination and discussion of both published and unpublished material on these proteins. Although the individual resources are managed from different servers, all the files are integrated and can be accessed through the project's Home Page, housed at http://nrr. georgetown.edu/nrr.html. In the near future, we hope to expand the project to contain information on other nuclear receptors and to better our electronic publication system. To accomplish this, we encourage the involvement of nuclear receptor investigators in the NRR.     

CK beta-11/macrophage inflammatory protein-3 beta/EBI1-ligand chemokine is an efficacious chemoattractant for T and B cells

We examined the functional properties of CK beta-11/MIP-3 beta/ELC, a recently reported CC chemokine that specifically binds to a chemokine receptor, EBI1/BLR2/CCR7. CK beta-11/MIP-3 beta/ELC is distantly related to other CC and CXC chemokines in primary amino acid sequence structure. Recombinant human CK beta-11/MIP-3 beta/ELC expressed from a mammalian cell system showed potent chemotactic activity for T cells and B cells but not for granulocytes and monocytes. An optimal concentration of CK beta-11/MIP-3 beta/ELC attracted most input T cells within 3 h, a chemotactic activity comparable with that of stromal cell derived factor 1 (SDF-1), a highly efficacious CXC chemokine. CK beta-11/MIP-3 beta/ELC equally attracted naive CD45RA+ and memory type CD45RO+ T cells. CK beta-11/MIP-3 beta/ELC also strongly attracted both CD4+ and CD8+ T cells, but the attraction for CD4+ T cells was greater. CK beta-11/MIP-3 beta/ELC was also a more efficacious chemoattractant for B cells than MIP-1 alpha, a known B cell chemoattractant. CK beta-11/MIP-3 beta/ELC induced actin polymerization in lymphocytes, and chemotaxis was completely blocked by pertussis toxin showing its receptor, most likely EBI1/BLR2/CCR7, is coupled to a G(alpha i) protein. CK beta-11/MIP-3 beta/ELC induced calcium mobilization in lymphocytes, which could be desensitized by SDF-1, suggesting possible cross-regulation in their signaling. Human CK beta-11/MIP-3 beta/ELC attracted murine splenocytes suggesting functional conservation of CK beta-11/MIP-3 beta/ELC between human and mouse. The efficacy of chemoattraction by CK beta-11/MIP-3 beta/ELC and tissue expression of its mRNA suggest that CK beta-11/MIP-3 beta/ELC may be important in trafficking of T cells in thymus, and T cell and B cell migration to secondary lymphoid organs.     

Behavioral signs of acute pain produced by application of endothelin-1 to rat sciatic nerve

We examined whether endothelin-1 (ET-1), a potent vasoconstrictive peptide secreted in high concentration by metastatic prostate cancer cells, produces endothelin receptor-dependent pain behavior when applied to rat sciatic nerve. ET-1 (200-800 microM) applied to the epineurial surface of rat sciatic nerve produced reliable, robust, unilateral hindpaw flinching lasting 60 min. Pre-emptive systemic morphine completely blocked this effect in a naloxone-reversible manner, suggesting that this behavior was pain-related. Equipotent doses of epineurially applied epinephrine had no effect, suggesting that ET-1 effects are on tissue sites other than sciatic nerve microvessels. Prior and co-administration of BQ-123, an endothelin-A (ET(A)) receptor antagonist, also blocked ET-1-induced hindpaw flinching establishing that pain behavior induced by ET-1 application to rat sciatic nerve is ET(A) receptor mediated.     

Thrombospondin-1 is a potent mitogen and chemoattractant for human vascular smooth muscle cells

Thrombospondin-1 (TSP-1) is a matricellular protein that is present in negligible amounts in normal human vasculature but occurs in significant amounts in diseased vessels. In this study, we examined the effect of TSP-1 on DNA synthesis, proliferation, and migration in human vascular smooth muscle cells grown from saphenous vein. TSP-1 (0.1 to 30 micrograms/mL) elicited a concentration-dependent increase in DNA synthesis under serum-free conditions. In combination with platelet-derived growth factor, TSP-1 induced a synergistic effect on DNA synthesis that was significantly higher than the additive effect of both agents. In proliferation assays, TSP-1 increased cell numbers by 50% relative to the serum-free controls over 14 days. In migration assays, conducted using modified Boyden chambers, TSP-1 (> or = 10 micrograms/mL) elicited marked chemotaxis to a degree equivalent to platelet-derived growth factor. The chemotactic response to TSP-1 (10 micrograms/mL) was abolished by the GRGDSP peptide but unaffected by the control GRGESP peptide, whereas neither peptide inhibited DNA synthesis stimulated by TSP-1. Inhibition of tyrosine kinase activity with genistein or tyrphostin A23 abolished DNA synthesis induced by TSP-1, and a neutralizing antibody to platelet-derived growth factor had no effect on DNA synthesis. Similarly, migration in response to TSP-1 was largely inhibited by these tyrosine kinase inhibitors. TSP-1 is a strong mitogen and chemoattractant for human vascular smooth muscle cells under serum-free conditions. The novel finding that TSP-1 is mitogenic for human cells contrasts with previous studies that have not shown any significant effect of TSP-1 itself on the growth of animal-derived smooth muscle cells. TSP-1 may play an important modulatory role in the local regulation of vascular smooth muscle function in vascular pathologies in humans.     

Quinolinic acid production is related to macrophage tropic isolates of HIV-1

We sought to determine whether the neurotoxin quinolinic acid (QUIN) was produced by macrophages or lymphocytes infected with isolates of HIV-1 with varying degrees of macrophage tropism derived from patients with varying stages of AIDS dementia complex (ADC). Highly macrophage tropic isolates and minimally macrophage tropic isolates were used to inoculate macrophages and QUIN production was measured. Similarly, QUIN production from macrophages was monitored using a purified cell free highly macrophage tropic isolate and laboratory isolates SF33 and SF2. Each of these experiments was also performed with lymphocytes. We found that macrophages infected with macrophage tropic isolates of HIV-1 led to QUIN production while lymphocytes did not produce QUIN. The ability of the HIV-1 infected macrophages to produce QUIN was related to the viral inoculum and the degree of macrophage tropism of the isolate. The severity of ADC in the patient from whom a particular isolate was derived was not per se a determining factor for QUIN production. Purified cell free ADC isolates also led to QUIN production by macrophages thereby suggesting that HIV-1 infection alone is capable of inducing QUIN production.     

Upregulation of 5''-AMP-activated protein kinase is responsible for the increase in myocardial fatty acid oxidation rates following birth in the newborn rabbit

Eighteen patients with intracranial skull base tumours diagnosed at CT or MR as neuromas or meningiomas were studied with positron emission tomography (PET) using L-(methyl-11C) methionine. Compared with normal cerebellar tissue, the uptake of methionine in the tumours increased more rapidly and reached a higher level, and showed a slow decline after a peak occurring about 5 min after the injection. All the meningiomas exhibited considerably higher accumulation of the tracer compared with the surrounding cerebellar tissue, which made the tumour easy to identify and to demarcate from the surrounding cerebellar tissue, which made the tumour easy to identify and to demarcate from the surrounding structures (tumour to cerebellum ratios 2.62-5.37, mean 3.63). The uptake was homogeneous in all meningiomas, which were all of the syncytial type. The neuromas showed lower contrast against the cerebellum (tumour to cerebellum ratios 1.1-1.87, mean 1.48). Some neuromas displayed an irregular pattern with regions of decreased tracer uptake corresponding to small cystic areas within the neuroma. There was no overlap in methionine uptake between the two tumour groups. The results indicate that PET-methionine may contribute to the evaluation, treatment planning and follow-up of patients with skull base meningiomas and neuromas.     

Lacrimal gland inflammation is responsible for ocular pathology in TGF-beta 1 null mice

Mice homozygous for a nonfunctional transforming growth factor-beta 1 gene develop rampant inflammation in vital organs that contributes to a shortened life span. The presence of circulating anti-nuclear anti-bodies, immune deposits in tissues, leukocyte infiltration, and increased major histocompatibility complex antigen expression resembles an autoimmune-like syndrome. One of the overt symptoms that appears in these mice lacking transforming growth factor-beta 1 is the development of dry crusty eyes that close persistently as their health declines. Histologically, the eyes appear normal with little or no inflammation. However, inflammatory lesions, predominantly lymphocytic, develop in the lacrimal glands, disrupting their structure and function and severely limiting their ability to generate tears. This histopathology and aberrant function mimic that of Sj?gren's syndrome, a human autoimmune disease characterized by dry eyes and dry mouth. Impeding the leukocyte infiltration into the glands with synthetic fibronectin peptides, which block adhesion, not only prevents the inflammatory pathology but also prevents the persistent eye closure characteristic of these mice.     

Elastase is the only human neutrophil granule protein that alone is responsible for in vitro killing of Borrelia burgdorferi

Phagocytosis of Borrelia burgdorferi by human polymorphonuclear leukocytes triggers oxygen-dependent and -independent mechanisms of potentially cidal outcome. Nevertheless, no factor or process has yet been singled out as being borreliacidal. We have studied the B. burgdorferi-killing ability of the myeloperoxidase-H2O2-chloride system and that of primary and secondary granule components in an in vitro assay. We found that neither secondary granule acid extracts nor the chlorinating system could kill these microorganisms, while primary granule extracts were effective. The Borrelia-killing factor was purified to homogeneity and demonstrated to be elastase. Its cidal activity was found to be independent of its proteolytic activity.     

Nuclear diacylglycerol produced by phosphoinositide-specific phospholipase C is responsible for nuclear translocation of protein kinase C-alpha

It is well established that an independent inositide cycle is present within the nucleus, where it is involved in the control of cell proliferation and differentiation. Previous results have shown that when Swiss 3T3 cells are treated with insulin-like growth factor-I (IGF-I) a rapid and sustained increase in mass of diacylglycerol (DAG) occurs within the nuclei, accompanied by a decrease in the levels of both phosphatidylinositol 4-phosphate and phosphatidylinositol 4,5-bisphosphate. However, it is unclear whether or not other lipids could contribute to this prolonged rise in DAG levels. We now report that the IGF-I-dependent increase in nuclear DAG production can be inhibited by the specific phosphatidylinositol phospholipase C inhibitor 1-O-octadeyl-2-O-methyl-sn-glycero-3-phosphocholine or by neomycin sulfate but not by the purported phosphatidylcholine-phospholipase C specific inhibitor D609 or by inhibitors of phospholipase D-mediated DAG generation. Treatment of cells with 1-O-octadeyl-2-O-methyl-sn-glycero-3-phosphocholine or neomycin sulfate inhibited translocation of protein kinase C-alpha to the nucleus. Moreover, exposure of cells to 1-O-octadeyl-2-O-methyl-sn-glycero-3-phosphocholine, but not to D609, dramatically reduced the number of cells entering S-phase upon stimulation with IGF-I. These results suggest that the only phospholipase responsible for generation of nuclear DAG after IGF-I stimulation of 3T3 cells is PI-PLC. When this activity is inhibited, neither DAG rise is seen nor PKC-alpha translocation to the nucleus occurs. Furthermore, this PI-PLC activity appears to be essential for the G0/G1 to S-phase transition.     

Formation of eosinophilic and monocytic intradermal inflammatory sites in the dog by injection of human RANTES but not human monocyte chemoattractant protein 1, human macrophage inflammatory protein 1 alpha, or human interleukin 8

Equilibrium binding studies on canine mononuclear and granulocytic cells allow the identification of a single high affinity receptor for the human C-C chemokine RANTES (dissociation constant, 14 +/- 8 pM), that, in contrast to the human RANTES receptor, has no affinity for human macrophage inflammatory protein 1 alpha (hMIP-1 alpha). A single intradermal injection of hRANTES in dog resulted in eosinophil- and macrophage-rich inflammatory sites within 4 h. Cell infiltration peaked at 16-24 h after hRANTES injection. There was histological evidence of intravascular activation of eosinophils at 4 h, although eosinophils in the vasculature and interstitium contained apparently intact granules. Monocytes were the predominant cells adherent to venular endothelium at 16-24 h. Human MIP-1 alpha elicited no response in canine dermis, whereas monocyte chemoattractant protein 1 caused mild perivascular cuffing with monocytes. In contrast, human interleukin 8 induced a neutrophilic dermal infiltrate that was maximal by 4 h after challenge. This provides the first direct evidence in vivo that RANTES has significant proinflammatory activity and, in addition, could be a mediator in atopic pathologies characterized by eosinophilic and monocytic inflammatory responses.     

Monomeric isomers of human interleukin 5 show that 1:1 receptor recruitment is sufficient for function

The normally dimeric human interleukin 5 (IL-5) was re-engineered into two monomeric isomer forms to investigate mechanistic features of receptor recognition. One form, denoted GM1-IL-5, is a CD-loop expanded form, in which an 8-residue linker designed for flexibility was inserted between residues 85 and 86. The second, denoted DABC-IL-5, is a circularly permuted form of human IL-5 in which a chain discontinuity was introduced in the CD loop and the two consequent chain fragments were joined at the normal N and C termini by a di-glycyl linker. Both IL-5 isomers folded into stable monomers in solution as shown by sedimentation equilibrium and CD and formed an intrachain disulfide bond predicted from the structure of wild type IL-5. From titration microcalorimetry and optical biosensor analyses, both monomers were shown to interact with the IL-5 receptor alpha chain with 1:1 stoichiometry and affinities 30- to 40-fold weaker than for the dimeric wild type protein. And both monomers stimulated cell proliferation of human IL-5 receptor positive cells with a concentration dependence close to that of wild type. The data show that both monomeric and dimeric forms of IL-5 function through similar 1:1 receptor alpha chain recruitment processes and that it is the helical packing of the monomeric four-helix bundle unit in IL-5, rather than the helical connectivity itself, that appears to play the major role in presenting structural epitopes to trigger functional receptor activation.     

Macrophage-inflammatory protein-3 beta/EBI1-ligand chemokine/CK beta-11, a CC chemokine, is a chemoattractant with a specificity for macrophage progenitors among myeloid progenitor cells

Chemoattractants are potential factors influencing cell migration. Stromal cell-derived factor-1, a CXC chemokine, is the only chemokine reported to have chemotactic activity for hemopoietic progenitor cells (HPC). We report in this work another chemokine of the CC subfamily, which is chemotactic for HPC. Macrophage-inflammatory protein (MIP)-3 beta/EBI1-ligand chemokine/CK beta-11 attracted bone marrow and cord blood CD34+ cells. In contrast to stromal cell-derived factor-1, which attracts multiple types of HPC, MIP-3beta attracted mainly CFU granulocyte macrophage, but not other HPC such as burst-forming unit erythrocyte or CFU granulocyte, erythrocyte, macrophage, and megakaryocyte. Chemoattracted CD34+ cells formed CFU granulocyte macrophage-like colonies, which were morphologically determined as large macrophages. These progenitors were selectively responsive to stimulation by macrophage CSF, demonstrating that MIP-3 beta attracts macrophage progenitors. Expression of CCR7, the receptor for MIP-3 beta, was detected at a mRNA level in the attracted CD34+ cells as well as input CD34+HPC. Expression of MIP-3 beta mRNA was not constitutive, but was inducible in bone marrow stromal cells by inflammatory agents such as bacterial LPS, IFN-gamma, and TNF-alpha. Taken together, our findings suggest that MIP-3 beta is expressed in the bone marrow environment after induction with certain inflammatory cytokines and LPS, and may play a role in trafficking of macrophage progenitors in and out of the bone marrow in inflammatory conditions.