Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.59 (MIP)
 4,906 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent technological advances in biomedical research, such as genome sequences and DNA microarrays, have dramatically increased the size of relevant databases. A major challenge is the extraction of a limited number of parameters from these databases that can differentiate and diagnose complex biological states. In a model of cardiac transplantation investigating immunosuppression by inhibition of CD40 ligand costimulation, we have applied a combination of cluster algorithms and self-organizing maps to analyze a panel of 60 candidate genes. Dendrograms generated by cluster analysis distinguished different molecular bases of rejection. Using self-organizing maps, we identified nine genes (CD4, CCR3, CCR5, LT beta, MIP-1 alpha, MIP-2, CD8 alpha, IP-10, and RANTES), each with a unique profile of transcriptional expression, that reproduce the differentiation of states of rejection in dendrograms. Using histology and immunohistochemistry, we correlated differential regulation of CD4 and CD8 at the levels of mRNA and protein. Our strategy of data reduction successfully decreased the number of genes to nine, which are sufficient to differentiate distinct states of rejection in our experimental protocol.
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PMID:Molecular profiles of allograft rejection following inhibition of CD40 ligand costimulation differentiated by cluster analysis. 1181 57

C-C chemokines are essential factors in the recruitment and activation of leukocytes from the circulation into inflamed tissue and may play a role in ischemia-induced myocardial injury and left ventricular remodeling after acute myocardial infarction (AMI). We investigated the kinetics of three major C-C chemokines, macrophage chemoattractant protein-1 (MCP-1), macrophage inflammatory protein-1 alpha (MIP-1 alpha), and regulated on activation normally T cell expressed and secreted (RANTES), in the sera of AMI patients and correlated the findings with the severity of the disease. Serum levels of C-C chemokines were determined in 35 AMI patients by ELISA assays serially during the first week of hospitalization and 1 month after hospital admission. Patients (n = 18) with uncomplicated AMI (Killip class I) were classified as group A, patients (n = 17) with AMI complicated by heart failure manifestations (Killip classes II and III) were classified as group B, and 15 age-matched and sex-matched volunteers were used as healthy controls. A sustained increase in serum C-C chemokines was observed in both AMI groups during the 7-day hospitalization period. Peaks of these inflammatory factors were significantly higher in group B than in group A (MCP-1, 295 +/- 11 vs. 203 +/- 9 pg/ml, p < 0.01; MIP-1 alpha, 30 +/- 1 vs. 24 +/- 2 pg/ml, p < 0.05; RANTES, 32 +/- 2 vs. 16 +/- 1 ng/ml, p < 0.01) and healthy controls (MCP-1, 125 +/- 7 pg/ml, p < 0.001; MIP-1 alpha, 14 +/- 1 pg/ml, p < 0.001; RANTES, 12 +/- 1 ng/ml, p < 0.001). In group B, significant correlations were found between the peak of MCP-1 and the peak of C-reactive protein levels (r = 0.55, p < 0.02) as well as wedge pressure (r = 0.40, p < 0.05). In the same group, the peak of MIP-1 alpha levels was also significantly correlated with the peak of serum creatine kinase-myocardial band (MB) (r = 0.51, p < 0.04) and left ventricular ejection fraction (LVEF) (r = -0.45, p < 0.05). After 1 month, AMI patients (n = 14) with severe left ventricular dysfunction (LVEF < or = 35%) exhibited significantly higher levels of C-C chemokines (all p < 0.05) than the other AMI patients (n = 21) (LVEF > 35%). A significant correlation was found between MIP-1 alpha levels and left ventricular end-diastolic diameter (r = 0.47, p < 0.03) in this patient population. In conclusion, we have detected a significant elevation of major C-C chemokines during the course of AMI, with the highest levels in patients with AMI complicated by heart failure manifestations and severe left ventricular dysfunction. The elevation of these chemotactic inflammatory factors may actively contribute to the pathophysiology of the disease and the subsequent left ventricular remodeling.
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PMID:Serum profiles of C-C chemokines in acute myocardial infarction: possible implication in postinfarction left ventricular remodeling. 1191 5

C-C chemokine receptor-1 (CCR1) has been implicated in mediating a variety of inflammatory conditions including multiple sclerosis and organ rejection. Although originally referred to as the MIP-1alpha/RANTES receptor, CCR1 is quite promiscuous and can be activated by numerous chemokines. We used radioligand binding and [35S]-GTPgammaS exchange assays in membranes from a cell line transfected to express CCR1 (Ba/F3-hCCR1) to characterize a panel of chemokines (HCC-1, MIP-1alpha, MIP-1beta, MIP-1delta, MPIF-1, MCP-2, MCP-3, and RANTES) as CCR1 ligands. In this recombinant model, these chemokines displaced 125I-MIP-1alpha with a wide range of potencies and, with the exception of MCP-2, acted as full agonists in stimulating [35S]-GTPgammaS exchange. We then assessed the utility of HL-60 cells cultured with known differentiating agents (PMA, DMSO, dibutyryl-cAMP or retinoic acid) for investigating CCR1 pharmacology. In [35S]-GTPgammaS exchange assays, membranes from cells cultured with retinoic acid (4-6 days) were the most responsive to activation by MIP-1alpha and MPIF-1. FACS analysis and comparative pharmacology confirmed that these activities were mediated by CCR1. Using [35S]-GTPgammaS exchange assays, intracellular calcium flux and/or whole cell chemotaxis assays in HL-60(Rx) cells, we validated that MIP-1alpha was the most potent CCR1 ligand (MIP-1alpha>MPIF-1>RANTES>or=MIP-1beta) although the ligands differed in their efficacy as agonists. MPIF-1 was the more efficacious (MPIF-1>RANTES=MIP-1alpha>>MIP-1beta). 125I-MIP-1beta binding in Ba/F3-hCCR1 and HL-60(Rx) membranes was competitively displaced by MIP-1alpha, MPIF-1 and MIP-1beta. The binding K(i) for these chemokines with 125I-MIP-1beta were essentially identical in the two membrane systems. Lastly, MIP-1beta antagonized [35S]-GTPgammaS exchange, Ca2+ flux and chemotaxis in HL-60(Rx) cells in response to robust agonists such as MIP-1alpha, RANTES and MPIF-1. Based on our results, we propose that MIP-1beta could function as an endogenous inhibitor of CCR1 function.
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PMID:Pharmacological characterization of the chemokine receptor, hCCR1 in a stable transfectant and differentiated HL-60 cells: antagonism of hCCR1 activation by MIP-1beta. 1238 80

Chemokines are cytokines which induce chemotaxis on many cell types, thus regulating cell migration within inflammatory and allergic sites, and leucocyte homing. Also, they play a crucial role in inflammatory and tumor-associated angiogenesis, as well as in tumor progression. Chemokines are grouped into: 1) alpha or CXC; 2) beta or CC; 3) gamma or C; 4) delta or CX3C molecules. Each of them recognizes one or more cell surface receptors, named CXCR, CCR, XCR, CX3CR respectively, according to the corresponding subfamily. Many chemokines have been identified within tumor tissues, as a secretory product of tumor cells and/or inflammatory cells. The CXC chemokines (such as IL-8, IP10, Mig, SDF-1 alpha) or CC chemokines (such as MCP-1, MIP-1 alpha, eotaxin, RANTES) have been frequently harvested from tumor tissues or the biological fluids of patients. Some chemokines inhibit tumor growth and progression by activating immunocompetent cytolytic cells or inhibiting tumor-associated angiogenesis. In contrast, other chemokines induce tumor progression by interacting with the specific receptor expressed on the tumor cells and hence by activating chemotaxis and secretion of proteolytic enzymes, or by inducing angiogenesis and metastatic spreading. Sometimes neoplastic cells express chemokine receptors which are not expressed on their normal counterpart. Data from this lab show the CXCR3 expression by cells from lymphoproliferative diseases, such as multiple myeloma and lymphoma, and the stimulation of an invasive phenotype following interaction with specific chemokines.
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PMID:[Chemokines and tumors]. 1248 85

Three mouse strains (BALB/c, ICR, and C3H/He) were injected intratracheally with house dust mites (Der f) four times at 2-week intervals during exposure to diesel exhaust (DE) or clean air for 8 weeks. Der f treatment caused eosinophilic inflammation and proliferation of goblet cells in the airways of the three strains. DE + Der f caused a further increase of eosinophils in BALB/c and ICR mice, but not in C3H/He mice. DE + Der f significantly increased interleukin (IL)-5; regulated on activation, normal T cell expressed, and presumably secreted (RANTES); eotaxin, monocyte chemotactic protein-1 (MCP-1); and macrophage-inflammatory protein-1 alpha (MIP-1 alpha) in all three strains. However, the protein of IL-5 decreased more in C3H/He mice treated with DE + Der f than in mice treated with Air + Der f. The levels of IL-5 in lung tissues corresponded to the pathological changes by Der f and/or DE treatment. The levels of MCP-1 and MIP-1 alpha in the three strains corresponded to the accumulation of lymphocytes in the airway. The adjuvant effect of DE on IgG1 production was observed in the ICR and C3H/He mice. These results suggest that the murine strain differences in the production of eosinophilic airway inflammation by DE + Der f is related to differences in local expression of IL-5, eotaxin, and IgG1 production. The enhancing effects of DE exposure may be mediated mainly by local IL-5.
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PMID:Differences in airway-inflammation development by house dust mite and diesel exhaust inhalation among mouse strains. 1262 82

Exposure to particulate matter (PM) may exacerbate preexisting respiratory diseases such as asthma, chronic obstructive pulmonary disease (COPD), bronchitis, and pneumonia. However, few experimental studies have addressed the effects of PM on lower respiratory tract (LRT) viral infection. Respiratory syncytial virus (RSV) is a major etiological agent for LRT infections in infants, the elderly, and the immunocompromised and may lead to chronic wheezing and the development of asthma in children. In this study, we examined the effects of carbon black (CB) on RSV-induced pulmonary inflammation, chemokine and cytokine expression, and airway hyperresponsiveness in a mouse model of RSV. Female BALB/c mice were instilled via the trachea (i.t.) with 1 x 106 plaque forming units (pfu) RSV or with uninfected culture media. On day 3 of infection, mice were i.t. instilled with either 40 micro g ultrafine CB particles or with saline. End points were examined on days 4, 5, 7, and 14 of RSV infection. Viral titer and clearance in the lung were unaffected by CB exposure. Neutrophil numbers were elevated on days 4 and 7, and lymphocyte numbers were higher on days 4 and 14 of infection in CB-exposed, RSV-infected mice. CB exposure also enhanced RSV-induced airway hyperresponsiveness to methacholine, bronchoalveolar lavage (BAL) total protein, and virus-associated chemokines monocyte chemoattractant protein (MCP-1), macrophage inflammatory protein (MIP-1 alpha), and regulated upon activation, normal T cell expressed and secreted (RANTES). MIP-1 alpha mRNA expression was increased in the alveolar epithelium, where ultrafine particles deposit in the lung. These data demonstrate a synergistic effect of ultrafine CB particles on RSV infection, and suggest a potential mechanism for increased respiratory infections in human populations after PM exposure.
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PMID:Ultrafine carbon black particles enhance respiratory syncytial virus-induced airway reactivity, pulmonary inflammation, and chemokine expression. 1265 33

Human herpesvirus 6 (HHV-6) is a potentially immunosuppressive agent that has been suggested to act as a cofactor in the progression of HIV disease. Exposure of human macrophages to HHV-6A or HHV-6B profoundly impaired their ability to produce interleukin 12 (IL-12) upon stimulation with interferon-gamma (IFN-gamma) and lipopolysaccharide (LPS). By contrast, the production of tumor necrosis factor-alpha (TNF-alpha); regulated on activation, normal T-cell expressed and secreted (RANTES); and macrophage inflammatory protein 1 beta (MIP-1 beta) was not negatively affected. To exclude the involvement of IL-12-suppressive cytokines, such as IL-10 and TNF-alpha, the viral stocks were fractionated by ultra-centrifugation. The bulk of the suppressive activity was recovered within the virion-rich pelleted fraction that was virtually devoid of such cytokines. IL-12 suppression was independent of viral replication, and the effect was not abrogated upon ultraviolet-light inactivation of the viral inoculum. The mechanism of HHV-6-mediated IL-12 suppression was investigated by RNase protection assays, which demonstrated unaltered levels of IL-12 p35 mRNA and only a modest reduction in p40 mRNA, which was insufficient to account for the near-complete loss of both extracellular and intracellular IL-12 protein. Moreover, both the IFN-gamma and the LPS signaling pathways were intact in HHV-6-treated cells. These data suggest that HHV-6 can dramatically affect the generation of effective cellular immune responses, providing a novel potential mechanism of HHV-6-mediated immunosuppression.
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PMID:Selective suppression of IL-12 production by human herpesvirus 6. 1282

We have studied the role of the chemokine receptor CCR1 during the effector stage of myelin oligodendrocyte glycoprotein-induced experimental autoimmune encephalomyelitis in DA rats. In situ hybridization histochemistry revealed local production of the CCR1 ligands CCL3 (MIP-1 alpha) and CCL5 (RANTES), as well as large numbers of CCR1 and CCR5 expressing cells within inflammatory brain lesions. A low-molecular weight CCR1 selective antagonist potently abrogated both clinical and histopathological disease signs during a 5-day treatment period, without signs of peripheral immune compromise. Thus, we demonstrate therapeutic targeting of CCR1-dependent leukocyte recruitment to the central nervous system in a multiple sclerosis (MS)-like rat model.
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PMID:Effector stage CC chemokine receptor-1 selective antagonism reduces multiple sclerosis-like rat disease. 1451 66

Influenza A virus replicates in the respiratory epithelium and induces an inflammatory infiltrate comprised of mononuclear cells and neutrophils. To understand the development of the cell-mediated immune response to influenza and how leukocyte trafficking to sites of inflammation is regulated, we examined the chemokine expression pattern in lung tissue from A/PR/8/34-infected C57BL/6 mice using an RNase protection assay. Monocyte chemoattractant protein 1, macrophage inflammatory protein 1alpha (MIP-1alpha), MIP-1beta, MIP-3alpha, regulated on activation, normal T expressed and secreted (RANTES), MIP-2, and interferon-inducible protein 10 (IP-10) mRNA expression was up-regulated between days 5 and 15 after infection, consistent with a role for these chemokines in leukocyte recruitment to the lung. Low levels of expression were detected for the CC chemokine receptors (CCR)2 and CCR5, whereas CXC chemokine receptor (CXCR)3 was significantly up-regulated by day 10 after infection, coinciding with peak inflammatory cell infiltration in the airways. As RANTES, IP-10, and their receptors were up-regulated during influenza virus infection, we investigated leukocyte recruitment and viral clearance in mice deficient in RANTES or CXCR3, the receptor for IP-10. Leukocyte recruitment and viral replication in influenza-infected RANTES knockout(-/-) mice were similar to that in control mice, showing that RANTES is not essential for the immune response to influenza infection. Similarly, leukocyte recruitment and viral replication in CXCR3-/- mice were identical to control mice, except at day 8 postinfection, where fewer lymphocytes, neutrophils, and eosinophils were detected in the bronchoalveolar lavage of CXCR3-/- mice. These studies suggest that although the chemokines detected may play a role in regulating leukocyte trafficking to the lung during influenza infection, some may be functionally redundant.
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PMID:Chemokine expression during the development and resolution of a pulmonary leukocyte response to influenza A virus infection in mice. 1524 Jul 57

Chemokines regulate the recruitment of leukocytes to sites of inflammation and may therefore play an important role in lymphocyte trafficking between draining lymph nodes and pancreatic islet tissue allografts. The intragraft expression of alpha- and beta-chemokine mRNA during the rejection of BALB/c proislet (fetal precursor islet tissue) allografts in CBA/H mice was assessed quantitatively and semiquantitatively by RT-PCR analyses. Allograft rejection was associated with the strongly enhanced (from day 4) and prolonged expression (up to day 10) of the alpha-chemokine IP-10 and enhanced intragraft mRNA expression of the beta-chemokines MCP-1, MIP-lalpha, MIP-1beta, RANTES, and eotaxin. Peak transcript expression was identified at day 4 (IP-10, MCP-1), day 5 (eotaxin), day 6 (MIP-1alpha, MIP-1beta), and day 14 (RANTES). To examine the role of beta-chemokine receptors in allograft rejection, additional allografts to CCR2-/- , CCR5-/-, and wild-type CCR+/+ mice were analyzed by histology, immunohistochemistry, and morphometry. In CCR5-/- mice, the intragraft recruitment of T cells and macrophages was slower and allograft destruction was delayed; in CCR2-/- mice, the initial entry of macrophages was retarded but graft survival was not prolonged. These findings suggest that IP-10 regulates the initial influx of T cells into proislet allografts, MCP-1/CCR2 signaling controls initial macrophage entry, and the MIP-1alpha, MIP-1beta, and RANTES/CCR5 pathway contributes to the rejection response by subsequently amplifying the recruitment of T cell subpopulations required for graft destruction.
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PMID:The contribution of chemokines and chemokine receptors to the rejection of fetal proislet allografts. 1556 63


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