Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The main intrinsic membrane protein of the lens fiber cell, MIP, has been previously shown to be phosphorylated in preparations of lens fragments. Phosphorylation occurred on serine residues near the cytoplasmic C-terminus of the molecule. Since MIP is thought to function as a channel protein in lens plasma membranes, possibly as a cell-to-cell channel protein, phosphorylation could regulate the assembly or gating of these channels. We sought to identify the specific serines which are phosphorylated in order to help identify the kinases involved in regulating MIP function. To this end we purified a peptide fragment from native membranes that had not been subjected to any exogenous kinases or kinase activators. Any phosphorylation detected in these fragments must be due to cellular phosphorylation and thus is termed in vivo phosphorylation. Purified membranes were also phosphorylated with cAMP-dependent protein kinase to determine the mobility of phosphorylated and unphosphorylated MIP-derived peptides on different HPLC columns and to determine possible cAMP-dependent protein kinase phosphorylation sites. Lens membranes, which contain 50-60% of the protein as MIP, were digested with lysylendopeptidase C. Peptides were released from the C-terminal region of MIP and a major product of 21-22 kDa remained membrane-associated. Separation of the lysylendopeptidase-C-released peptides on C8 reversed-phase HPLC demonstrated that one of these fragments, corresponding to residues 239-259 in MIP, was partially phosphorylated. The phosphorylated and nonphosphorylated forms of this peptide were separated on QAE HPLC. In vivo phosphorylation sites were found at residues 243 and 245 through phosphoserine modification via ethanethiol and sequence analysis. Phosphorylation was never detected on serine 240. The phosphorylation level of serine 243 could be increased by incubation of membranes with cAMP-dependent protein kinase under standard assay conditions. Other kinases that phosphorylate serines found near acidic amino acids must be responsible for the in vivo phosphorylation demonstrated at serine 245.
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PMID:Amino acid sequence of in vivo phosphorylation sites in the main intrinsic protein (MIP) of lens membranes. 217 1

We report here the ability of the beta chemokines MIP-1 alpha, MIP-1 beta, RANTES, and MCP-1 to enhance some lymphocyte effector functions. Initial studies focused on the effects of chemokines on human and mouse cytotoxic T lymphocyte (CTL)- and natural killer (NK) cell-specific cytolytic responses. The results demonstrate that beta chemokines are capable of augmenting mouse and human CTL and human NK- but not lymphokine-activated killer cell- or antibody-dependent cell cytotoxicity-specific cytolytic responses. Neutralization analysis utilizing integrin-specific antibodies revealed that CTL/NK tumor cell conjugate formation is required for chemokine-induced killing. In addition, both CTLs and NK cells incubated with various beta chemokines were induced to degranulate and release granule-derived serine esterases, suggesting that chemokines may be important costimulators of CTL and NK cell degranulation and may thus augment local target cell destruction. Chemokines also modulate antigen-driven T cell proliferative responses as well as effects on lymphokine production. Many of the beta chemokines were found to potentiate human and mouse antigen-specific Th1 and Th2 clone activation promoting cellular proliferation and the release of various lymphokines. This chemokine-mediated T cell proliferation was chemokine and antigen dose dependent as well as clone dependent. Chemokine pretreatment analyses with T cells and antigen-presenting cells (APCs) revealed that chemokines up-regulate both T cells and antigen- presenting cells (APCs) revealed that chemokines up-regulate both T cell and APC functions. Costimulation assays using immobilized antiCD3 monoclonal antibody-coated plates and purified human and mouse T cells and T cell clones in the presence of various chemokines also exhibited enhanced proliferation and lymphokine secretion. This costimulation was interleukin-2 dependent and required the presence of free extracellular calcium. Examination of chemokine-treated APCs revealed that the T cell costimulatory molecule B7-1 was induced by various beta chemokines. Neutralization of endogenously produced chemokines, with specific antibodies during an antigen-specific T cell response blocked cellular proliferation, suggesting that the chemokines have an autocrine role in antigen-induced T cell proliferative responses. Together, these results suggest that chemokines play a significant role in the activation of polyclonal as well as antigen-specific helper and cytotoxic T cells during the genesis of an immune response.
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PMID:Beta chemokines costimulate lymphocyte cytolysis, proliferation, and lymphokine production. 855 72

The iron-sulfur proteins of the cytochrome bc1 complexes of Schizosaccharomyces pombe and Saccharomyces cerevisiae contain the three amino acid motif RX( downward arrow)(F/L/I)XX(T/S/G)XXXX (downward arrow) that is typical for proteins that are cleaved sequentially in two steps by matrix processing peptidase (MPP) and mitochondrial intermediate peptidase (MIP). Despite the presence of this recognition sequence the S. pombe iron-sulfur protein is processed only once during import into mitochondria, whereas the S. cerevisiae protein is processed in two steps. Import of S. pombe iron-sulfur protein in which the putative MIP or MPP recognition sites are eliminated by site-directed mutagenesis and import of iron-sulfur protein into mitochondria from yeast mutants that lack MIP activity indicate that one step processing of the S. pombe iron-sulfur protein is independent of those sites and of MIP activity. Sequencing of the mature protein obtained after import in vitro and of the endogenous iron-sulfur protein isolated from mitochondrial membranes by preparative 2D-electrophoresis shows that MPP recognizes a second site in the presequence and processing occurs between residues 43 and 44. If proline-20 of the S. pombe presequence is changed into a serine, a second cleavage step is induced. Conversely, if serine-24 of the S. cerevisiae presequence is changed to a proline, the first cleavage step that is normally catalyzed by MPP is blocked, causing precursor iron-sulfur protein to accumulate. Together these results indicate that a single amino acid change in the presequence is responsible for one-step processing in S. pombe versus two-step processing in S. cerevisiae.
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PMID:Processing of the presequence of the Schizosaccharomyces pombe Rieske iron-sulfur protein occurs in a single step and can be converted to two-step processing by mutation of a single proline to serine in the presequence. 953 40

Sequestration of neutrophils and release of histotoxic mediators are considered important for the development of pathologic alterations of the lung defined as adult respiratory distress syndrome. Mechanisms of inflammatory lung injury caused by abdominal sepsis were investigated using the colon ascendens stent peritonitis (CASP) model that closely mimics the human disease. In the CASP model, a continuous leakage of intraluminal bacteria into the peritoneal cavity is induced by implantation of a stent in the ascending colon, generating a septic focus. In contrast to the cecal ligation and puncture model of peritonitis, survival of mice following CASP surgery is dependent on IFN-gamma, but independent of tumor necrosis factor (TNF). Here we show that the systemic inflammation induced by CASP surgery results in a rapid and profound increase of lung vascular permeability that was associated with the activation and recruitment of neutrophils to the lung. Activation of circulating granulocytes was characterized by increased production of serine proteinases and reactive oxygen metabolites, as well as elevated expression of cell surface Mac-1. Expression of MIP-2, KC, MIP-1alpha and E-selectin mRNA in lung was strongly increased within 3 h following CASP surgery, whereas up-regulation of IP-10, MCP-1 and P-selectin was delayed. In contrast, induction of RANTES, LIX, ICAM-1 and VCAM-1 mRNA was weak or not detectable after CASP surgery. Importantly, recruitment of leukocytes to the lung was normal in lipopolysaccharide-resistant mice, and was not affected by antibody neutralization of TNF or the chemokines MIP-2 and KC.
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PMID:Mechanisms of acute inflammatory lung injury induced by abdominal sepsis. 1006 20

The polymorphonuclear leukocyte (PMN)-derived serine proteases play a key role in immune complex (IC)-mediated inflammation. However, the mechanisms by which these proteases regulate inflammatory response remain largely undefined. Here, we show that IC-activated cathepsin G- and neutrophil elastase-deficient (CG/NE) PMNs adhered normally to IC-coated surfaces but did not undergo CD11b clustering and failed to initiate cytoskeletal reorganization and cell spreading. As a result, CG/NE-deficient PMNs exhibited severe defects in MIP-2 secretion and reactive oxygen intermediates production. Exogenously added CG, but not proteolytically inactive CG, was sufficient to restore these defects. These findings identify an important role for CG in integrin-dependent PMN effector functions that are separate from and downstream of integrin-dependent adhesion.
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PMID:Serine protease cathepsin G regulates adhesion-dependent neutrophil effector functions by modulating integrin clustering. 1596 83

The equilibrium adsorption isotherms on two otherwise identical polymers, one imprinted with Fmoc-L-tryptophan (Fmoc-L-Trp) (MIP), the other nonimprinted (NIP), of compounds that are structural analogues of the template were acquired by frontal analysis (FA) in an acetonitrile/acetic acid (99/1 v/v) mobile phase, over a wide concentration range (from 0.005 to 50 mM). These analogues were Fmoc-L-tyrosine, Fmoc-L-serine, Fmoc-L-phenyalanine, Fmoc-glycine (Fmoc-Gly), Fmoc-L-tryptophan pentafluorophenyl ester (Fmoc-L-Trp(OPfp)), and their antipodes. These substrates have different numbers of functional groups able to interact with the 4-vinylpyridine groups of the polymer. For a given number of the functional groups, these substrates have different hydrophobicities of their side groups (as indicated by their partition coefficients (log P(ow)) in the octanol-water system (e.g., from 4.74 for Fmoc-Trp to 2.53 for Fmoc-Gly)). Statistical results from the fitting of the FA data to Langmuirian isotherm models, the calculation of the affinity energy distribution, and the comparison of calculated and experimental band profiles show that all these sets of FA data are best accounted for by a tri-Langmuir isotherm model, except for the data of Fmoc-L-Trp(OPfp) that are best modeled by a simple Langmuir isotherm. So, all compounds but Fmoc-L-Trp(OPfp) find three different types of adsorption sites on both the MIP and the NIP. The properties of these different types of sites were studied systematically. The results show that the affinity of the structural analogues for the NIP is controlled mostly by the number of the functional groups on the substrates and somewhat by the hydrophobicity of their side groups. These two factors control also the MIP affinity toward the enantiomers of the structural analogues that have a stereochemistry different from that of the template. In contrast, the affinity of the highest affinity sites of the MIP toward the enantiomers of these structural analogues that have the same stereochemistry as the template is highest for the imprinted molecule (Fmoc-L-Trp). The separation of the template from the substrates with the same stereochemistry is influenced by the number of the functional groups on the substrates that can interact with the highest affinity sites on the MIP. The separation of the enantiomers of the analogues of the substrates was also achieved on the MIP, and these enantiomeric separations are influenced by the hydrophobicity of the substrates.
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PMID:Adsorption on molecularly imprinted polymers of structural analogues of a template. Single-component adsorption isotherm data. 1619 8

Serine proteinases produced by polymorphonuclear neutrophils play important roles in neutrophil-mediated tissue injury at inflammatory sites. Although neutrophil recruitment to the liver has been shown to be involved in the exacerbation of liver inflammation, the function of neutrophil elastase (NE) in liver injury remains unclear. Here, we found that administration of an NE inhibitor (NEI) reduced serum alanine aminotransferase (sALT) activity and inflammatory cell infiltration into the liver from 8 to 24 h after injection of antigen-specific cytotoxic T lymphocytes (CTLs) into hepatitis B virus transgenic mice. Furthermore, the NEI treatment reduced the expressions of inflammatory cytokines and chemokines in the liver and tumor necrosis factor alpha production by macrophages. In addition, the NEI treatment suppressed the mRNA expressions of CC chemokine ligand 3 (CCL-3), CCL-4, and macrophage inflammatory protein 2 (MIP-2) in neutrophils in the liver at 8 h after the CTL injection. In support of these results, we confirmed that administration of anti-CCL-3, anti-CCL-4, and anti-MIP-2 monoclonal antibodies suppressed sALT activity and leukocyte migration into the liver. In conclusion, the present results suggest that NE contributes to the early step of the inflammatory cascade in acute viral hepatitis and that NEIs may have potential as therapeutic drugs against acute severe viral hepatitis.
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PMID:Blockade of neutrophil elastase attenuates severe liver injury in hepatitis B transgenic mice. 1630 86

Aging of phosphylated serine esterases, e.g., acetylcholinesterase (AChE) and neuropathy target esterase (NTE), renders the inhibited enzymes refractory to reactivation. This process has been considered to require postinhibitory side group loss from the organophosphorus moiety. Recently, however, it has been shown that the catalytic domain of human NTE inhibited by N,N'-diisopropylphosphorodiamidofluoridate (mipafox, MIP) ages by deprotonation. For mechanistic understanding and biomarker development, it would be important to know the identity of the MIP adduct on target esterases after inhibition and aging occurred. Accordingly, the present study was performed to determine if MIP-inhibited human AChE ages by side group loss or an alternate method, e.g., deprotonation. Diisopropylphosphorofluoridate (DFP), the oxygen analogue of MIP, was used for comparison, because DFP-inhibited AChE is known to age by net loss of an isopropyl group. Kinetics experiments were done with DFP and MIP against AChE to follow the time course of inhibition, reactivation, and aging for each inhibitor. MS studies of tryptic digests from kinetically aged DFP-inhibited AChE revealed a mass shift of 122.8 +/- 0.7 Da for the active site peptide (ASP) peak, corresponding to the expected monoisopropylphosphoryl adduct. In contrast, the analogous mass shift for kinetically aged MIP-inhibited AChE was 80.7 +/- 0.9 Da, corresponding to a phosphate adduct. Because this finding was unexpected, the identity of the phosphoserine-containing ASP was confirmed by immunoprecipitation followed by MS. The results indicate that aging of MIP-inhibited AChE proceeds by displacement of both isopropylamine groups. Further research will be required to elucidate the detailed mechanism of formation of a phosphate conjugate from MIP-inhibited AChE; however, knowledge of the identity of this adduct will be useful in biomarker studies.
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PMID:Aging of mipafox-inhibited human acetylcholinesterase proceeds by displacement of both isopropylamine groups to yield a phosphate adduct. 1648 11

Group A Streptococcus (GAS) causes the life-threatening infection in humans known as necrotizing fasciitis (NF). Infected subcutaneous tissues from an NF patient and mice challenged with the same GAS strain possessed high bacterial loads but a striking paucity of infiltrating polymorphonuclear leukocytes (PMNs). Impaired PMN recruitment was attributed to degradation of the chemokine IL-8 by a GAS serine peptidase. Here, we use bioinformatics approach coupled with target mutagenesis to identify this peptidase as ScpC. We show that SilCR pheromone downregulates scpC transcription via the two-component system-SilA/B. In addition, we demonstrate that in vitro, ScpC degrades the CXC chemokines: IL-8 (human), KC, and MIP-2 (both murine). Furthermore, using a murine model of human NF, we demonstrate that ScpC, but not the C5a peptidase ScpA, is an essential virulence factor. An ScpC-deficient mutant is innocuous for untreated mice but lethal for PMN-depleted mice. ScpC degrades KC and MIP-2 locally in the infected skin tissues, inhibiting PMN recruitment. In conclusion, ScpC represents a novel GAS virulence factor functioning to directly inactivate a key element of the host innate immune response.
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PMID:A streptococcal protease that degrades CXC chemokines and impairs bacterial clearance from infected tissues. 1697 14

We generated Fas-activated serine threonine phosphoprotein (FAST)-deficient mice (FAST(-/-)) to study the in vivo role of FAST in immune system function. In a model of house dust mite-induced allergic pulmonary inflammation, wild type mice develop a mixed cellular infiltrate composed of eosinophils, lymphocytes, and neutrophils. FAST(-/-) mice develop airway inflammation that is distinguished by the near absence of neutrophils. Similarly, LPS-induced alveolar neutrophil recruitment is markedly reduced in FAST(-/-) mice compared with wild type controls. This is accompanied by reduced concentrations of cytokines (TNF-alpha and IL-6 and -23) and chemoattractants (MIP-2 and keratinocyte chemoattractant) in bronchoalveolar lavage fluids. Because FAST(-/-) neutrophils exhibit normal chemotaxis and survival, impaired neutrophil recruitment is likely to be due to reduced production of chemoattractants within the pulmonary parenchyma. Studies using bone marrow chimeras implicate lung resident hematopoietic cells (e.g., pulmonary dendritic cells and/or alveolar macrophages) in this process. In conclusion, our results introduce FAST as a proinflammatory factor that modulates the function of lung resident hematopoietic cells to promote neutrophil recruitment and pulmonary inflammation.
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PMID:Fas-activated serine/threonine phosphoprotein promotes immune-mediated pulmonary inflammation. 2036 72


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