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

To evaluate the frequency of the causes of exercise limitation in patients with chronic pulmonary disease and to assess the relationship between the resting pulmonary functional parameters and the degree of exercise dyspnea, we reviewed the data from 88 consecutive stable patients with chronic lung disease (62 COPD, 16 interstitial lung disease [ILD]). In each patient, the intensity of dyspnea was measured by a Borg scale (BS) during an incremental symptom-limited exercise test. COPD patients stopped exercise due to fatigue (46%), dyspnea (36%), cardiac limitation (12%), and peripheral circulatory limitation (6%). ILD patients stopped exercise due to dyspnea (62%), fatigue (25%), and cardiac limitation (12%). In all patients, dyspnea severity increased linearly with exercise intensity as measured as VO2, VE, and VE/MVV. The severity of dyspnea expressed as the slope of the relationship between BS and VE/MVV (DBS/D[VE/MVV]) showed in COPD a significant inverse correlation with VC, FEV1, MIP, and a positive correlation with PaCO2 and VE/MVV at rest. In ILD, DBS/D(VE/MVV) showed a significant inverse correlation with VC, FEV1, TLC, and PaO2 and a positive correlation with VE/MVV at rest. The predicting power of all equations was very low.
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PMID:Dyspnea on exercise. Pathophysiologic mechanisms. 157 44

Fibrosis of the pulmonary parenchyma is a frequent and serious complication of scleroderma (systemic sclerosis, SSc), resulting in significant morbidity and mortality. During the past decade data have accumulated in support of an inflammatory process affecting the alveoli and distal airways that culminates in irreversible fibrosis in many SSc patients. Recent findings indicate the presence of lung fibroblasts with altered phenotype and biologic activity (myofibroblasts), perhaps arising from the influence of cytokines on resident lung fibroblasts. Acute-phase inflammatory cytokines such as IL-1 alpha, TNF-alpha, MIP-1 alpha, IL-8 and RANTES are increased in SSc bronchoalveolar lavage (BAL) fluid, as is thrombin, a potent mitogen for lung fibroblasts. Chronic-phase inflammatory and fibrogenic cytokines such as PDGF and TGF-beta are also present in increased amounts in SSc BAL fluid. The inciting event(s) and the process(es) leading to the perpetuation of fibrosis in SSc are unknown. Treatment of SSc lung disease has been empiric and generally disappointing, and it is likely that effective treatment awaits a better understanding of the biological events that regulate collagen and other extracellular matrix synthesis.
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PMID:Interstitial lung disease of systemic sclerosis. 765 Apr 24

Macrophage inflammatory proteins 1 alpha and beta (MIP-1 alpha and beta) and macrophage inflammatory protein 2 (MIP-2) are approximately 6-8 kd, heparin binding proteins that exhibit a number of inflammatory and immunoregulatory activities. The MIP proteins are members of a superfamily of cytokines called chemokines, many of which have been shown to possess chemotactic activity for inflammatory and immune effector cells. While MIPs were originally identified as secretory products of endotoxin-stimulated mouse macrophages, these chemokines are produced by a variety of cell types including neutrophils, fibroblasts, and epithelial cells. In addition, proteins with a high degree of structural and functional homology to murine MIP-1 alpha and beta and MIP-2 have been identified in other species including humans. MIP-1 alpha and beta are chemotactic for monocytes and lymphocytes and MIP-2 is a potent chemotactic factor for neutrophils. MIPs likely also play a role in regulating hematopoiesis and stimulating production of other inflammatory mediators such as IL-1, TNF alpha, and histamine. Studies using animal models of lung injury and inflammation have implicated MIPs as important mediators of lung defense. Increased MIP expression has been observed in models of bacterial sepsis, silicosis, and oxidant-induced lung injury. Studies in humans indicate MIP-1 alpha contributes to the inflammatory cell response associated with sarcoidosis and idiopathic pulmonary fibrosis. Given the bioactivities of MIP-1 alpha and beta and MIP-2 and the recent studies demonstrating their association with lung inflammation, it is likely these chemokines play a significant role in respiratory tract defenses and may contribute to the pathogenesis of inflammatory lung disease.
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PMID:Macrophage inflammatory proteins: biology and role in pulmonary inflammation. 788 2

Mononuclear phagocyte (M phi) recruitment and activation is a hallmark of a number of chronic inflammatory diseases of the lung, including sarcoidosis and idiopathic pulmonary fibrosis (IPF). We hypothesized that macrophage inflammatory protein-1 (MIP-1 alpha), a peptide with leukocyte activating and chemotactic properties, may play an important role in mediating many of the cellular changes that occur in sarcoidosis and IPF. In initial experiments, we demonstrated that human rMIP-1 alpha exerted chemotactic activities toward both polymorphonuclear leukocytes and monocytes, and these activities were inhibited by treatment with rabbit anti-human MIP-1 alpha antiserum. In support of the potential role of MIP-1 alpha in interstitial lung disease, we detected MIP-1 alpha in the bronchoalveolar lavage fluid of 22/23 patients with sarcoidosis (mean 443 +/- 76 pg/ml) and 9/9 patients with IPF (mean 427 +/- 81 pg/ml), whereas detectable MIP-1 alpha was found in only 1/7 healthy subjects (mean 64 +/- 64 pg/ml). In addition, we found a 2.5- and 1.8-fold increase in monocyte chemotactic activity in BALF obtained from patients with sarcoidosis and IPF respectively, as compared to healthy subjects, and this monocyte chemotactic activity, but not neutrophil chemotactic activity, was reduced by approximately 22% when bronchoalveolar lavage fluid from sarcoidosis and IPF patients were preincubated with rabbit antihuman MIP-1 alpha antibodies. To determine the cellular source(s) of MIP-1 alpha within the lung, we performed immunohistochemical analysis of bronchoalveolar lavage cell pellets, transbronchial biopsies, and open lung biopsies obtained from patients with IPF and sarcoidosis. Substantial expression of cell-associated MIP-1 alpha was detected in M phi, including both alveolar AM phi and interstitial M phi. In addition, interstitial fibroblasts within biopsies obtained from sarcoid and IPF patients also expressed immunoreactive MIP-1 alpha. Minimal to no detectable MIP-1 alpha was expressed in alveolar M phi from healthy subjects or interstitial cells in lung biopsy specimens obtained from patients undergoing thoracotomy for malignancy. Furthermore, pulmonary fibroblasts isolated from patients with IPF produced greater amounts of MIP-1 alpha after challenge with IL-1 beta than did similarly treated pulmonary fibroblasts recovered from patients without fibrotic lung disease. Our findings suggest that MIP-1 alpha is expressed in increased amounts within the airspace and interstitium of patients with sarcoidosis and IPF, and that this cytokine may be an important mediator of both M phi activation and recruitment that characterize these disease states.
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PMID:Macrophage inflammatory protein-1 alpha expression in interstitial lung disease. 836 Apr 96

We studied respiratory muscle endurance with an inspiratory threshold loading (ITL) device using Martyn's method (2-min incremental loading test) in 9 patients with chronic pulmonary emphysema (CPE patients) and in 9 elderly subjects with no lung disease (NE subjects), and their endurance was compared with that of 9 normal young subjects (NY subjects). In 11 cases (8 CPE patients and 3 NE subjects) a treadmill exercise test was performed and cardiopulmonary parameters obtained from the ITL and treadmill tests were compared. The maximum weight tolerated for 2 minutes (Wmax) and the mean peak inspiratory mouth pressure/maximum inspiratory mouth pressure ratio at the maximum load (Ppk/MIP at Max Load) were used as indices of respiratory muscle endurance. CPE patients had significantly decreased Wmax compared with those of NE and NY subjects. Wmax in all cases positively correlated with Ppk/MIP at Max Load, and endurance time of both the ITL and treadmill tests. During both tests, SaO2 significantly decreased, and heart rate and mean blood pressure significantly increased. There was less change in SaO2 and heart rate during the ITL test than during the treadmill test, and neither arrhythmias nor ST changes on ECG were observed during the ITL test. These results indicate that the ITL test can be easily and safely employed in CPE patients and elderly subjects to estimate respiratory muscle endurance.
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PMID:[Estimation of respiratory muscle endurance using an inspiratory threshold loading device in patients with chronic pulmonary emphysema and in elderly subjects]. 956 78

Hypersensitivity pneumonitis (HP) is a granulomatous, inflammatory lung disease caused by inhalation of organic Ags, most commonly thermophilic actinomycetes that cause farmer's lung disease. The early response to Ag is an increase in neutrophils in the lung, whereas the late response is a typical Th1-type granulomatous disease. Many patients who develop disease report a recent viral respiratory infection. These studies were undertaken to determine whether viruses can augment the inflammatory responses in HP. C57BL/6 mice were exposed to the thermophilic bacteria Saccharopolyspora rectivirgula (SR) for 3 consecutive days per wk for 3 wk. Some mice were exposed to SR at 2 wk after infection with respiratory syncytial virus (RSV), whereas others were exposed to SR after exposure to saline alone or to heat-inactivated RSV. SR-treated mice developed a typical, early neutrophil response and a late granulomatous inflammatory response. Up-regulation of IFN-gamma and IL-2 gene expression was also found during the late response. These responses were augmented by recent RSV infection but not by heat-inactivated RSV. Mice with a previous RSV infection also had a greater early neutrophil response to SR, with increased macrophage inflammatory protein-2 (MIP-2, murine equivalent of IL-8) release in bronchoalveolar lavage fluid. These studies suggest that viral infection can augment both the early and late inflammatory responses in HP.
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PMID:Viral infection modulates expression of hypersensitivity pneumonitis. 1035 92

Hyperoxia may contribute to lung disease in newborns through effects on alveolar neutrophils which predominate in respiratory distress syndrome and other acute lung injuries. Neutrophil chemokines such as interleukin-8 (IL-8) regulate chemoattraction, and are elevated in tracheal aspirates of newborns who develop bronchopulmonary dysplasia (BPD). Blockade of neutrophil chemokines may reduce hyperoxia-induced inflammatory lung injury and BPD. We therefore tested the hypothesis that hyperoxia contributes to elevations of rat neutrophil chemokines, cytokine-induced neutrophil chemoattractant-1 (CINC-1), and macrophage inflammatory protein-2 (MIP-2) in newborn rat lung. Newborn rats were exposed to air or 95% O(2) for 8 d. CINC-1 and MIP-2 were measured in whole lung homogenates by ELISA. Newborn 95% O(2)-exposed animals were given anti-CINC-1 or anti-MIP-2, 1, 5, or 10 microg on Days 3 and 4 of 95% O(2) exposure. Bronchoalveolar lavage (BAL) was performed after perfusion on day 6 to evaluate airway neutrophils, and myeloperoxidase (MPO) was measured in perfused whole lung. Lungs were examined histologically and immunohistochemically for effects of 95% O(2) +/- antichemokine. CINC-1 and MIP-2 increased nearly tenfold by Day 8 95% O(2) treatment versus air control. CINC-1 and MIP-2 immunolabeling was increased in alveolar macrophages and alveolar epithelium in 95% O(2). Anti-CINC-1 and anti-MIP-2 treatment at every dose reduced neutrophil number > 90% in BAL. Anti-CINC-1 10 microg reduced tissue MPO by 50%. Antichemokine treatment on days 3 and 4 prevented alveolar septal thickening and reduced chemokine immunolabeling on Day 6. Hyperoxia-induced neutrophil influx is mediated in part by CINC-1 and MIP-2 in newborn rats and can be partially prevented by treatment with anti-CINC-1 and anti-MIP-2.
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PMID:Lung inflammation in hyperoxia can be prevented by antichemokine treatment in newborn rats. 1111 57

Human T lymphotrophic virus type-I (HTLV-I), a human retrovirus, infects CD4(+) lymphocytes and is thought to modify their function and a possible association with pulmonary diseases has also been suggested. However, little is known about the influence of HTLV-I on diffuse pan-bronchiolitis (DPB), a chronic inflammatory lung disease with infiltration of lymphocytes and hyperplasia of the bronchus-associated lymphoid tissue. In this study, 35 DPB patients with and without HTLV-I infection were examined. HTLV-I positive DPB patients were likely to have a larger affected area with lower FEV(1). The CD3(+)/CD25(+) lymphocyte percentage was significantly higher in the BALF of HTLV-I positive patients than in negative patients. MIP-1 alpha, IP-10 and levels in BALF were also significantly higher in HTLV-I positive patients than in negative patients. The levels of MCP-1 and IL-8 were not significantly different. In HTLV-I positive patients, the MIP-1 alpha and IP-10 levels showed a significant positive correlation with the percentage of CD3(+)/CD25 lymphocytes. BALF cells of all HTLV-I positive DPB patients showed expression of p40(tax) mRNA. We suggest that HTLV-I infection may modify DPB pathogenesis via activation of T cells. We also found that the frequency of ATL development in HTLV-I positive DPB patients was significantly higher than in all HTLV-I positive patients (OR = 8.22, 95% CI = 2.61-25.9, P < 0.01). The levels of TGF-beta in patients who developed ATL were significantly lower than in patients who did not develop ATL. Sensitivity and specificity were 80% and 85.7%, respectively (cut-off = 20 pg/ml). We also propose that these features should be taken into consideration in the treatment of DPB in HTLV-I infected individuals.
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PMID:Influence of human T lymphotrophic virus type I on diffuse pan-bronchiolitis. 1514 54

Pulmonary function is altered in ankylosing spondylitis (AS) owing mainly to the restriction of chest wall involvement (limited chest expansion). The objective of this study was to investigate the relationship between chest expansion, respiratory muscle strength (MIP, MEP) maximum voluntary ventilation (MVV), and BASFI score in patients with AS. Twenty-three male patients with definite AS and 21 age-matched healthy male controls were recruited for the study. Patients with AS were assessed for functional status by BASFI. Measurement of chest expansion and lumbar spinal flexion (modified Schober) method was performed in all subjects. Pulmonary function tests were performed by spirometry. Respiratory muscle strength was evaluated by a mouth-pressure meter (MPM). Body mass index (kg/m(2)) was recorded in all individuals. Chest expansion and modified Schober measurement were significantly lower in AS patients (p<0.05). Pulmonary function tests revealed restrictive lung disease. The mean BASFI score suggested good functional capacity in the AS group. The respiratory muscle strength and MVV were also lower in AS (p<0.05). The chest expansion was correlated with MIP and MEP values (r=0.491; p=0.02, r=0.436; p=0.05). Chest expansion was also correlated negatively with disease duration (r=-0.502; p=0.03). In addition, there was no correlation between chest expansion and BASFI score (r=-0.076; p=0.773). This study demonstrates that functional status (BASFI) is not influenced by the limitation of chest wall movement. It may be as a result of the maintenance of moderate physical activity during active life in patients with AS.
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PMID:Respiratory muscle strength but not BASFI score relates to diminished chest expansion in ankylosing spondylitis. 1516 44

Inhalation of crystalline silica can produce lung inflammation and fibrosis. Inducible nitric oxide synthase (iNOS)-derived nitric oxide (NO) is believed to be involved in silica-induced lung disease. To investigate the role of iNOS-derived NO in this disease, the responses of iNOS knockout (KO) versus C57Bl/6J wild-type (WT) mice to silica were compared. Male mice (8-10 wk old, mean body weight 24.0 g) were anesthetized and exposed, by aspiration, to silica (40 mg/kg) or saline. At 24 h and 42 d postexposure, lungs were lavaged with saline. The first bronchoalveolar lavage (BAL) fluid supernatant was analyzed for lactate dehydrogenase (LDH) activity, levels of albumin, tumor necrosis factor-alpha (TNF-alpha), and macrophage inflammatory protein-2 (MIP-2), as well as total antioxidant capacity (TAC). The cellular fraction of the total BAL was used to determine alveolar macrophage (AM) and polymorphonuclear leukocyte (PMN) counts, and zymosanstimulated AM chemiluminescence (AM-CL). In separate mice, lung histopathological changes were evaluated 42 d postexposure. Acute (24-h) silica exposure decreased AMs, increased PMNs, increased LDH activity and levels of albumin, TNF-alpha, and MIP-2 in BAL fluid, and enhanced AM-CL in both iNOS KO and WT mice. However, iNOS KO mice exhibited less AM activation (defined as increased AM-CL and decreased AM yield) than WT. Furthermore, TAC following acute silica decreased in WT but was maintained in iNOS KO mice. Pulmonary reactions to subchronic (42 d) silica exposure were similar to acute. However, histopathological and BAL fluid indices of lung damage and inflammation, AM activation, and lung hydroxyproline levels were significantly less in iNOS KO compared to WT mice. These results suggest that iNOS-derived NO contributes to the pathogenesis of silica-induced lung disease in this mouse model.
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PMID:Role of inducible nitric oxide synthase-derived nitric oxide in silica-induced pulmonary inflammation and fibrosis. 1520 31


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