Caveolin-1 Confers Antiinflammatory Effects in Murine Macrophages via the MKK3/p38 MAPK Pathway

Wang, Xiao Mei; Kim, Hong Pyo; Song, Ruiping; Choi, Augustine M.K.

doi:10.1165/rcmb.2005-0376oc

Cited by 143 publications

(172 citation statements)

References 50 publications

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“…Most of the transcription factor binding sites are also present in the human and bovine genes, suggesting that the regulation of caveolin-1 expression is conserved among mammals. These observations are supported by previous reports showing that activation of protein kinase A downregulates caveolin-1 protein expression (66) and that cytokine production by caveolin-1 also involves the MAPK kinase 3/p38 MAPK pathway (67).…”

Section: Discussionsupporting

confidence: 90%

Molecular Characterization of Caveolin-1 in Pigs Infected with Haemophilus parasuis

Liu

Chen

Tong

et al. 2011

The Journal of Immunology

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Caveolin-1 (Cav1) plays a critical role in the invasion of pathogenic microbes into host cells, yet little is known about porcine Cav1. In this study, we provide the molecular characterization of Cav1 in pigs following stimulation with LPS/polyinosinic-polycytidylic acid as well as during infection with Haemophilus parasuis. The porcine Cav1 gene is 35 kb long and is located at SSC18q21; two isoforms (Cav1-α and Cav1-β) are produced by alternative splicing. Three point mutations were identified in the coding region of the gene, two of which were significantly associated with nine immunological parameters in Landrace pigs, including the Ab response against porcine reproductive and respiratory syndrome virus and lymphocyte counts. Promoter analysis indicated that NF-κB activates both Cav1 transcripts, but the forkhead gene family specifically regulates Cav1-β in the pig. Porcine Cav1 is expressed ubiquitously, with Cav1-α more abundantly expressed than Cav1-β in all tissues investigated. Basal expression levels of Cav1 in PBMCs are relatively similar across different pig breeds. LPS and polyinosinic-polycytidylic acid markedly induced the expression of Cav1 in porcine kidney-15 cells in vitro, likely through NF-κB activation. Pigs infected with H. parasuis exhibited decreased expression of Cav1, particularly in seriously impaired organs such as the brain. This study provides new evidence that supports the use of Cav1 as a potential diagnostic and genetic marker for disease resistance in animal breeding. In addition, our results suggest that Cav1 may be implicated in the pathogenesis of Glasser’s disease, which is caused by H. parasuis.

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Section: Discussionsupporting

confidence: 90%

Molecular Characterization of Caveolin-1 in Pigs Infected with Haemophilus parasuis

Liu

Chen

Tong

et al. 2011

The Journal of Immunology

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“…Other potentially important sequelae of cav-1 deletion may include altered regulation of apoptosis and inflammation as suggested by other recent studies (20,22). These additional functions of cav-1 may be relevant since pulmonary hypertension is associated with endothelial cell-specific apoptosis and considerable vascular inflammation.…”

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confidence: 78%

Caveolin-1: a critical regulator of pulmonary vascular architecture and nitric oxide bioavailability in pulmonary hypertension

Ryter

Choi

2008

American Journal of Physiology-Lung Cellular and Molecular Phys

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CAVEOLAE ARE 50-to 100-nm -shaped invaginations of the cell surface plasma membrane enriched in glycosphingolipids and cholesterol that occur in a variety of cell types including epithelial and endothelial cells, fibroblasts, smooth muscle cells, and adipocytes (1). These structures facilitate endocytosis of particles and participate in vesicular trafficking. Caveolin-1 (cav-1), a 21-to 24-kDa protein, is the major resident scaffolding protein constituent of caveolae (1). In addition to providing the structural integrity of caveolae, cav-1 exerts major regulatory functions on intracellular signaling pathways, in particular, those that originate at the plasma membrane. Cav-1 can form complexes with many signaling-associated proteins that reside in the caveolae, resulting in the modulation and usually inhibition of corresponding enzymatic activities. Among these are the endothelial (constitutive) nitric oxide synthase (eNOS; Ref. 5), heme oxygenase-1 (9), phosphatidylinositol 3-kinase, GTPases, estrogen receptors, the EGF and PDGF receptors, and others (1, 16).The profound involvement of cav-1 in cellular and tissue homeostasis is evident by the aberrant pulmonary and vascular phenotypes observed in cav-1 (cav-1 Ϫ/Ϫ ) animals, among which include hypercellularity in the lungs and heart (2, 4, 17-18). Although cav-1 Ϫ/Ϫ mice are viable, they display a dramatically shortened life span and a distinct loss of caveolae structures (4, 13). Furthermore, cav-1 Ϫ/Ϫ mice exhibit insulin resistance and hyperproliferation of adipose tissue (3). Significant cardiac defects were observed in cav-1 Ϫ/Ϫ mice including increased right ventricular volume and hypertrophy, left ventricular wall thickening, loss of systolic function, and evidence of cardiac fibrosis (2,4,22). The lungs of cav-1 Ϫ/Ϫ mice display a thickening of the parenchyma and alveolar septae resulting from bronchial and alveolar epithelial cell hyperproliferation (12, 17), evidence of endothelial cell proliferation (17), and pulmonary fibrosis (4).Despite systemic hypotension, cav-1 Ϫ/Ϫ animals develop significant pulmonary hypertension and associated increases in pulmonary artery pressure and right ventricular hypertrophy as described in this issue of AJP-Lung by Maniatis et al. (11) and by others (4, 17,23). Endothelial cell-specific reconstitution of cav-1 expression in cav-1 Ϫ/Ϫ mice restored the pulmonary and vascular defects observed in these animals, as evident by the reversal of the pulmonary hypertension and cardiac hypertrophy (12). Alveolar hypercellularity was also partially compensated by cav-1 reconstitution, which inhibited the endothelial cell proliferation (12). These studies illustrate a major role for endothelium-expressed cav-1 in vascular homeostasis, although the importance of this molecule is not limited to endothelial cells.Extensive experimentation with cav-1 Ϫ/Ϫ mice has revealed the critical role of cav-1 in the regulation of signaling processes. Cav-1 Ϫ/Ϫ mice display increased eNOS expression in cardiac tissue, increased eNOS activity i...

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“…For example, caveolin-1 deficient macrophages display impaired phagocytosis [19]. Wang et al [20] demonstrated that caveolin-1 acts as a potent immunomodulatory effecter molecule in murine alveolar and peritoneal macrophages. They showed that caveolin-1 has a protective role for inflammation by suppression of pro-inflammatory cytokine production (TNF-a and IL-6) and augmentation of anti-inflammatory cytokine production (IL-10) [20].…”

Section: Discussionmentioning

confidence: 99%

“…Wang et al [20] demonstrated that caveolin-1 acts as a potent immunomodulatory effecter molecule in murine alveolar and peritoneal macrophages. They showed that caveolin-1 has a protective role for inflammation by suppression of pro-inflammatory cytokine production (TNF-a and IL-6) and augmentation of anti-inflammatory cytokine production (IL-10) [20]. Thus, it is tempting to speculate that caveolin-1 in activated microglia participates in modulation of inflammation in the brain in response to excitotoxic insults.…”

Section: Discussionmentioning

confidence: 99%

Kainic acid induces expression of caveolin-1 in activated microglia in rat brain

Takeuchi

Matsuda

Tooyama

et al. 2013

Folia Histochem Cytobiol.

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Caveolin-1, a major constituent of caveolae, has been implicated in endocytosis, signal transduction and cholesterol transport in a wide variety of cells. In the present study, the expression of caveolin-1 was examined by immunohistochemistry in rat brain with or without systemic injection of kainic acid (KA). Caveolin-1 immunoreactivity was observed in capillary walls in brains of control rats. From one to seven days after KA injection, caveolin-1 immunoreactivity appeared in activated microglia in the cerebral cortex, hippocampus and other brain regions. The strongest immunoreactivity of microglia was seen after 3 days after KA administration. The expression of caveolin-1 was confirmed by RT-PCR and Western blot analysis, respectively. The induction of caveolin-1 expression in microglia activated in response to kainic acid administration suggests its possible role in a modulation of inflammation.

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Caveolin-1 Confers Antiinflammatory Effects in Murine Macrophages via the MKK3/p38 MAPK Pathway

Cited by 143 publications

References 50 publications

Molecular Characterization of Caveolin-1 in Pigs Infected with Haemophilus parasuis

Molecular Characterization of Caveolin-1 in Pigs Infected with Haemophilus parasuis

Caveolin-1: a critical regulator of pulmonary vascular architecture and nitric oxide bioavailability in pulmonary hypertension

Kainic acid induces expression of caveolin-1 in activated microglia in rat brain

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