Protective Effects of Sphingosine 1-Phosphate in Murine Endotoxin-induced Inflammatory Lung Injury

Peng, Xiaoping; Hassoun, Paul M.; Sammani, Saad; McVerry, Bryan J.; Burne, Melissa J.; Rabb, Hamid; Pearse, David B.; Tuder, Rubin M.; Garcia, Joe G.N.

doi:10.1164/rccm.200309-1258oc

Cited by 469 publications

(465 citation statements)

References 45 publications

(54 reference statements)

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“…Such mechanical ventilation is often combined together with an infectious injury to mimic clinical sepsis-induced ALI, [ 12 ], [ 40 ], [ 42 ], [ 63 ] and [ 64 ] although the direct effect of each challenge is difficult to dissociate. We assumed that high-volume ventilation will cause mechanical stress-related injury and hypothesized that the resulting barrier dysfunction [ 65 ] and [ 66 ] will be exacerbated by increases in EC paracellular gap formation in nmMLCK2 transgenic mice.…”

Section: Discussionmentioning

confidence: 99%

“…Despite the high success rate of embryo survival in hybrid strains, 39 we chose the B6 strain rather than a hybrid strain primarily because inbred strains eliminate ambiguity caused by different genetic backgrounds and segregating markers in the progeny, and secondarily because we are familiar with this strain in terms of their ALI/VALI responses. [ 40 ], [ 41 ] and [ 42 ] The transgene specific primers were J9 (forward; 5′-GTGGCTCCCCTCTCCCCTCCTG-3′) and J30 (reverse; 5′-CTTGGCGGTGGCTCCTTCTTTGAT-3′), which gave a 319-bp product. Mouse β-globin gene-specific primers J18 (forward; 5′-GGCAGCTCACAAGAAGAAGTTGGG-3′) and J19 (reverse; 5′-ATCAAAGTACCGCTGGGTCCAAGG-3′) that amplify a 138-bp band were included in all reactions as positive control.…”

Section: Generation Of Transgenic Micementioning

confidence: 99%

“…The LPS-induced ALI model has been described previously. [ 40 ] and [ 41 ] Briefly, mice were anesthetized with intraperitoneal ketamine (150 mg/kg) and acetylpromazine (15 mg/kg) before the exposure of the trachea and the right internal jugular vein via neck incision. Sterile water (pH 7.0) or LPS (2.5 mg/kg in 50 μL of the same vehicle) were instilled intratracheally via a 20-gauge catheter.…”

Section: Murine Model Of Lps-induced Injurymentioning

confidence: 99%

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A transgenic mouse with vascular endothelial over-expression of the non-muscle myosin light chain kinase-2 isoform is susceptible to inflammatory lung injury: role of sexual dimorphism and age

Moitra

Evenoski

Sammani

et al. 2008

Translational Research

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We have generated genetically engineered mice that are uniquely susceptible to lipopolysaccharide (LPS)-induced and mechanical ventilation-induced lung injury in a sex-specific and age-specific manner. These mice express a nonmuscle isoform of the myosin light chain kinase gene (nmMLCK2) targeted to the endothelium. Homozygous mice have significantly reduced fecundity and litter survival until weaning, and they are initially growth delayed but eventually exceed the size of wildtype littermates. Mice at all ages show increased protein transport across the lung barrier; however, the phenotype is most discernible in 8-12-week-old male mice. When subjected to a clinically relevant LPS-induced lung injury model, 8-12-week-old young females and 30-36-week-old males seem to be the most significantly injured group. In contrast, 30-36-week-old males remain the most significantly injured group when mechanically ventilated at high tidal volumes, which is a clinically relevant model of mechanical stress lung injury. These data reveal that nmMLCK2 overexpression in the endothelium exacerbates lung injury in vivo in a sexually dimorphic and age-dependent manner.Actin microfilaments generate force by virtue of their ability to contract away from their site of attachment to the plasma membrane, and they do so via traction of the myosin light chain head groups attached to actin filaments by cross-bridges. The cross-bridge pulling action of myosin involves a conformational change in the molecule initiated by energetic phosphorylation of Ser19 on the myosin light chains. 1 The key enzyme involved in this phosphorylation event is myosin light chain kinase (MLCK), which exists in different tissues, and it may be characterized broadly as skeletal/cardiac, smooth muscle, and nonmuscle myosin light chain kinase (nmMLCK) isoforms. Although biochemical evidence for the existence of a Ca 2+ /calmodulin-dependent nonmuscle isoform in cultured endothelial cell (EC) was suggested earlier, [ 2 ] and [ 3 ] the controversy as to whether this enzymatic activity is identical to the 110-kDa protein found abundantly in smooth muscle preparations was resolved when we provided conclusive proof of a larger MLCK protein isoform (210 kDa) by cloning the gene (MYLK) from a human EC-derived cDNA library. 4 The gene was subsequently mapped to chromosome 3q21. 5

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Section: Discussionmentioning

confidence: 99%

Section: Generation Of Transgenic Micementioning

confidence: 99%

Section: Murine Model Of Lps-induced Injurymentioning

confidence: 99%

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A transgenic mouse with vascular endothelial over-expression of the non-muscle myosin light chain kinase-2 isoform is susceptible to inflammatory lung injury: role of sexual dimorphism and age

Moitra

Evenoski

Sammani

et al. 2008

Translational Research

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“…Next, we filtered the expression data by selecting those genes with significant (p Ͻ 0.05) unidirectional expression in response to mechanical stress across species, thereby further narrowing the list of potential targets to 141 genes. Finally, we excluded all genes that did not achieve at least a 1.35-fold change in expression, a filtering event which resulted in a final list of 69 VALI candidate genes (19). Figure 2 depicts this filtering approach used for the generation of a robust candidate gene list, which included data derived from a total of 25 Affymetrix chips.…”

Section: Cross-species Gene Expression Profiling and Identification Omentioning

confidence: 99%

“…Two canine models of ALI were used: a model of unilateral saline lavage-induced lung injury with subsequent high-volume mechanical ventilation (17), and a model of intrabronchially delivered endotoxin (LPS) followed by conventional mechanical ventilation (18). Two murine ALI models were also used: a model of intratracheal LPS alone and a second model with 2 h of high-volume mechanical ventilation (17 ml/kg) as the primary insult as we recently described (18,19). Control groups for canine and murine models were allowed to ventilate spontaneously.…”

Section: Cross-species Gene Expression Profiling and Identification Omentioning

confidence: 99%

Functional Genomic Insights into Acute Lung Injury: Role of Ventilators and Mechanical Stress

Nonas

Finigan

Gao

et al. 2005

Proceedings of the American Thoracic Society

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Acute lung injury (ALI) is a complex and devastating illness, often occurring in the setting of sepsis and trauma. Despite recent advances in the understanding and treatment of ALI, pathogenic mechanisms and genetic modifiers in ALI remain incompletely understood. Furthermore, there has been increasing interest in the identification of genetic variations that contribute to ALI susceptibility and severity in order to gain unique insights into ALI pathogenesis and to design novel treatment strategies. However, the sporadic nature of ALI and the lack of family-based cohort studies preclude conventional genomic approaches such as linkage mapping (or "positional cloning"). We have used a "candidate gene approach" with extensive gene expression profiling studies in animal (rat, murine, canine) and human models of ALI to identify potential ALI candidate genes associated with sepsis and ventilator-associated lung injury. These studies, when combined with innovative in silico bioinformatics approaches, revealed both novel (pre-B-cell colony enhancing factor, myosin light chain kinase) and previously identified (interleukin 6, macrophage migration inhibitory factor) gene candidates. Subsequent single nucleotide polymorphism discovery and genotyping studies revealed polymorphisms that demonstrate an influence on ALI susceptibility in patients. These studies indicate that the candidate gene approach is a robust strategy to provide novel insights into the genetic basis of ALI, and the identification of potentially novel therapeutic targets.Keywords: single nucleotide polymorphism; interleukin 6; pre-B-cell colony enhancing factor Acute lung injury (ALI) is a common and devastating illness in patients with sepsis, pneumonia, or trauma, and carries an annual mortality rate of 30 to 50% (1). Marked by profound inflammation, increased vascular permeability, and alveolar flooding, the acute respiratory failure that is associated with ALI invariably requires mechanically assisted ventilation. Despite advances in care for patients with ALI, the development of sophisticated hemodynamic monitoring technologies, and new insights into the pathogenesis underlying sepsis and ALI, there remains a significant gap in the full translation of this progress into increased ALI survival (2). Furthermore, improved understanding of ALI at both the molecular and population level has not reconciled the heterogeneity in patient susceptibility to ALI or ALI outcomes. Until recently, studies focused on understanding the molecular basis of complex disorders such as ALI were limited to a gene-by-gene approach. However, the capacity for high-throughput sequencing coupled with the mapping of the human genome heralded additional revolutionary technologic breakthroughs with tools for a large-scale analysis of the genome, including rapid, high-throughput gene expression profiling and genotyping (3, 4). Access to the complete genome sequences of prokaryotes, eukaryotic model organisms, as well as the mouse, rat, and dog has sparked efforts to identify specific...

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Lysophospholipid Regulation of Lung Fibrosis

Shea¹,

Tager²

2013

Lysophospholipid Receptors

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Protective Effects of Sphingosine 1-Phosphate in Murine Endotoxin-induced Inflammatory Lung Injury

Cited by 469 publications

References 45 publications

A transgenic mouse with vascular endothelial over-expression of the non-muscle myosin light chain kinase-2 isoform is susceptible to inflammatory lung injury: role of sexual dimorphism and age

A transgenic mouse with vascular endothelial over-expression of the non-muscle myosin light chain kinase-2 isoform is susceptible to inflammatory lung injury: role of sexual dimorphism and age

Functional Genomic Insights into Acute Lung Injury: Role of Ventilators and Mechanical Stress

Lysophospholipid Regulation of Lung Fibrosis

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