Freeman Suber scite author profile

Ligands of the endothelial-enriched tunica interna endothelial cell kinase 2 (Tie2) are markedly imbalanced in severe infections associated with vascular leakage, yet regulation of the receptor itself has been understudied in this context. Here, we show that TIE2 gene expression may constitute a novel vascular barrier control mechanism in diverse infections. Tie2 expression declined rapidly in wide-ranging models of leak-associated infections, including anthrax, influenza, malaria, and sepsis. Forced Tie2 suppression sufficed to attenuate barrier function and sensitize endothelium to permeability mediators. Rapid reduction of pulmonary Tie2 in otherwise healthy animals attenuated downstream kinase signaling to the barrier effector vascular endothelial (VE)-cadherin and induced vascular leakage. Compared with wild-type littermates, mice possessing one allele of Tie2 suffered more severe vascular leakage and higher mortality in two different sepsis models. Common genetic variants that influence TIE2 expression were then sought in the HapMap3 cohort. Remarkably, each of the three strongest predicted cis-acting SNPs in HapMap3 was also associated with the risk of acute respiratory distress syndrome (ARDS) in an intensive care unit cohort of 1,614 subjects. The haplotype associated with the highest TIE2 expression conferred a 28% reduction in the risk of ARDS independent of other major clinical variables, including disease severity. In contrast, the most common haplotype was associated with both the lowest TIE2 expression and 31% higher ARDS risk. Together, the results implicate common genetic variation at the TIE2 locus as a determinant of vascular leak-related clinical outcomes from common infections, suggesting new tools to identify individuals at unusual risk for deleterious complications of infection.Tie2 | endothelium | infection | angiopoietin | permeability

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The Inflammatory Response after an Epidermal Burn Depends on the Activities of Mouse Mast Cell Proteases 4 and 5

Younan

Suber

Xing

et al. 2010

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Innate response to self-antigen significantly exacerbates burn wound depth

Suber

Carroll

Moore

2007

Proc. Natl. Acad. Sci. U.S.A.

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A major component of burn injury is caused by additional local damage from acute inflammation. Using a scald burn model in mice, we find that this part of the injury is dependent on recognition of self-antigen by specific natural IgM, leading to activation of the complement system. We propose that the depth of a burn wound is a sum of the thermal energy applied and of the degree of host inflammatory response.complement ͉ natural IgM ͉ trauma ͉ wound physiology

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Effect of Chronic Typical and Atypical Neuroleptic Treatment on Proenkephalin mRNA Levels in the Striatum and Nucleus Accumbens of the Rat

Angulo¹,

Cadet²,

Woolley³

et al. 1990

Journal of Neurochemistry

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We measured proenkephalin (PEK) mRNA levels in the anterior and medial aspects of the caudate-putamen (CPU) and in the nucleus accumbens (NAc) of the rat by in situ hybridization histochemistry after chronic treatment for 21 days with typical (haloperidol and prolixin) and atypical (molindone, thioridazine, and clozapine) neuroleptics. Chronic administration with these drugs resulted in PEK mRNA levels that were 60-80% higher than controls in the anterior and medial aspects of the CPU but only 25-30% over controls in the NAc. All three atypical neuroleptics studied increased PEK mRNA in the following order: anterior-CPU, thioridazine greater than clozapine and molindone; medial-CPU, thioridazine and molindone greater than clozapine; and NAc, thioridazine much greater than molindone and clozapine. Chronic treatment with the specific dopamine D2 antagonist sulpiride also caused elevation in PEK mRNA levels in all three brain regions studied whereas the specific serotonin S2 receptor blocker, cinanserin, had no significant effects on PEK mRNA levels. These results are consistent with the hypothesis that elevated levels of the enkephalins in the mesolimbic system may be necessary for antipsychotic activity. They also support the idea that the undesirable motoric signs and symptoms observed after chronic treatment with typical neuroleptics may not be the result of increased levels of enkephalins in the basal ganglia because atypical neuroleptics which are almost totally devoid of these side effects caused similar increases in PEK mRNA in the CPU.

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Freeman Suber

Gene control of tyrosine kinase TIE2 and vascular manifestations of infections

The Inflammatory Response after an Epidermal Burn Depends on the Activities of Mouse Mast Cell Proteases 4 and 5

Innate response to self-antigen significantly exacerbates burn wound depth

Effect of Chronic Typical and Atypical Neuroleptic Treatment on Proenkephalin mRNA Levels in the Striatum and Nucleus Accumbens of the Rat

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