Dennis Hawisher scite author profile

Background: Sepsis is a major health problem that can be investigated in experimental animal models. Results: Its etiology is divided into an early therapeutically reversible phase displaying a robust inflammatory response followed by a late therapeutically irreversible stage with reduced innate immune response. Conclusion: Mortality is associated with a late immune dysfunction. Significance: This study provides information for the potential window for treatment.

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Isolation and characterization of human urine extracellular vesicles

Liu

Cauvi

Bernardino

et al. 2018

Cell Stress and Chaperones

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Extracellular vesicles (ECV) reflect physiological or pathological conditions, emerging as potential biomarkers for disease. They can be obtained from a variety of body fluids, particularly urine that is an ideal source because it can be obtained in great quantities, recurrently and with minimal intervention. However, the characterization of urine ECV is challenging because the preparation is usually contaminated with soluble proteins, such as uromodulin (UMOD) or Tamm-Horsfall glycoprotein that forms large extracellular filaments co-sedimenting with ECV. We developed a method to obtain human urine ECV free of UMOD by the addition of ZnSO prior to vesicle isolation by differential centrifugation. Treatment with ZnSO did not affect the size and concentration of the vesicle preparation and preserved the storage of the samples at low temperatures. We did not observe a variation in the number of vesicles isolated during different times of the day or different days between different donors. The glycoprotein pattern of urine ECV was characterized by binding to concanavalin A (Con A) and mass spectroscopy. Several markers were found, including dipeptidyl peptidase IV (CD26), vacuolar protein sorting factor 4A (VPS4A) and dipeptidase 1 (DPEP1), and galectin 3 binding protein (G3-BP). The levels of VPS4A and DPEP1 were similar in ECV preparations obtained from several donors of both sexes. Con A binding pattern and monosaccharide composition were also comparable between subjects. In summary, our method for the isolation of highly pure ECV derived from human urine is likely to help in the use of these vesicles as potential biomarkers.

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Early hyperbaric oxygen therapy improves survival in a model of severe sepsis

Halbach

Prieto

Wang

et al. 2019

American Journal of Physiology-Regulatory, Integrative and Comp

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Sepsis is a major clinical challenge, with therapy limited to supportive interventions. Therefore, the search for novel remedial approaches is of great importance. We addressed whether hyperbaric oxygen therapy (HBOT) could improve the outcome of sepsis using an acute experimental mouse model. Sepsis was induced in male CD-1 mice by cecal ligation and puncture (CLP) tailored to result in 80–90% mortality within 72 h of the insult. After CLP, mice were randomized into two groups receiving HBOT or not at different times after the initial insult or subjected to multiple HBOT treatments. HBOT conditions were 98% oxygen pressurized to 2.4 atmospheres for 1 h. HBOT within 1 h after CLP resulted in 52% survival in comparison with mice that did not receive the treatment (13% survival). Multiple HBOT at 1 and 6 h or 1, 6, and 21 h displayed an increase in survival of >50%, but they were not significantly different from a single treatment after 1 h of CLP. Treatments at 6 or 21 h after CLP, excluding the 1 h of treatment, did not show any protective effect. Early HBO treatment did not modify bacterial counts after CLP, but it was associated with decreased expression of TNF-α, IL-6, and IL-10 expression in the liver within 3 h after CLP. The decrease of cytokine expression was reproduced in cultured macrophages after exposure to HBOT. Early HBOT could be of benefit in the treatment of sepsis, and the protective mechanism may be related to a reduction in the systemic inflammatory response.

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Why Antibiotic Treatment Is Not Enough for Sepsis Resolution: an Evaluation in an Experimental Animal Model

et al. 2017

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Sepsis remains a major health problem at the levels of mortality, morbidity, and economic burden to the health care system, a condition that is aggravated by the development of secondary conditions such as septic shock and multiple-organ failure. Our current understanding of the etiology of human sepsis has advanced, at least in part, due to the use of experimental animal models, particularly the model of cecum ligation and puncture (CLP). Antibiotic treatment has been commonly used in this model to closely mirror the treatment of human septic patients. However, whether their use may obscure the elucidation of the cellular and molecular mechanisms involved in the septic response is questionable. The objective of the present study was to determine the effect of antibiotic treatment in the outcome of a fulminant model of CLP. Various dosing strategies were used for the administration of imipenem, which has broad-spectrum coverage of enteric bacteria. No statistically significant differences in the survival of mice were observed between the different antibiotic dosing strategies and no treatment, suggesting that live bacteria may not be the only factor inducing septic shock. To further investigate this hypothesis, mice were challenged with sterilized or unsterilized cecal contents. We found that exposure of mice to sterilized cecal contents also resulted in a high mortality rate. Therefore, it is possible that bacterial debris, apart from bacterial proliferation, triggers a septic response and contributes to mortality in this model, suggesting that additional factors are involved in the development of septic shock.

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Macrophage reprogramming by negatively charged membrane phospholipids controls infection

et al. 2018

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Extracellular vesicles (ECVs) are heterogeneous membrane‐enclosed structures containing proteins, nucleic acids, and lipids that participate in intercellular communication by transferring their contents to recipient cells. Although most of the attention has been directed at the biologic effect of proteins and microRNA, the contribution of phospholipids present in ECVs on cellular activation has not been extensively addressed. We investigated the biologic effect of phosphatidylserine (PS) and phosphatidylcholine (PC), 2 phospholipids highly abundant in ECVs. A transcriptomic analysis revealed that ∼4700 genes were specifically modified by exposing peritoneal macrophages to PS or PC liposomes in vivo. Among them, the expression of several chemokines and cytokines was highly upregulated by PS liposome treatment, translating into a massive neutrophil infiltration of the peritoneum capable of neutralizing a septic polymicrobial insult. Both the l and d stereoisomers of PS induced the same response, suggesting that the effect was related to the negative charge of the phospholipid head. We concluded that an increase in the internal negative charge of the cell triggers a signaling cascade activating an innate immune response capable of controlling infection.—Cauvi, D. M., Hawisher, D., Dores‐Silva, P. R., Lizardo, R. E., De, Maio, A. Macrophage reprogramming by negatively charged membrane phospholipids controls infection. FASEB J. 33, 2995–3009 (2019). http://www.fasebj.org

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Dennis Hawisher

Period of Irreversible Therapeutic Intervention during Sepsis Correlates with Phase of Innate Immune Dysfunction

Isolation and characterization of human urine extracellular vesicles

Early hyperbaric oxygen therapy improves survival in a model of severe sepsis

Why Antibiotic Treatment Is Not Enough for Sepsis Resolution: an Evaluation in an Experimental Animal Model

Macrophage reprogramming by negatively charged membrane phospholipids controls infection

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