Your search keyword '"Lentsch, Alex B."' showing total 85 results

1. Regulatory Mechanisms of Injury and Repair after Hepatic Ischemia/Reperfusion.

Author

Lentsch, Alex B.

Subjects

*REPERFUSION injury, *LIVER surgery, *LIVER transplantation, *SURGICAL complications, *CELL physiology, *REGENERATION (Biology)

Abstract

Hepatic ischemia/reperfusion injury is an important complication of liver surgery and transplantation. The mechanisms of this injury as well as the subsequent reparative and regenerative processes have been the subject of thorough study. In this paper, we discuss the complex and coordinated responses leading to parenchymal damage after liver ischemia/reperfusion as well as the manner in which the liver clears damaged cells and regenerates functional mass. [ABSTRACT FROM AUTHOR]

Published

2012

2. Spermidine/spermine-N1-acetyltransferase ablation protects against liver and kidney ischemia-reperfusion injury in mice.

Author

Zahedi, Kamyar, Lentsch, Alex B., Okaya, Tomohisa, Barone, Sharon, Sakai, Nozomu, Witte, David P., Arend, Lois J., Alhonen, Leena, Jell, Jason, Jänne, Juhani, Porter, Carl W., and Soleimani, Manoocher

Subjects

*SPERMIDINE, *ACETYLTRANSFERASES, *LABORATORY mice, *POLYAMINES, *RENAL artery, *PUTRESCINE

Abstract

Expression of spermine/spermidine-N1 -acetyltransferase (SSAT), the rate-limiting enzyme of polyamine backconversion cascade, increases after ischemia-reperfusion injuries (IRI). We hypothesized that SSATplays an important role in the mediation of IRI. To test our hypothesis, wild-type (SSAT-wt) and SSAT-deficient (SSAT-ko) mice were subjected to liver or kidney IRI by ligation of hepatic or renal arteries. The liver and kidney content of putrescine (Put), a downstream by-product Of SSAT activity, increased in SSAT-wt animals but not in SSAT-ko animals after IRI, indicating that polyamine backconversion is not functional in SSAT-deficient mice. When subjected to hepatic IRI, SSAT-ko mice were significantly protected against liver damage compared with SSAT-wt mice. Similarly, .SSAT-ko animals subjected to renal IRl showed significantly greater protection against damage to kidney tubules than SSAT-wt mice. These studies indicate that SSAT-deficient animals are protected against IRI and suggest that SSAT is an important mediator of the tissue damage in IRI. [ABSTRACT FROM AUTHOR]

Published

2009

3. Hepatic expression of S32A/S36A IκBα does not reduce postischemic liver injury

Author

Okaya, Tomohisa and Lentsch, Alex B.

Subjects

*ISCHEMIA, *LIVER, *WOUNDS & injuries, *INFLAMMATION

Abstract

Background: Activation of the transcription factor, NF-κB, during hepatic ischemia/reperfusion injury is associated with proinflammatory mediator expression and is thought to be one of the initial triggers for the inflammatory response after reperfusion. In the current study, we sought to determine whether in vivo adenoviral transfection of a mutant inhibitor of κB-alpha (IκBα), which cannot be serine phosphorylated or degraded (IκBαSR), would inhibit NF-κB and ameliorate the hepatic inflammatory response to ischemia/reperfusion. Materials and methods: Male C57BL/6 mice were subjected to sham surgery or partial hepatic ischemia (90 min) and reperfusion (up to 8 h). Mice were infected with 1 × 109 PFU of adenovirus containing either β-galactosidase (LacZ) or IκBαSR 3 days prior to induction of ischemia. Serum and tissues were obtained at various times for analysis. Results: In unmanipulated mice, degradation of IκBα, as occurs after serine phosphorylation, was evident in liver by the end of ischemia and during early reperfusion. Mice transfected with IκBαSR displayed the same degree of inflammation and hepatocellular injury as LacZ-transfected mice. There was no difference between LacZ- and IκBαSR-transfected livers in terms of NF-κB activation or proinflammatory cytokine production. Conclusions: The data demonstrate that the pathway of NF-κB activation involving serine phosphorylation of IκBα is not the primary mechanism for induction of liver inflammation after ischemia/reperfusion and suggest that alternative pathways, such as tyrosine phosphorylation of IκBα, may be essential for the postischemic response in liver. [Copyright &y& Elsevier]

Published

2005

4. Progressive dysregulation of transcription factors NF-κB and STAT1 in prostate cancer cells causes proangiogenic production of CXC chemokines.

Author

Hui Shen and Lentsch, Alex B.

Subjects

*CHEMOKINES, *PROSTATE cancer, *NEOVASCULARIZATION, *NF-kappa B, *CANCER cells, *CELLULAR pathology

Abstract

The CXC chemokine family includes members that possess angiogenic and angiostatic properties. Angiogenic CXC chemokines are produced by prostate cancer cells and contribute to prostate tumor growth. Production of angiostatic CXC chemokines by prostatic cells has not been previously studied. Here we show that normal prostate epithelial (PZ-HPV-7) cells produce low amounts of angiogenic CXC chemokines, whereas prostate cancer cells from primary (CA-HPV-10) and metastatic (PC-3) tumors produce progressively greater amounts. These effects were caused by progressive increases in activation of the transcription factor nuclear factor-κB in prostate cancer cells. Conversely, PZHPV-7 cells produced relatively high levels of angiostatic CXC chemokines, whereas CA-HPV-10 and PC-3 cells produced stepwise lower amounts. These effects were dependent on reduced activation of signal transduction and activator of transcription 1 (STAT1) in prostate cancer cells. These data suggest that there is progressive dysregulation of nuclear factor-κB and STAT1 in prostate cancer cells that leads to proangiogenic production of CXC chemokines. [ABSTRACT FROM AUTHOR]

Published

2004

5. Peroxisome proliferator-activated receptor-α regulates postischemic liver injury.

Author

Okaya, Tomohisa and Lentsch, Alex B.

Subjects

*PEROXISOMES, *TRANSCRIPTION factors, *INFLAMMATION, *LIVER physiology, *REPERFUSION injury, *LABORATORY mice

Abstract

Peroxisome proliferator-activated receptor-α (PPARα) is a transcription factor that in some in vitro systems has been linked with downregulation of proinflanunatory mediators, thus implicating a potential role for PPARα in the regulation of inflammatory processes. Hepatic ischemia-reperfusion injury is characterized by an intense acute inflammatory response that is dependent on a number of proinflammatory mediators. PPARα is abundantly expressed in hepatic parenchymal cells but not in Kupffer cells. This study examined whether PPARα is involved in regulation of the hepatic inflammatory response to ischemia-reperfusion. Mice nullizygous for PPARα had significantly greater liver injury than did their wild-type counterparts. Consistent with these findings, C57BL/6 mice treated with the PPARα agonist, WY-14643, had significantly less liver injury than mice receiving vehicle. PPARα-knockout mice also had greatly augmented liver neutrophil accumulation and modest increases in activation of the transcription factors NF-κB and activator protein-1. However, these effects were not associated with increased expression of proinflammatory cytokines or chemokines. In addition, PPARa-knockout mice expressed far less inducible nitric oxide synthase in liver than did wild-type mice after ischemia-reperfusion. Finally, treatment of cultured murine hepatocytes with WY-14643, a specific agonist of PPARα, protected cells against oxidant-induced injury. The data suggest that PPARα is an important regulator of the hepatic inflammatory response to ischemia-reperfusion in a manner that is independent of proinflammatory cytokines. [ABSTRACT FROM AUTHOR]

Published

2004

6. Cytokine Cascades and the Hepatic Inflammatory Response to Ischemia and Reperfusion.

Author

Okaya, Tomohisa and Lentsch, Alex B.

Subjects

*LIVER injuries, *ISCHEMIA, *REPERFUSION injury, *CYTOKINES

Abstract

Ischemia/reperfusion injury of the liver has two distinct phases that contribute to hepatocyte damage. The acute phase is characterized by Kupffer cell production of reactive oxygen species, which resuits in moderate hepatocyte injury. The later phase includes an intricate cascade of inflammatory events culminating in neutrophil infiltration of the postischemic liver. Accumulated neutrophils cause substantial injury to hepatocytes through their release of oxidants and proteases. This review discusses the mechanisms by which this inflammatory response is initiated, propagated, and regulated and the impact of these pathways on neutrophil-dependent injury to the liver. [ABSTRACT FROM AUTHOR]

Published

2003

7. Augmented metalloproteinase activity and acute lung injury in copper-deficient rats.

Author

Lentsch, Alex B., Kato, Atsushi, Saari, Jack T., and Schuschke, Dale A.

Subjects

*COPPER in animal nutrition, *IMMUNOGLOBULIN G, *TUMOR necrosis factors, *NEUTROPHILS

Abstract

Investigates the effects of dietary copper deficiency on acute lung injury induced by intrapulmonary deposition of immunoglobulin G immune complexes in copper-deficient rats. Pulmonary production of tumor necrosis factor-alpha; Stimulation of other inflammatory pathways that facilitate the recruitment of neutrophils from the vascular compartment into the lung parenchyma and airspaces; Mediation of lung injury by oxidants and proteases released by neutrophils.

Published

2001

8. Augmented metalloproteinase activity and acute lung injury in copper-deficient rats.

Author

Lentsch, Alex B., Kato, Atsushi, Saari, Jack T., and Schuschke, Dale A.

Subjects

*HYPOCUPREMIA, *IMMUNOGLOBULINS, *LUNG injuries, *EXTRACELLULAR matrix proteins

Abstract

Presents a study that examined the effects of copper deficiency on the lung inflammatory response to intrapulmonary deposition of immunoglobulin (IgG) immune complexes. Establishment of copper deficiency; Effects of copper deficiency on IgG immune complex-induced lung injury; Effects of copper deficiency on matrix metalloproteinase activity and expression.

Published

2001

9. Interleukin-2-induced hepatic injury involves temporal patterns of cell adhesion in the...

Author

Lentsch, Alex B. and Miller, Frederick N.

Subjects

*INTERLEUKIN-2, *LIVER injuries, *PHYSIOLOGY

Abstract

Presents a study that determines the cellular mechanism of interleukin-2 (IL-2) induced hepatic injury. Leukocyte and platelet-endothelial adhesion; Microvascular thrombosis; Hepatic perfusion and injury; Cytokines; Inflammation.

Published

1997

10. Interleukin-2-induced hepatic injury involves temporal patterns of cell adhesion in the...

Author

Lentsch, Alex B. and Miller, Frederick N.

Subjects

*CELL adhesion, *INTERLEUKIN-2

Abstract

Studies the cellular mechanisms of interleukin-2-induced hepatic injury. Direct observation of the murine hepatic microcirculation; Decreases in sinusoidal perfusion and development of hepatic edema; Serum levels of glutamate pyruvate transaminase.

Published

1997

11. Liver repair and regeneration after ischemia-reperfusion injury is associated with prolonged fibrosis.

Author

Takanori Konishi, Schuster, Rebecca M., and Lentsch, Alex B.

Subjects

*LIVER cells, *LIVER regeneration, *SPARE parts, *FIBROSIS, *MYOFIBROBLASTS

Abstract

Liver recovery after hepatic ischemia-reperfusion (I/R) injury is characterized by clearance of dead tissue and its replacement with functional liver parenchyma. Previous reports have observed fibrosis after liver I/R. To determine whether liver fibrosis after I/R was a pathologic consequence of the injury response, we assessed the development of liver fibrosis after I/R and its impact on subsequent insult. A murine model of partial I/R was used to induce liver injury and study the reparative response. During liver remodeling after I/R, expression of the profibrotic genes increased in the ischemic liver. Histologically, α-smooth muscle actin (-SMA)-positive hepatic stellate cells (HSCs)/myofibroblasts increased, and collagen deposition was enhanced along the injured site. Selective staining experiments showed that HSCs, not portal fibroblasts, were the major source of myofibroblasts. During liver repair after I/R, liver fibrosis was readily observed at the interface between necrotic tissue and regenerating liver in association with HSCs/myofibroblasts. The number of HSCs/myofibroblasts decreasing shortly after the full resolution of necrotic injury and restoration are normal liver architecture. However, liver fibrosis persisted for several more weeks before gradually resolving. Resolution of liver fibrosis was accompanied by upregulated expression of matrix metalloproteinase-13. After resolution of fibrosis, the administration of CCl4 did not result in exacerbated liver injury, suggesting that I/R injury does not predispose the liver to future fibrotic insults. The data suggest that liver fibrosis is a component of tissue repair after I/R, is caused by myofibroblasts derived from HSC, and does not increase susceptibility of the liver to subsequent hepatic injury. [ABSTRACT FROM AUTHOR]

Published

2019

12. Proliferation of hepatic stellate cells, mediated by YAP and TAZ, contributes to liver repair and regeneration after liver ischemia-reperfusion injury.

Author

Takanori Konishi, Schuster, Rebecca M., and Lentsch, Alex B.

Subjects

*KUPFFER cells, *CELL proliferation, *LIVER regeneration

Abstract

Yes-associated protein (YAP) and transcriptional coactivator with PDZ-binding motif (TAZ) are key regulators of cell proliferation and organ size; however, their physiological contribution after liver injury has not been fully understood. In this study, we sought to determine the role of YAP and TAZ during liver recovery after ischemia-reperfusion (I/R). A murine model of partial (70%) I/R was used to induce liver injury and study the reparative and regenerative response. After liver injury, there was marked activation and proliferation of hepatic stellate cells. The Hippo pathway components, large tumor suppressor 1 (LATS1) and its adapter protein, Mps one binder 1 (MOB1), were inactivated during liver repair, and YAP and TAZ were activated selectively in hepatic stellate cells. Concurrently, the expression of connective tissue growth factor and survivin, both of which are YAP and TAZ target genes, were upregulated. Hepatic stellate cell expansion and concomitant activation of YAP and TAZ occurred only in the injured liver and were not observed in the nonischemic liver. Treatment of mice with verteporfin, an inhibitor of YAP and TAZ, decreased hepatic stellate cell proliferation, survivin, and cardiac ankyrin repeat protein expression. These changes were associated with a significant decrease in hepatocyte proliferation. The data suggest that liver repair and regeneration after I/R injury are dependent on hepatic stellate cell proliferation, which is mediated by YAP and TAZ. [ABSTRACT FROM AUTHOR]

Published

2018

13. Ceramide in cystic fibrosis.

Author

Ziobro, Regan M, Henry, Brian D, Lentsch, Alex B, Edwards, Michael J, Riethmüller, Joachim, and Gulbins, Erich

Subjects

*CYSTIC fibrosis, *GENETIC mutation, *EPITHELIAL cells, *DISEASE susceptibility, *INFLAMMATION

Abstract

Cystic fibrosis (CF), the most common autosomal recessive disorder, at least in western countries, is caused by mutations of CFTR. The disease affects the intestine, the pancreas and the liver, but most important for life quality and expectance of CF patients are alterations in lung functions. The present review describes a novel pathway to explain many aspects of the pathogenesis of CF: ceramide accumulates in bronchial, tracheal and intestinal epithelial cells, and causes pulmonary inflammation, infection susceptibility, peribronchial collagen deposition and cell death, with the consequence of DNA release into the bronchial lumen and concomitant reduction of mucociliary clearance. All of these pathophysiological events are corrected by the normalization of pulmonary ceramide. Phase IIa and IIb clinical studies indicate a beneficial effect of a pharmacological inhibition of acid sphingomyelinase on lung functions in patients with CF. [ABSTRACT FROM AUTHOR]

Published

2013

14. Traumatic Brain Injury and Aeromedical Evacuation: When is the Brain Fit to Fly?

Author

Goodman, Michael D., Makley, Amy T., Lentsch, Alex B., Barnes, Stephen L., Dorlac, Gina R., Dorlac, Warren C., Johannigman, Jay A., and Pritts, Timothy A.

Subjects

*BRAIN injuries, *BLAST injuries, *MILITARY personnel's injuries, *AIRPLANE evacuation, *INFLAMMATION, *MILITARY hospitals

Abstract

Background: To review the inflammatory sequelae of traumatic brain injury (TBI) and altitude exposure and discuss the potential impact of aeromedical evacuation (AE) on this process. Methods: Literature review and expert opinion regarding the inflammatory effects of TBI and AE. Results: Traumatic brain injury has been called the signature injury of the current military conflict. As a result of the increasing incidence of blast injury, TBI is responsible for significant mortality and enduring morbidity in injured soldiers. Common secondary insults resulting from post-traumatic cerebral inflammation are recognized to adversely impact outcome. AE utilizing Critical Care Air Transport Teams has become a standard of care practice following battlefield injury, to quickly and safely transport critically injured soldiers to more sophisticated echelons of care. Exposure to the hypobaric conditions of the AE process may impose an additional physiologic risk on the TBI patient as well as a “second hit” inflammatory stimulus. Conclusions: We review the known inflammatory effects of TBI and altitude exposure and propose that optimizing the post-traumatic inflammatory profile may assist in determining an ideal time to fly for head-injured soldiers. [ABSTRACT FROM AUTHOR]

Published

2010

15. The University of Cincinnati College of Medicine Department of Surgery.

Author

LEWIS, JAIME D., PRITTS, TIMOTHY A., LENTSCH, ALEX B., and EDWARDS, MICHAEL J.

Subjects

*ACADEMIC departments, *SURGICAL education, *MEDICAL education, *UNIVERSITY faculty

Abstract

The article profiles the Department of Surgery of the University of Cincinnati College of Medicine in Ohio. The primary goals of the Department as of 2009 include providing comprehensive surgical services, training the next generation of surgical leaders and providing leadership in ensuring surgical health care for the city. The education being provided for medical students and residents by the department is described. Its current faculty members are introduced, with Doctor Michael Edwards as the chairman.

Published

2009

16. Roles of nuclear factor-κB in postischemic liver.

Author

Shin, Thomas, Kuboki, Satoshi, and Lentsch, Alex B.

Subjects

*NF-kappa B, *REACTIVE oxygen species, *LIVER diseases, *REPERFUSION injury, *ISCHEMIA, *NECROSIS

Abstract

Hepatic ischemia/reperfusion (I/R) results in a chain of events that culminate in liver dysfunction and injury. I/R injury is characterized by early oxidant stress followed by an intense acute inflammatory response that involves the transcription factor nuclear factor (NF)-κB. In addition to being a primary regulator of pro-inflammatory gene expression, NF-κB may play other roles in the hepatic response to I/R, such as mediating the expression of anti-apoptotic genes, preventing the accumulation of damaging reactive oxygen species, facilitating liver regeneration, and mediating the protective effects of ischemic preconditioning. In the present study, we review the diverse functions of NF-κB during hepatic I/R injury. [ABSTRACT FROM AUTHOR]

Published

2008

17. Selectin Inhibition Modulates NF-κ B and AP-1 Signaling After Liver Ischemia/Reperfusion.

Author

Toledo-Pereyra, Luis H., Lopez-Neblina, Fernando, Lentsch, Alex B., Anaya-Prado, Roberto, Romano, Suzanne J., and Ward, Peter A.

Subjects

*LIVER disease diagnosis, *ISCHEMIA, *HISTOLOGY, *LIVER function tests, *NEUTROPHILS

Abstract

The infiltration of neutrophils after ischemia and reperfusion (I/R) is facilitated by the expression of adhesion molecules on the surface of both leukocytes and endothelial cells. Adhesion molecules of the selectin family are of particular importance at the onset of neutrophil mediated injury, as demonstrated by the occurrence of many cellular interactions with the final extravasation of inflammatory leukocytes at the site of I/R damage. Previous studies demonstrated a prevention of neutrophil extravasation and protection of ischemic damage when a small anti-selectin molecule was used. In this study, we tested a new small anti-selectin compound (OC-229) in a murine model of partial hepatic I/R. The aim of this study was to determine the effect of OC-229 on liver function and histology after I/R and to evaluate its role in the modulation of the inflammatory molecular signaling pathways of NF-κ B and AP-1 under the same experimental condition. Mice subjected to 90 min of partial (70–80%) hepatic ischemia and 3 h of reperfusion were divided into three groups ( n = 9/group): sham, ischemic control, and treated group, which received 25 mg/kg of the anti-selectin small molecule OC-229. These groups were studied when the treatment was given at the time of reperfusion (no pretreatment was given). The parameters measured at 3 h of reperfusion included liver function tests (ALT and AST), liver histology, and liver tissue electrophoretic mobility shift assay (EMSA) for NF-κ B and AP-1. It was demonstrated that the multiselectin inhibitor OC-229 offered significant protection for the ischemic liver when given at 25 mg/kg at the time of reperfusion. ALT and AST serum levels significantly decreased when the ischemic control and the group receiving OC-229 were compared ( p = .01). Treated animals demonstrated better histological findings as well. The EMSA showed dissociation of NF-κ B and AP-1 activity in the liver nuclear extracts after selectin inhibition treatment. A reduction in the activity of AP-1 and an increment in NF-κ B activation was seen. In this work, we obtained evidence that the small-molecule selectin inhibitor OC-229 offered functional and histological protection of the ischemic liver when given at 25 mg/kg at the time for reperfusion. There was dissociation in the activation signals of NF-κ B and AP-1. Increase in NF-κ B and reduction of the activation of AP-1 were noted at 3 h of reperfusion. [ABSTRACT FROM AUTHOR]

Published

2006

18. Gene deletion of NF-κB p50 does not alter the hepatic inflammatory response to ischemia/reperfusion

Author

Kato, Atsushi, Edwards, Michael J., and Lentsch, Alex B.

Subjects

*LIVER injuries, *INFLAMMATION, *NEUTROPHILS, *CYTOKINES

Abstract

Background/Aims: Nuclear factor κB (NF-κB) is a primary regulator of gene expression and is activated during hepatic ischemia/reperfusion injury. The objective of the present study was to determine whether activation of NF-κB is causally related to the induction of the acute inflammatory response induced by hepatic ischemia/reperfusion.Methods: Wild-type (p50+/+) and NF-κB p50-deficient (p50−/−) mice underwent hepatic ischemia/reperfusion. NF-κB activation was determined by electrophoretic mobility shift assay. Hepatic neutrophil accumulation was measured by liver myeloperoxidase content. Hepatocellular injury was assessed by serum level of alanine aminotransferase and liver histology.Results: In p50+/+ mice, ischemia/reperfusion induced marked activation of NF-κB consisting of p50/p65 heterodimers. In contrast, NF-κB activation in livers from p50−/− mice was abrogated, but p65 was observed in nuclear extracts. Despite amelioration of NF-κB activation there was no significant difference between p50+/+ and p50−/− mice in expression of TNFα and MIP-2, liver accumulation of neutrophils or hepatocellular injury.Conclusions: Gene deletion of NF-κB p50 does not alter the hepatic inflammatory response to ischemia/reperfusion. Despite abrogation of DNA-binding by the NF-κB p50/p65 complex, p65 was still observed in nuclear extracts suggesting that there may be functional redundancy amongst members of the Rel protein family in order to preserve the inflammatory response. [Copyright &y& Elsevier]

Published

2002

19. Ischemia/Reperfusion Injury

Author

Anaya-Prado, Roberto, Toledo-Pereyra, Luis H., Lentsch, Alex B., and Ward, Peter A.

Published

2002

20. Microvesicles from stored red blood cells induce P-selectin and von Willebrand factor release from endothelial cells via a protein kinase C-dependent mechanism.

Author

Sisak, Stephanie, Chae, Ryan C., Nelson, Kamala E., Schuster, Rebecca M., Perez, Emma C., England, Lisa G., Caldwell, Charles C., Lentsch, Alex B., Goodman, Michael D., and Pritts, Timothy A.

Subjects

*ERYTHROCYTES, *VON Willebrand factor, *ENDOTHELIAL cells, *PROTEIN kinases, *PROTEIN kinase C, *RADIOGRAPHIC contrast media, *DESMOPRESSIN

Abstract

The use of packed red blood cells (pRBCs) for resuscitation is limited by the red blood cell storage lesion, a series of biochemical and physiological changes that occur during the storage and aging of blood. Microvesicles (MVs) shed from pRBCs during this process are one component of the red blood cell storage lesion and lead to acute lung injury and pulmonary vascular microthrombi. We hypothesized that MVs from stored pRBCs lead to the release of P-selectin and von Willebrand factor (vWF) from endothelial cells and that this mechanism is mediated via activation of protein kinase C (PKC) or protein kinase A (PKA). Leukoreduced, platelet-poor murine pRBCs were isolated from C57BL/6 8–12 week-old male mice via cardiac puncture, prepared via centrifugation using a Ficoll gradient, and stored for up to 14 days, the equivalent of 42 days of storage in humans. MVs were isolated from the stored pRBC units via sequential high-speed centrifugation. Murine lung endothelial cells (MLECs) were cultured and grown to confluence, then treated with MVs and either calphostin C, a PKC inhibitor (10 μg/mL), or PKI 14–22 amide, a PKA inhibitor (10 μM). The supernatant was collected after 1 h. P-selectin and vWF A2 concentrations were quantified via ELISA. Immunofluorescent staining for vWF was performed on MLECs. Statistical analysis was performed via unpaired t-test or ANOVA as indicated and reported as mean ± SD. Concentration is reported as pg/mL. MLECs treated with MVs isolated from stored pRBCs demonstrated increased release of P-selectin and vWF A2 in a dose-dependent fashion. MLECs treated with MVs prepared from stored as compared to fresh pRBCs demonstrated increased release of P-selectin (3751 ± 726 vs 359 ± 64 pg/mL, p < 0.0001) and vWF A2 (3141 ± 355 vs 977 ± 75 pg/mL, p < 0.0001) with increasing duration of storage. The treatment of MVs with calphostin C decreased the amount of P-selectin (1471 ± 444 vs 3751 ± 726 pg/mL, p < 0.0001) and VWF A2 (2401 ± 289 vs 3141 ± 355 pg/mL, p = 0.0017) released into the supernatant by MLECs compared to MVs alone. The treatment of MVs with PKI 14–22 increased the amount of P-selectin released compared to MVs alone (1999 ± 67 vs 1601 ± 135 pg/mL, p = 0.0018). MVs from stored pRBCs stimulate the release of P-selectin and VWF A2 from endothelial cells. The effect of MVs increases with both dose of MVs and age of stored pRBCs from which they are formed. This mechanism is dependent on activation of PKC and inhibition of this enzyme represents a potentially significant strategy to modulate the inflammatory response to resuscitation with stored pRBCs. [ABSTRACT FROM AUTHOR]

Published

2024

21. Direct Peritoneal Resuscitation Improves Survival in a Murine Model of Combined Hemorrhage and Burn Injury.

Author

Jung, Andrew D, Friend, Lou Ann, Stevens-Topie, Sabre, Schuster, Rebecca, Lentsch, Alex B, Gavitt, Brian, Caldwell, Charles C, and Pritts, Timothy A

Subjects

*HEMORRHAGIC shock, *MACROPHAGE inflammatory proteins, *SYSTOLIC blood pressure, *TUMOR necrosis factors, *ERYTHROCYTES, *BODY surface area, *HEMORRHAGIC shock treatment, *BIOLOGICAL models, *RESEARCH, *BURNS & scalds, *ANIMAL experimentation, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *RATS, *COMPARATIVE studies, *RESUSCITATION, *MICE, *DISEASE complications

Abstract

Introduction: Combined burn injury and hemorrhagic shock are a common cause of injury in wounded warfighters. Current protocols for resuscitation for isolated burn injury and isolated hemorrhagic shock are well defined, but the optimal strategy for combined injury is not fully established. Direct peritoneal resuscitation (DPR) has been shown to improve survival in rats after hemorrhagic shock, but its role in a combined burn/hemorrhage injury is unknown. We hypothesized that DPR would improve survival in mice subjected to combined burn injury and hemorrhage.Materials and Methods: Male C57/BL6J mice aged 8 weeks were subjected to a 7-second 30% total body surface area scald in a 90°C water bath. Following the scald, mice received DPR with 1.5 mL normal saline or 1.5 mL peritoneal dialysis solution (Delflex). Control mice received no peritoneal solution. Mice underwent a controlled hemorrhage shock via femoral artery cannulation to a systolic blood pressure of 25 mm Hg for 30 minutes. Mice were then resuscitated to a target blood pressure with either lactated Ringer's (LR) or a 1:1 ratio of packed red blood cells (pRBCs) and fresh frozen plasma (FFP). Mice were observed for 24 hours following injury.Results: Median survival time for mice with no DPR was 1.47 hours in combination with intravascular LR resuscitation and 2.08 hours with 1:1 pRBC:FFP. Median survival time significantly improved with the addition of intraperitoneal normal saline or Delflex. Mice that received DPR followed by 1:1 pRBC:FFP required less intravascular volume than mice that received DPR with LR, pRBC:FFP alone, and LR alone. Intraperitoneal Delflex was associated with higher levels of tumor necrosis factor alpha and macrophage inflammatory protein 1 alpha and lower levels of interleukin 10 and intestinal fatty acid binding protein. Intraperitoneal normal saline resulted in less lung injury 1 hour postresuscitation, but increased to similar severity of Delflex at 4 hours.Conclusions: After a combined burn injury and hemorrhage, DPR leads to increased survival in mice. Survival was similar with the use of normal saline or Delflex. DPR with normal saline reduced the inflammatory response seen with Delflex and delayed the progression of acute lung injury. DPR may be a valuable strategy in the treatment of patients with combined burn injury and hemorrhage. [ABSTRACT FROM AUTHOR]

Published

2020

22. IFNγ and TNFα mediate CCL22/MDC production in alveolar macrophages after hemorrhage and resuscitation.

Author

Beckmann, Nadine, Sutton, Jeffrey M., Hoehn, Richard S., Jernigan, Peter L., Friend, Lou Ann, Johanningman, Taylor A., Schuster, Rebecca M., Lentsch, Alex B., Caldwell, Charles C., and Pritts, Timothy A.

Subjects

*ALVEOLAR macrophages, *RESUSCITATION, *HEMORRHAGE, *AUTOCRINE mechanisms, *HEMORRHAGIC shock, *LUNG volume

Abstract

Acute lung injury is a major complication of hemorrhagic shock and the required resuscitation with large volumes of crystalloid fluids and blood products. We previously identified a role of macrophagederived chemokine (CCL22/MDC) pulmonary inflammation following hemorrhage and resuscitation. However, further details regarding the induction of CCL22/MDC and its precise role in pulmonary inflammation after trauma remain unknown. In the current study we used in vitro experiments with a murine alveolar macrophage cell line, as well as an in vivo mouse model of hemorrhage and resuscitation, to identify key regulators in CCL22/MDC production. We show that trauma induces expression of IFNγ, which leads to production of CCL22/MDC through a signaling mechanism involving p38 MAPK, NF-κB, JAK, and STAT-1. IFNγ also activates TNFα production by alveolar macrophages, potentiating CCL22/MDC production via an autocrine mechanism. Neutralization of IFNγ or TNFα with specific antibodies reduced histological signs of pulmonary injury after hemorrhage and reduced inflammatory cell infiltration into the lungs. [ABSTRACT FROM AUTHOR]

Published

2020

23. Fibrotic liver has prompt recovery after ischemia-reperfusion injury.

Author

Takanori Konishi, Schuster, Rebecca M., Goetzman, Holly S., Caldwell, Charles C., and Lentsch, Alex B.

Subjects

*LIVER cells, *LIVER, *PROGENITOR cells, *LIVER transplantation, *LIVER injuries

Abstract

Hepatic ischemia-reperfusion (I/R) is a major complication of liver resection, trauma, and liver transplantation; however, liver repair after I/R in diseased liver has not been studied. The present study sought to determine the manner in which the fibrotic liver repairs itself after I/R. Liver fibrosis was established in mice by CCl4 administration for 6 wk, and then liver I/R was performed to investigate liver injury and subsequent liver repair in fibrotic and control livers. After I/R, fibrotic liver had more injury compared with nonfibrotic, control liver; however, fibrotic liver showed rapid resolution of liver necrosis and reconstruction of liver parenchyma. Marked accumulation of hepatic stellate cells and macrophages were observed specifically in the fibrotic septa in early reparative phase. Fibrotic liver had higher numbers of hepatic stellate cells, macrophages, and hepatic progenitor cells during liver recovery after I/R than did control liver, but hepatocyte proliferation was unchanged. Fibrotic liver also had significantly greater number of phagocytic macrophages than control liver. Clodronate liposome injection into fibrotic mice after I/R caused decreased macrophage accumulation and delay of liver recovery. Conversely, CSF1-Fc injection into normal mice after I/R resulted in increased macrophage accumulation and concomitant decrease in necrotic tissue during liver recovery. In conclusion, fibrotic liver clears necrotic areas and restores normal parenchyma faster than normal liver after I/R. This beneficial response appears to be directly related to the increased numbers of nonparenchymal cells, particularly phagocytic macrophages, in the fibrotic liver. NEW & NOTEWORTHY This study is the first to reveal how diseased liver recovers after ischemia-reperfusion (I/R) injury. Although it was not completely unexpected that fibrotic liver had increased hepatic injury after I/R, a novel finding was that fibrotic liver had accelerated recovery and repair compared with normal liver. Enhanced repair after I/R in fibrotic liver was associated with increased expansion of phagocytic macrophages, hepatic stellate cells, and progenitor cells. [ABSTRACT FROM AUTHOR]

Published

2020

24. Microparticles from aged packed red blood cell units stimulate pulmonary microthrombus formation via P-selectin.

Author

Kim, Young, Goodman, Michael D., Jung, Andrew D., Abplanalp, William A., Schuster, Rebecca M., Caldwell, Charles C., Lentsch, Alex B., and Pritts, Timothy A.

Subjects

*ERYTHROCYTES, *UNIT cell, *RED blood cell transfusion, *THROMBIN receptors, *FIBRIN

Abstract

During storage, packed red blood cells undergo a series of physical, metabolic, and chemical changes collectively known as the red blood cell storage lesion. One key component of the red blood cell storage lesion is the accumulation of microparticles, which are submicron vesicles shed from erythrocytes as part of the aging process. Previous studies from our laboratory indicate that transfusion of these microparticles leads to lung injury, but the mechanism underlying this process is unknown. In the present study, we hypothesized that microparticles from aged packed red blood cell units induce pulmonary thrombosis. Leukoreduced, platelet-depleted, murine packed red blood cells (pRBCS) were prepared then stored for up to 14 days. Microparticles were isolated from stored units via high-speed centrifugation. Mice were transfused with microparticles. The presence of pulmonary microthrombi was determined with light microscopy, Martius Scarlet Blue, and thrombocyte stains. In additional studies microparticles were labelled with CFSE prior to injection. Murine lung endothelial cells were cultured and P-selectin concentrations determined by ELISA. In subsequent studies, P-selectin was inhibited by PSI-697 injection prior to transfusion. We observed an increase in microthrombi formation in lung vasculature in mice receiving microparticles from stored packed red blood cell units as compared with controls. These microthrombi contained platelets, fibrin, and microparticles. Treatment of cultured lung endothelial cells with microparticles led to increased P-selectin in the media. Treatment of mice with a P-selectin inhibitor prior to microparticle infusion decreased microthrombi formation. These data suggest that microparticles isolated from aged packed red blood cell units promote the development of pulmonary microthrombi in a murine model of transfusion. This pro-thrombotic event appears to be mediated by P-selectin. Unlabelled Image • Transfusion of older red blood cells is associated with increased mortality. • Red blood cells develop a complex storage lesion as they age. • Red blood cell microparticles cause pulmonary thrombosis in murine model. • This thrombosis appears to be mediated by P-selectin. [ABSTRACT FROM AUTHOR]

Published

2020

25. Cell-specific regulatory effects of CXCR2 on cholestatic liver injury.

Author

Takanori Konishi, Schuster, Rebecca M., Goetzman, Holly S., Caldwell, Charles C., and Lentsch, Alex B.

Subjects

*LIVER injuries, *LIVER cells, *CHEMOKINE receptors, *BILE ducts, *NEUTROPHILS

Abstract

The CXC chemokine receptor 2 (CXCR2) is critical for neutrophil recruitment and hepatocellular viability but has not been studied in the context of cholestatic liver injury following bile duct ligation (BDL). The present study sought to elucidate the cell-specific roles of CXCR2 on acute liver injury after BDL. Wild-type and CXCR2-/- mice were subjected BDL. CXCR2 chimeric mice were created to assess the cell-specific role of CXCR2 on liver injury after BDL. SB225002, a selective CXCR2 antagonist, was administrated intraperitoneally after BDL to investigate the potential of pharmacological inhibition. CXCR2-/- mice had significantly less liver injury than wild-type mice at 3 and 14 days after BDL. There was no difference in biliary fibrosis among groups. The chemokines CXCL1 and CXCL2 were induced around areas of necrosis and biliary structures, respectively, both areas where neutrophils accumulated after BDL. CXCR2-/- mice showed significantly less neutrophil accumulation in those injured areas. CXCR2Liver+/Myeloid+ and CXCR2Liver-/Myeloid- mice recapitulated the wild-type and CXCR2-knockout phenotypes, respectively. CXCR2Liver+/Myeloid+ mice suffered higher liver injury than CXCR2Liver+/Myeloid- and CXCR2Liver-/Myeloid+; however, only those chimeras with knockout of myeloid CXCR2 (CXCR2Liver+/Myeloid- and CXCR2Liver-/Myeloid-) showed reduction of neutrophil accumulation around areas of necrosis. Daily administration of SB225002 starting after 3 days of BDL reduced established liver injury at 6 days. In conclusion, neutrophil CXCR2 guides the cell to the site of injury, while CXCR2 on liver cells affects liver damage independent of neutrophil accumulation. CXCR2 appears to be a viable therapeutic target for cholestatic liver injury. [ABSTRACT FROM AUTHOR]

Published

2019

26. Proteomics in Practice: A Laboratory Manual of Proteome Analysis.

Author

Lentsch, Alex B.

Subjects

*PROTEINS

Abstract

Focuses on the book "Proteomics in Practice: A Laboratory Manual of Proteome Analysis," by Reiner Westmeier and Tom Navan. Theme of the book; Details on first and second part of the book; Introduction to proteomics principles and applications in the book.

Published

2003

27. Leukoreduction of packed red blood cells attenuates proinflammatory properties of storage-derived microvesicles.

Author

Richter, Jillian R., Sutton, Jeffrey M., Hexley, Phillip, Johannigman, Taylor A., Lentsch, Alex B., and Pritts, Timothy A.

Subjects

*ERYTHROCYTES, *LUNG injuries, *RESUSCITATION, *PHYSIOLOGICAL effects of cytokines, *PULMONARY edema, *PHYSIOLOGY

Abstract

Background Leukoreduction prior to packed red blood cell (pRBC) storage is not a universally accepted practice. Our laboratory has previously shown that microvesicles (MVs) accumulate in pRBC units during storage and play an important role in lung injury after resuscitation. Currently, the effect of leukoreduction on MV formation in stored pRBC units is unknown. In the present study, we investigated the hypothesis that leukoreduction of pRBC units prior to storage would attenuate the production of MVs and decrease pulmonary inflammation after hemorrhage and resuscitation. Methods Leukoreduced and nonleukoreduced pRBC units were prepared from human donors and C57/Bl6 mice and stored for up to 42 d and 14 d, respectively. At intervals during storage, MVs were isolated from pRBC units, quantified and characterized based on size, morphology, and levels of proinflammatory cytokines. In additional experiments, mice underwent controlled hemorrhage followed by resuscitation with normal saline (NS) with or without equal numbers of MVs isolated from leukoreduced or nonleukoreduced stored mouse pRBC. Histologic lung sections were evaluated for the presence of tissue edema and inflammatory cells. Results For both human and mouse pRBCs, the number of MVs significantly increased throughout the storage period. There were significantly fewer MVs present in leukoreduced units. The average MV size significantly increased over time and was similar between groups. Levels of interleukin 1α (IL-1α), regulated on activation, normal T cell expressed and secreted (RANTES), and macrophage-derived chemokine (MDC) were lower in MVs from leukoreduced pRBC units as compared with MVs from nonleukoreduced units. Hemorrhaged mice resuscitated with NS with the addition of MV from leukoreduced pRBC demonstrated significantly less pulmonary edema and inflammatory cell recruitment as compared to those resuscitated with NS with the addition of MV from nonleukoreduced pRBC. Conclusions Prestorage leukoreduction of pRBC units reduces the formation and proinflammatory properties of MV, which in turn decreases lung injury secondary to MV from stored pRBC units after hemorrhage and resuscitation. [ABSTRACT FROM AUTHOR]

Published

2018

28. Chemokine Receptors, CXCR1 and CXCR2, Differentially Regulate Exosome Release in Hepatocytes.

Author

Nojima, Hiroyuki, Konishi, Takanori, Freeman, Christopher M., Schuster, Rebecca M., Japtok, Lukasz, Kleuser, Burkhard, Edwards, Michael J., Gulbins, Erich, and Lentsch, Alex B.

Subjects

*CHEMOKINE receptors, *EXOSOMES, *LIVER cells, *SPHINGOSINE-1-phosphate, *GENETIC regulation, *VESICLES (Cytology)

Abstract

Exosomes are small membrane vesicles released by different cell types, including hepatocytes, that play important roles in intercellular communication. We have previously demonstrated that hepatocyte-derived exosomes contain the synthetic machinery to form sphingosine-1-phosphate (S1P) in target hepatocytes resulting in proliferation and liver regeneration after ischemia/reperfusion (I/R) injury. We also demonstrated that the chemokine receptors, CXCR1 and CXCR2, regulate liver recovery and regeneration after I/R injury. In the current study, we sought to determine if the regulatory effects of CXCR1 and CXCR2 on liver recovery and regeneration might occur via altered release of hepatocyte exosomes. We found that hepatocyte release of exosomes was dependent upon CXCR1 and CXCR2. CXCR1-deficient hepatocytes produced fewer exosomes, whereas CXCR2-deficient hepatocytes produced more exosomes compared to their wild-type controls. In CXCR2-deficient hepatocytes, there was increased activity of neutral sphingomyelinase (Nsm) and intracellular ceramide. CXCR1-deficient hepatocytes had no alterations in Nsm activity or ceramide production. Interestingly, exosomes from CXCR1-deficient hepatocytes had no effect on hepatocyte proliferation, due to a lack of neutral ceramidase and sphingosine kinase. The data demonstrate that CXCR1 and CXCR2 regulate hepatocyte exosome release. The mechanism utilized by CXCR1 remains elusive, but CXCR2 appears to modulate Nsm activity and resultant production of ceramide to control exosome release. CXCR1 is required for packaging of enzymes into exosomes that mediate their hepatocyte proliferative effect. [ABSTRACT FROM AUTHOR]

Published

2016

29. Hepatocyte exosomes mediate liver repair and regeneration via sphingosine-1-phosphate.

Author

Nojima, Hiroyuki, Freeman, Christopher M., Schuster, Rebecca M., Japtok, Lukasz, Kleuser, Burkhard, Edwards, Michael J., Gulbins, Erich, and Lentsch, Alex B.

Subjects

*LIVER cells, *EXOSOMES, *REGENERATION (Biology), *SPHINGOSINE-1-phosphate, *CELL communication, *LABORATORY mice

Abstract

Background & Aims Exosomes are small membrane vesicles involved in intercellular communication. Hepatocytes are known to release exosomes, but little is known about their biological function. We sought to determine if exosomes derived from hepatocytes contribute to liver repair and regeneration after injury. Methods Exosomes derived from primary murine hepatocytes were isolated and characterized biochemically and biophysically. Using cultures of primary hepatocytes, we tested whether hepatocyte exosomes induced proliferation of hepatocytes in vitro . Using models of ischemia/reperfusion injury and partial hepatectomy, we evaluated whether hepatocyte exosomes promote hepatocyte proliferation and liver regeneration in vivo . Results Hepatocyte exosomes, but not exosomes from other liver cell types, induce dose-dependent hepatocyte proliferation in vitro and in vivo . Mechanistically, hepatocyte exosomes directly fuse with target hepatocytes and transfer neutral ceramidase and sphingosine kinase 2 (SK2) causing increased synthesis of sphingosine-1-phosphate (S1P) within target hepatocytes. Ablation of exosomal SK prevents the proliferative effect of exosomes. After ischemia/reperfusion injury, the number of circulating exosomes with proliferative effects increases. Conclusions Our data shows that hepatocyte-derived exosomes deliver the synthetic machinery to form S1P in target hepatocytes resulting in cell proliferation and liver regeneration after ischemia/reperfusion injury or partial hepatectomy. These findings represent a potentially novel new contributing mechanism of liver regeneration and have important implications for new therapeutic approaches to acute and chronic liver disease. [ABSTRACT FROM AUTHOR]

Published

2016

30. Sphingosine Prevents Adherence of Pseudomonas Aeruginosa to Endotracheal Tubes: A Novel Strategy to Prevent Ventilator-Associated Pneumonia.

Author

Seitz, Aaron, Freeman, Christopher M., Lentsch, Alex B., Gulbins, Erich, and Edwards, Michael J.

Subjects

*PNEUMONIA prevention, *SPHINGOSINE, *ENDOTRACHEAL tubes, *BACTERIAL adhesion, *ARTIFICIAL respiration complications, *PSEUDOMONAS aeruginosa

Published

2015

31. Sphingolipids in liver injury, repair and regeneration.

Author

Hiroyuki Nojima, Freeman, Christopher M., Gulbins, Erich, and Lentsch, Alex B.

Subjects

*LIVER injuries, *LIVER regeneration, *SPHINGOLIPIDS, *CELL proliferation, *APOPTOSIS, *IMMUNE response

Abstract

Sphingolipids are not only essential components of cellular membranes but also function as intracellular and extracellular mediators that regulate important physiological cellular processes including cell survival, proliferation, apoptosis, differentiation, migration and immune responses. The liver possesses the unique ability to regenerate after injury in a complex manner that involves numerous mediators, including sphingolipids such as ceramide and sphingosine 1-phosphate. Here we present the current understanding of the involvement of the sphingolipid pathway and the role this pathway plays in regulating liver injury, repair and regeneration. The regulation of sphingolipids and their enzymes may have a great impact in the development of novel therapeutic modalities for a variety of liver injuries and diseases. [ABSTRACT FROM AUTHOR]

Published

2015

32. CXC chemokine receptor-4 signaling limits hepatocyte proliferation after hepatic ischemia-reperfusion in mice.

Author

Wilson, Gregory C., Freeman, Christopher M., Kuethe, Joshua W., Quillin, Ralph C., Hiroyuki Nojima, Schuster, Rebecca, Blanchard, John, Edwards, Michael J., Caldwell, Charles C., and Lentsch, Alex B.

Subjects

*ISCHEMIA, *CXCR4 receptors, *HEPATOCYTE growth factor, *LIVER regeneration, *REPERFUSION, *CELL proliferation

Abstract

The role of stromal cell-derived factor-1 (SDF-1 or CXCL12) and its receptor CXC chemokine receptor-4 (CXCR4) in ischemic liver injury and recovery has not been studied. Some reports suggest that this chemokine may aid in liver regeneration, but others suggest that it may be profibrotic through its activation of hepatic stellate cells. In this study we sought to elucidate the role of SDF-1 and its receptor CXCR4 during liver injury, recovery, and regeneration after ischemia-reperfusion (I/R). A murine model of partial (70%) I/R was used to induce liver injury and study the reparative and regenerative response. CXCR4 was expressed constitutively in the liver, and hepatic levels of SDF-1 peaked 8 h after reperfusion but remained significantly increased for 96 h. Treatment of mice with the CXCR4 antagonist AMD3100 or agonist SDF-1 had no effect on acute liver injury assessed 8 h after I/R. However, treatment with AMD3100 increased hepatocyte proliferation after 72 and 96 h of reperfusion and reduced the amount of liver necrosis. In contrast, treatment with SDF-1 significantly decreased hepatocyte proliferation. These effects appeared to be dependent on the presence of liver injury, as AMD3100 and SDF-1 had no effect on hepatocyte proliferation or liver mass in mice undergoing 70% partial hepatectomy. The data suggest that signaling through CXCR4 is detrimental to liver recovery and regeneration after I/R and that clinical therapy with a CXCR4 antagonist may improve hepatic recovery following acute liver injury. [ABSTRACT FROM AUTHOR]

Published

2015

33. Baclofen, a GABABR Agonist, Ameliorates Immune-Complex Mediated Acute Lung Injury by Modulating Pro-Inflammatory Mediators.

Author

Jin, Shunying, Merchant, Michael L., Ritzenthaler, Jeffrey D., McLeish, Kenneth R., Lederer, Eleanor D., Torres-Gonzalez, Edilson, Fraig, Mostafa, Barati, Michelle T., Lentsch, Alex B., Roman, Jesse, Klein, Jon B., and Rane, Madhavi J.

Subjects

*GABA agonists, *BACLOFEN, *IMMUNE complexes, *LUNG injury treatment, *GABA transporters, *NEUTROPHILS

Abstract

Immune-complexes play an important role in the inflammatory diseases of the lung. Neutrophil activation mediates immune-complex (IC) deposition-induced acute lung injury (ALI). Components of gamma amino butyric acid (GABA) signaling, including GABA B receptor 2 (GABABR2), GAD65/67 and the GABA transporter, are present in the lungs and in the neutrophils. However, the role of pulmonary GABABR activation in the context of neutrophil-mediated ALI has not been determined. Thus, the objective of the current study was to determine whether administration of a GABABR agonist, baclofen would ameliorate or exacerbate ALI. We hypothesized that baclofen would regulate IC-induced ALI by preserving pulmonary GABABR expression. Rats were subjected to sham injury or IC-induced ALI and two hours later rats were treated intratracheally with saline or 1 mg/kg baclofen for 2 additional hours and sacrificed. ALI was assessed by vascular leakage, histology, TUNEL, and lung caspase-3 cleavage. ALI increased total protein, tumor necrosis factor α (TNF-α and interleukin-1 receptor associated protein (IL-1R AcP), in the bronchoalveolar lavage fluid (BALF). Moreover, ALI decreased lung GABABR2 expression, increased phospho-p38 MAPK, promoted IκB degradation and increased neutrophil influx in the lung. Administration of baclofen, after initiation of ALI, restored GABABR expression, which was inhibited in the presence of a GABABR antagonist, CGP52432. Baclofen administration activated pulmonary phospho-ERK and inhibited p38 MAPK phosphorylation and IκB degradation. Additionally, baclofen significantly inhibited pro-inflammatory TNF-α and IL-1βAcP release and promoted BAL neutrophil apoptosis. Protective effects of baclofen treatment on ALI were possibly mediated by inhibition of TNF-α- and IL-1β-mediated inflammatory signaling. Interestingly, GABABR2 expression was regulated in the type II pneumocytes in lung tissue sections from lung injured patients, further suggesting a physiological role for GABABR2 in the repair process of lung damage. GABABR2 agonists may play a potential therapeutic role in ALI. [ABSTRACT FROM AUTHOR]

Published

2015

34. CXC Chemokines Function as a Rheostat for Hepatocyte Proliferation and Liver Regeneration.

Author

Wilson, Gregory C., Kuboki, Satoshi, Freeman, Christopher M., Nojima, Hiroyuki, Schuster, Rebecca M., Edwards, Michael J., and Lentsch, Alex B.

Subjects

*CHEMOKINES, *LIVER cells, *CELL proliferation, *LIVER regeneration, *LIGANDS (Biochemistry), *CELL death

Abstract

Background: Our previous in vitro studies have demonstrated dose-dependent effects of CXCR2 ligands on hepatocyte cell death and proliferation. In the current study, we sought to determine if CXCR2 ligand concentration is responsible for the divergent effects of these mediators on liver regeneration after ischemia/reperfusion injury and partial hepatectomy. Methods: Murine models of partial ischemia/reperfusion injury and hepatectomy were used to study the effect of CXCR2 ligands on liver regeneration. Results: We found that hepatic expression of the CXCR2 ligands, macrophage inflammatory protein-2 (MIP-2) and keratinocyte-derived chemokine (KC), was significantly increased after both I/R injury and partial hepatectomy. However, expression of these ligands after I/R injury was 30-100-fold greater than after hepatectomy. Interestingly, the same pattern of expression was found in ischemic versus non-ischemic liver lobes following I/R injury with expression significantly greater in the ischemic liver lobes. In both systems, lower ligand expression was associated with increased hepatocyte proliferation and liver regeneration in a CXCR2-dependent fashion. To confirm that these effects were related to ligand concentration, we administered exogenous MIP-2 and KC to mice undergoing partial hepatectomy. Mice received a “high” dose that replicated serum levels found after I/R injury and a “low” dose that was similar to that found after hepatectomy. Mice receiving the “high” dose had reduced levels of hepatocyte proliferation and regeneration whereas the “low” dose promoted hepatocyte proliferation and regeneration. Conclusions: Together, these data demonstrate that concentrations of CXC chemokines regulate the hepatic proliferative response and subsequent liver regeneration. [ABSTRACT FROM AUTHOR]

Published

2015

35. Inhibition of acidic sphingomyelinase reduces established hepatic fibrosis in mice.

Author

Quillin, Ralph C., Wilson, Gregory C., Nojima, Hiroyuki, Freeman, Christopher M., Wang, Jiang, Schuster, Rebecca M., Blanchard, John A., Edwards, Michael J., Gandhi, Chandrashekhar R., Gulbins, Erich, and Lentsch, Alex B.

Subjects

*FIBROSIS, *PORTAL hypertension, *LIVER transplantation, *SPHINGOMYELINASE, *AMITRIPTYLINE, *TRANSFORMING growth factors, *LABORATORY mice, *THERAPEUTICS

Abstract

Aim Liver fibrosis occurs as a result of several chronic liver diseases and leads to portal hypertension, cirrhosis and liver failure, often requiring liver transplantation. Activated hepatic stellate cells ( HSC) are known to contribute to liver fibrosis, but currently there are no effective therapies for the treatment of established liver fibrosis. Activation of the acidic sphingomyelinase ( ASM) has been shown to be involved in HSC activation. In the present study we investigated whether treatment with the ASM inhibitor, amitriptyline ( TCA), could prevent and/or reverse fibrosis induced in mice by carbon tetrachloride ( CCl4). Methods Mice were treated with CCl4 for 8 weeks to induce fibrosis. Concurrently, mice received drinking water with or without 180 mg/L TCA. Results Mice receiving TCA in the water had decreased hepatic collagen deposition and reduced liver mRNA expression of the fibrogenic mediators, transforming growth factor ( TGF)-β1, tissue inhibitor of matrix metalloproteinase-1, collagen and tumor necrosis factor-α. TCA treatment also reduced HSC activation determined by α-smooth muscle actin staining. In a separate set of experiments, mice were treated with CCl4 for 5 weeks prior to treatment with TCA, to test whether TCA had any effect on established fibrosis. Remarkably, in mice with established fibrosis, treatment with TCA significantly reduced collagen deposition, HSC activation, and prevented portal hypertension and improved hepatic architecture. Treatment of isolated HSC in vitro with TCA completely inhibited TGF-β1-induced collagen expression and platelet-derived growth factor-β-β-induced proliferation. Conclusion The data suggest that ASM is a critical signaling component in HSC for the development of liver fibrosis and represents an important therapeutic target. [ABSTRACT FROM AUTHOR]

Published

2015

36. Substance P Mediates Reduced Pneumonia Rates After Traumatic Brain Injury.

Author

Sung Yang, Stepien, David, Hanseman, Dennis, Robinson, Bryce, Goodman, Michael D., Pritts, Timothy A., Caldwell, Charles C., Remick, Daniel G., and Lentsch, Alex B.

Subjects

*PNEUMONIA, *PATIENTS, *BRAIN injuries, *LABORATORY mice, *NATURAL immunity, *BACTERIA

Abstract

Objectives: Traumatic brain injury results in significant morbidity and mortality and is associated with infectious complications, particularly pneumonia. However, whether traumatic brain injury directly impacts the host response to pneumonia is unknown. The objective of this study was to determine the nature of the relationship between traumatic brain injury and the prevalence of pneumonia in trauma patients and investigate the mechanism of this relationship using a murine model of traumatic brain injury with pneumonia. Design: Data from the National Trauma Data Bank and a murine model of traumatic brain injury with postinjury pneumonia. Setting: Academic medical centers in Cincinnati, OH, and Boston, MA. Patients/Subjects: Trauma patients in the National Trauma Data Bank with a hospital length of stay greater than 2 days, age of at least 18 years at admission, and a blunt mechanism of injury. Subjects were female ICR mice 8 -10 weeks old. Interventions: Administration of a substance P receptor antagonist in mice. Measurements and Main Results: Pneumonia rates were measured in trauma patients before and after risk adjustment using propensity scoring. In addition, survival and pulmonary inflammation were measured in mice undergoing traumatic brain injury with or without pneumonia. After risk adjustment, we found that traumatic brain injury patients had significantly lower rates of pneumonia compared to blunt trauma patients without traumatic brain injury. A murine model of traumatic brain injury reproduced these clinical findings with mice subjected to traumatic brain injury demonstrating increased bacterial clearance and survival after induction of pneumonia. To determine the mechanisms responsible for this improvement, the substance P receptor was blocked in mice after traumatic brain injury. This treatment abrogated the traumatic brain injury-associated increases in bacterial clearance and survival. Conclusions: The data demonstrate that patients with traumatic brain injury have lower rates of pneumonia compared to nonhead- injured trauma patients and suggest that the mechanism of this effect occurs through traumatic brain injury-induced release of substance P, which improves innate immunity to decrease pneumonia. [ABSTRACT FROM AUTHOR]

Published

2014

37. Characterization of Microparticles after Hepatic Ischemia-Reperfusion Injury.

Author

Freeman, Christopher M., Quillin III, Ralph C., Wilson, Gregory C., Nojima, Hiroyuki, Johnson III, Bobby L., Sutton, Jeffrey M., Schuster, Rebecca M., Blanchard, John, Edwards, Michael J., Caldwell, Charles C., and Lentsch, Alex B.

Subjects

*LIVER injuries, *ISCHEMIA, *REPERFUSION injury, *LIVER regeneration, *VESICLES (Cytology), *ENDOTHELIAL cells, *NEUTROPHILS

Abstract

Background: Hepatic ischemia-reperfusion (I/R) is a well-studied model of liver injury and has demonstrated a biphasic injury followed by recovery and regeneration. Microparticles (MPs) are a developing field of study and these small membrane bound vesicles have been shown to have effector function in other physiologic and pathologic states. This study was designed to quantify the levels of MPs from various cell origins–platelets, neutrophils, and endolethial cells–following hepatic ischemia-reperfusion injury. Methods: A murine model was used with mice undergoing 90 minutes of partial hepatic ischemia followed by various times of reperfusion. Following reperfusion, plasma samples were taken and MPs of various cell origins were labeled and levels were measured using flow cytometry. Additionally, cell specific MPs were further assessed by Annexin V, which stains for the presence of phosphatidylserine, a cell surface marker linked to apoptosis. Statistical analysis was performed using one-way analysis of variance with subsequent Student-Newman-Keuls test with data presented as the mean and standard error of the mean. Results: MPs from varying sources show an increase in circulating levels following hepatic I/R injury. However, the timing of the appearance of different MP subtypes differs for each cell type. Platelet and neutrophil-derived MP levels demonstrated an acute elevation following injury whereas endothelial-derived MP levels demonstrated a delayed elevation. Conclusion: This is the first study to characterize circulating levels of cell-specific MPs after hepatic I/R injury and suggests that MPs derived from platelets and neutrophils serve as markers of inflammatory injury and may be active participants in this process. In contrast, MPs derived from endothelial cells increase after the injury response during the reparative phase and may be important in angiogenesis that occurs in the regenerating liver. [ABSTRACT FROM AUTHOR]

Published

2014

38. A novel mouse model of depletion of stellate cells clarifies their role in ischemia/reperfusion- and endotoxin-induced acute liver injury.

Author

Stewart, Rachel K., Dangi, Anil, Huang, Chao, Murase, Noriko, Kimura, Shoko, Stolz, Donna B., Wilson, Gregory C., Lentsch, Alex B., and Gandhi, Chandrashekhar R.

Subjects

*KUPFFER cells, *REPERFUSION injury, *ENDOTOXINS, *LIVER injuries, *GLIAL fibrillary acidic protein, *GENE expression, *ENDOTHELIAL cells, *LABORATORY mice

Abstract

Background & Aims: Hepatic stellate cells (HSCs) that express glial fibrillary acidic protein (GFAP) are located between the sinusoidal endothelial cells and hepatocytes. HSCs are activated during liver injury and cause hepatic fibrosis by producing excessive extracellular matrix. HSCs also produce many growth factors, chemokines and cytokines, and thus may play an important role in acute liver injury. However, this function has not been clarified due to unavailability of a model, in which HSCs are depleted from the normal liver. Methods: We treated mice expressing HSV-thymidine kinase under the GFAP promoter (GFAP-Tg) with 3 consecutive (3days apart) CCl4 (0.16μl/g; ip) injections to stimulate HSCs to enter the cell cycle and proliferate. This was followed by 10-day ganciclovir (40μg/g/day; ip) treatment, which is expected to eliminate actively proliferating HSCs. Mice were then subjected to hepatic ischemia/reperfusion (I/R) or endotoxin treatment. Results: CCl4/ganciclovir treatment caused depletion of the majority of HSCs (about 64–72%), while the liver recovered from the initial CCl4-induced injury (confirmed by histology, serum ALT and neutrophil infiltration). The magnitude of hepatic injury due to I/R or endotoxemia (determined by histopathology and serum ALT) was lower in HSC-depleted mice. Their hepatic expression of TNF-α, neutrophil chemoattractant CXCL1 and endothelin-A receptor also was significantly lower than the control mice. Conclusions: HSCs play an important role both in I/R- and endotoxin-induced acute hepatocyte injury, with TNF-α and endothelin-1 as important mediators of these effects. [Copyright &y& Elsevier]

Published

2014

39. HDAC9 Knockout Mice Are Protected From Adipose Tissue Dysfunction and Systemic Metabolic Disease During High-Fat Feeding.

Author

Chatterjee, Tapan K., Basford, Joshua E., Knoll, Ellen, Tong, Wilson S., Blanco, Victor, Blomkalns, Andra L., Rudich, Steven, Lentsch, Alex B., Hui, David Y., and Weintraub, Neal L.

Subjects

*OBESITY, *KNOCKOUT mice, *ADIPOSE tissues, *DIABETES, *INSULIN resistance, *FAT cells, *HIGH-fat diet, *HYPOGLYCEMIC agents

Abstract

During chronic caloric excess, adipose tissue expands primarily by enlargement of individual adipocytes, which become stressed with lipid overloading, thereby contributing to obesity-related disease. Although adipose tissue contains numerous preadipocytes, differentiation into functionally competent adipocytes is insufficient to accommodate the chronic caloric excess and prevent adipocyte overloading. We report for the first time that a chronic high-fat diet (HFD) impairs adipogenic differentiation, leading to accumulation of inefficiently differentiated adipocytes with blunted expression of adipogenic differentiation-specific genes. Preadipocytes from these mice likewise exhibit impaired adipogenic differentiation, and this phenotype persists during in vitro cell culture. HFD-induced impaired adipogenic differentiation is associated with elevated expression of histone deacetylase 9 (HDAC9), an endogenous negative regulator of adipogenic differentiation. Genetic ablation of HDAC9 improves adipogenic differentiation and systemic metabolic state during an HFD, resulting in diminished weight gain, improved glucose tolerance and insulin sensitivity, and reduced hepatosteatosis. Moreover, compared with wild-type mice, HDAC9 knockout mice exhibit upregulated expression of beige adipocyte marker genes, particularly during an HFD, in association with increased energy expenditure and adaptive thermogenesis. These results suggest that targeting HDAC9 may be an effective strategy for combating obesity-related metabolic disease. [ABSTRACT FROM AUTHOR]

Published

2014

40. Preinjury alcohol exposure attenuates the neuroinflammatory response to traumatic brain injury.

Author

Goodman, Michael D., Makley, Amy T., Campion, Eric M., Friend, Lou Ann W., Lentsch, Alex B., and Pritts, Timothy A.

Subjects

*BRAIN injuries, *ALCOHOLIC intoxication, *INFLAMMATION, *IMMUNOMODULATORS, *NEUROPROTECTIVE agents, *CYTOKINES, *ENZYME-linked immunosorbent assay, *INJURY risk factors

Abstract

Abstract: Background: Traumatic brain injury (TBI) initiates a neuroinflammatory response that increases the risk of TBI-related mortality. Acute alcohol intoxication at the time of TBI is associated with improved survival. Ethanol is recognized as a systemic immunomodulator that may also impart neuroprotection. The effects of alcohol on TBI-induced neuroinflammation, however, are unknown. We hypothesized that ethanol treatment prior to TBI may provide neuroprotection by diminishing the neuroinflammatory response to injury. Materials and methods: Mice underwent gavage with ethanol (EtOH) or water (H2O) prior to TBI. Animals were subjected to blunt TBI or sham injury (Sham). Posttraumatic rapid righting reflex (RRR) and apnea times were assessed. Cerebral and serum samples were analyzed by ELISA for inflammatory cytokine levels. Serum neuron-specific enolase (NSE), a biomarker of injury severity, was also measured. Results: Neurologic recovery from TBI was more rapid in H2O-treated mice compared with EtOH-treated mice. However, EtOH/TBI mice had a 4-fold increase in RRR time compared with EtOH/Sham, whereas H2O/TBI mice had a 15-fold increase in RRR time compared with H2O/Sham. Ethanol intoxication at the time of TBI significantly increased posttraumatic apnea time. Preinjury EtOH treatment was associated with reduced levels of proinflammatory cytokines IL-6, KC, MCP-1, and MIP-1α post TBI. NSE was significantly increased post injury in the H2O/TBI group compared with H2O/Sham but was not significantly reduced by EtOH pretreatment. Conclusions: Alcohol treatment prior to TBI reduces the local neuroinflammatory response to injury. The decreased neurologic and inflammatory impact of TBI in acutely intoxicated patients may be responsible for improved clinical outcomes. [Copyright &y& Elsevier]

Published

2013

41. A murine model of mild traumatic brain injury exhibiting cognitive and motor deficits.

Author

Yang, Sung H., Gustafson, Josh, Gangidine, Matt, Stepien, David, Schuster, Rebecca, Pritts, Timothy A., Goodman, Michael D., Remick, Daniel G., and Lentsch, Alex B.

Subjects

*BRAIN injuries, *MOVEMENT disorders, *COGNITION disorders, *PUBLIC health, *HISTOLOGY, *FLUORESCENCE

Abstract

Abstract: Background: Mild traumatic brain injury (TBI) is a serious public health concern affecting more than 1.7 million people in the United States annually. Mild TBI is difficult to diagnose and is clinically associated with impaired motor coordination and cognition. Methods: We subjected mice to a mild TBI (mTBI-1 or mTBI-2) induced by a weight drop model. We assessed brain injury histologically and biochemically, the latter by serum neuron-specific enolase and glial fibrillary acidic protein. Systemic and brain inflammation were measured by cytokine array. We determined blood–brain barrier integrity by cerebral vascular leakage of micromolecular and macromolecular fluorescent molecules. We evaluated mice using a rotarod device and novel object recognition to measure motor coordination and cognition, respectively. Results: Mice undergoing mTBI-1 or mTBI-2 had significant deficits in motor coordination and cognition for several days after injury compared with controls. Furthermore, both mTBI-1 and mTBI-2 caused micromolecular leakage in the blood–brain barrier, whereas only mTBI-2 caused macromolecular leakage. Serum neuron-specific enolase and glial fibrillary acidic protein were elevated acutely and corresponded to the degree of injury, but returned to baseline within 24 h. Serum cytokines interleukin-6 and keratinocyte-derived chemokine were significantly increased within 90 min of TBI. Interleukin-6 levels correlated with the degree of injury. Conclusions: The current study provides a reproducible model of mild TBI in mice that exhibits pathologic features of mild TBI in humans. Furthermore, our data suggest that serum cytokines, such as IL-6, may be effective biomarkers for severity of head injury. [Copyright &y& Elsevier]

Published

2013

42. Ceramide mediates lung fibrosis in cystic fibrosis.

Author

Ziobro, Regan, Henry, Brian, Edwards, Michael J., Lentsch, Alex B., and Gulbins, Erich

Subjects

*CERAMIDES, *CYSTIC fibrosis, *LUNG diseases, *PULMONARY fibrosis, *INFLAMMATION, *SPHINGOMYELINASE, *LABORATORY mice

Abstract

Highlights: [•] Ceramide accumulation in cystic fibrosis mice induces pulmonary fibrosis. [•] Chronic pulmonary inflammation in cystic fibrosis is mediated by ceramide. [•] Inhibition of acid sphingomyelinase normalizes ceramide in cystic fibrosis lungs. [•] Cystic fibrosis mice can be long-term treated with acid sphingomyelinase inhibitors. [•] Lung fibrosis and inflammation are prevented by inhibition of ceramide formation. [ABSTRACT FROM AUTHOR]

Published

2013

43. Colchicine disrupts vectorial secretion of IL-8 in Caco-2 cells

Author

Sonnier, Dennis I., Bailey, Stephanie R., Lentsch, Alex B., and Pritts, Timothy A.

Published

2011

44. Acute alcohol intoxication attenuates the neuroinflammatory response to traumatic brain injury

Author

Goodman, Michael D., Makley, Amy T., Lentsch, Alex B., and Pritts, Timothy A.

Published

2009

45. Prior thermal injury increases endotoxin-induced inflammatory cytokine production and intestinal NF-kappaB activation

Author

Huber, Nathan L., Pritts, Timothy A., Lentsch, Alex B., Bailey, Stephanie R., Schuster, Rebecca M., and Ogle, Cora

Published

2009

46. Interleukin-37 reduces liver inflammatory injury via effects on hepatocytes and non-parenchymal cells.

Author

Sakai, Nozomu, Van Sweringen, Heather L, Belizaire, Ritha M, Quillin, Ralph Cutler, Schuster, Rebecca, Blanchard, John, Burns, Justin M, Tevar, Amit D, Edwards, Michael J, and Lentsch, Alex B

Subjects

*INTERLEUKINS, *HEPATITIS, *INFLAMMATION, *LIVER cells, *CHEMOKINES, *ISCHEMIA

Abstract

Background and Aim: The purpose of the present study was to determine the effects of interleukin-37 (IL-37) on liver cells and on liver inflammation induced by hepatic ischemia/reperfusion (I/R). Methods: Mice were subjected to I/R. Some mice received recombinant IL-37 (IL-37) at the time of reperfusion. Serum levels of alanine aminotransferase, and liver myeloperoxidase content were assessed. Serum and liver tumor necrosis factor-α (TNF-α), macrophage inflammatory protein-2 (MIP-2) and keratinocyte chemokine (KC) were also assessed. Hepatic reactive oxygen species (ROS) levels were assessed. For in vitro experiments, isolated hepatocytes and Kupffer cells were treated with IL-37 and inflammatory stimulants. Cytokine and chemokine production by these cells were assessed. Primary hepatocytes underwent induced cell injury and were treated with IL-37 concurrently. Hepatocyte cytotoxicity and Bcl-2 expression were determined. Isolated neutrophils were treated with TNF-α and IL-37 and neutrophil activation and respiratory burst were assessed. Results: IL-37 reduced hepatocyte injury and neutrophil accumulation in the liver after I/R. These effects were accompanied by reduced serum levels of TNF-α and MIP-2 and hepatic ROS levels. IL-37 significantly reduced MIP-2 and KC productions from lipopolysaccharide-stimulated hepatocytes and Kupffer cells. IL-37 significantly reduced cell death and increased Bcl-2 expression in hepatocytes. IL-37 significantly suppressed TNF-α-induced neutrophil activation. Conclusions: IL-37 is protective against hepatic I/R injury. These effects are related to the ability of IL-37 to reduce proinflammatory cytokine and chemokine production by hepatocytes and Kupffer cells as well as having a direct protective effect on hepatocytes. In addition, IL-37 contributes to reduce liver injury through suppression of neutrophil activity. [ABSTRACT FROM AUTHOR]

Published

2012

47. Hepatocyte-specific ablation of spermine/spermidine-N1-acetyltransferase gene reduces the severity of CCl4-induced acute liver injury.

Author

Zahedi, Kamyar, Barone, Sharon L., Jie Xu, Steinbergs, Nora, Schuster, Rebecca, Lentsch, Alex B., Amlal, Hassane, Jiang Wang, Casero Jr, Robert A., and Soleimani, Manoocher

Abstract

Activation of spermine/ spermidine-N1-acetyltransferase (SSAT) leads to DNA damage and growth arrest in mammalian cells, and its ablation reduces the severity of ischemic and endotoxic injuries. Here we have examined the role of SSAT in the pathogenesis of toxic liver injury caused by carbon tetrachloride (CCl4). The expression and activity of SSAT increase in the liver subsequent to CCl4 administration. Furthermore, the early liver injury after CCl4 treatment was significantly attenuated in hepatocyte-specific SSAT knockout mice (Hep-SSAT-Cko) compared with wild-type (WT) mice as determined by the reduced serum alanine aminotransferase levels, decreased hepatic lipid peroxidation, and less severe liver damage. Cytochrome P450 2e1 levels remained comparable in both genotypes, suggesting that SSAT deficiency does not affect the metabolism of CCl4. Hepatocyte-specific deficiency of SSAT also modulated the induction of cytokines involved in inflammation and repair as well as leukocyte infiltration. In addition, Noxa and activated caspase 3 levels were elevated in the livers of WT compared with Hep-SSAT-Cko mice. Interestingly, the onset of cell proliferation was significantly more robust in the WT compared with Hep-SSAT Cko mice. The inhibition of polyamine oxidases protected the animals against CCl4-induced liver injury. Our studies suggest that while the abrogation of polyamine back conversion or inhibition of polyamine oxidation attenuate the early injury, they may delay the onset of hepatic regeneration. [ABSTRACT FROM AUTHOR]

Published

2012

48. Simulated Aeromedicai Evacuation Does Not Affect Systemic Inflammation or Organ Injury in a Murine Model of Hemorrhagic Shock.

Author

Makley, Amy T., Belizaire, Ritha, Campion, Eric M., Goodman, Michael D., Sonnier, Dennis I., Friend, Lou Ann, Schuster, Rebecca M., Bailey, Stephanie R., Johannigman, Jay A., Dorlac, Warren C., Lentsch, Alex B., and Pritts, Timothy A.

Subjects

*HEMORRHAGIC shock, *COMBAT, *PATIENTS, *HYPOBARIC chambers, *INFLAMMATION

Abstract

Hemorrhagic shock is a primary injury amongst combat casualties. Aeromedicai evacuation (AE) of casualties exposes patients to a hypobaric, hypoxic environment. The effect of this environment on the host response to hemorrhagic shock is unknown. In the present study, we sought to determine the effect of simulated AE on systemic inflammation and organ injury using a murine model of hemorrhagic shock. Mice underwent femoral artery cannulation and were hemorrhaged for 60 minutes. Mice were then resuscitated with a 1:1 ratio of plasma:packed red blood cells. At 1 or 24 hours after resuscitation, mice were exposed to a 5-hour simulated AE or remained at ground level (control). Serum was analyzed for cytokine concentrations and organs were assessed for neutrophil accumulation and vascular permeability. Mice in the simulated AE groups demonstrated reduced arterial oxygen saturation compared to ground controls. Serum cytokine concentrations, neutrophil recruitment, and vascular permeability in the lung, ileum, and colon in the simulated AE groups were not different from the ground controls. Our results demonstrate that mice exposed to simulated AE following hemorrhagic shock do not exhibit worsened systemic inflammation or organ injury compared to controls. The data suggest that AE has no adverse effect on isolated hemorrhagic shock. [ABSTRACT FROM AUTHOR]

Published

2012

49. Microparticles from Stored Red Blood Cells Activate Neutrophils and Cause Lung Injury after Hemorrhage and Resuscitation

Author

Belizaire, Ritha M., Prakash, Priya S., Richter, Jillian R., Robinson, Bryce R., Edwards, Michael J., Caldwell, Charles C., Lentsch, Alex B., and Pritts, Timothy A.

Subjects

*ERYTHROCYTES, *NEUTROPHILS, *LUNG injuries, *HEMORRHAGE, *LABORATORY mice, *BLOOD transfusion, *RESUSCITATION

Abstract

Background: Transfusion of stored blood is associated with increased complications. Microparticles (MPs) are small vesicles released from RBCs that can induce cellular dysfunction, but the role of RBC-derived MPs in resuscitation from hemorrhagic shock is unknown. In the current study, we examined the effects of RBC-derived MPs on the host response to hemorrhage and resuscitation. Study Design: MPs were isolated from murine packed RBC units, quantified using flow cytometry, and injected into healthy mice. Separate groups of mice underwent hemorrhage and resuscitation with and without packed RBC–derived MPs. Lungs were harvested for histology and neutrophil accumulation and assessed by myeloperoxidase content. Human neutrophils were treated with human RBC-derived MPs and CD11b expression, superoxide production, and phagocytic activity were determined. Results: Stored murine packed RBC units contained increased numbers of RBC-derived MPs compared with fresh units. Hemorrhaged mice resuscitated with MPs demonstrated substantially increased pulmonary neutrophil accumulation and altered lung histology compared with mice resuscitated without MPs. Intravenous injection of MPs into normal mice resulted in neutrophil priming, evidenced by increased neutrophil CD11b expression. Human neutrophils treated with RBC-derived MPs demonstrated increased CD11b expression, increased superoxide production, and enhanced phagocytic ability compared with untreated neutrophils. Conclusions: Stored packed RBC units contain increased numbers of RBC-derived MPs. These MPs appear to contribute to neutrophil priming and activation. The presence of MPs in stored units can be associated with adverse effects, including lung injury, after transfusion. [Copyright &y& Elsevier]

Published

2012

50. STAT3 Does Not Regulate Acute Liver Injury After Ischemia/Reperfusion

Author

Clarke, Callisia, Sakai, Nozomu, Tevar, Amit D., Schuster, Rebecca, Edwards, Michael J., and Lentsch, Alex B.

Subjects

*GENETIC regulation, *LIVER injuries, *REPERFUSION injury, *LIVER surgery, *SURGICAL complications, *INTERLEUKIN-6

Abstract

Background: Hepatic ischemia/reperfusion (I/R) injury is a serious complication of liver surgery and transplantation. Regulation of this injury response occurs at the cellular and molecular levels. Previous studies have shown that interleukin-6 (IL-6) is a negative regulator of the acute inflammatory injury occurring as a result of hepatic I/R. The signal transducer and activator of transcription-3 (STAT3) is a key target of receptor signaling for IL-6. Both IL-6 and STAT3 have been implicated in the protective effects of ischemic preconditioning of the liver. However, there have been no studies that have directly addressed the potential role of STAT3 in regulating acute inflammatory liver injury induced by I/R. In the current study, we investigated whether blockade of STAT3 phosphorylation altered the injury response to hepatic I/R injury. Methods: Male Balb/c mice were subjected to 90 min of partial hepatic ischemia followed by reperfusion with or without treatment with specific inhibitors of STAT3 activation, AG490 (selective JAK2 inhibitor), or STATTIC (direct inhibitor of STAT3 phosphorylation). Mice were sacrificed at 8 and 24 h after reperfusion. Results: STAT3 activation was induced by I/R. This activation was partially inhibited by administration of AG490 and almost completely abrogated by treatment with STATTIC. Despite the blockade of STAT3, neither AG490 nor STATTIC had any effect on acute liver injury induced by I/R. Treatment with STATTIC did reduce hepatic neutrophil accumulation. Conclusion: The data suggest that STAT3 is not a central regulator of acute liver injury induced by I/R. [ABSTRACT FROM AUTHOR]

Published

2011