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7. Generation and functional significance of CXC chemokines for neutrophil-induced liver injury during endotoxemia

Author

Dorman, Robert B., Gujral, Jaspreet S., Bajt, Mary Lynn, Farhood, Anwar, and Jaeschke, Hartmut

Subjects
Neutrophils -- Physiological aspects, Chemokines -- Physiological aspects, Liver diseases -- Diagnosis, Biological sciences
Abstract

The hypothesis that the neutrophil chemoattractant CXC chemokines KC and macrophage inflammatory protein-2 (MIP-2) are involved in neutrophil transmigration and liver injury was tested in C3Heb/FeJ mice treated with galactosamine (Gal, 700 mg/kg), endotoxin (ET, 100 [micro]g/kg), or Gal + ET (Gal/ET). Hepatic KC and MIP-2 mRNA levels and plasma CXC chemokine concentrations were dramatically increased 1.5 h after Gal/ET or ET alone and gradually declined up to 7 h. Murine recombinant cytokines (TNF-[alpha], IL-1[alpha], and IL-1[beta]), but not Gal/ET, induced CXC chemokine formation in the ET-resistant C3H/HeJ strain. To assess the functional importance of KC and MIP-2, C3Heb/FeJ mice were treated with Gal/ET and control IgG or a combination of anti-KC and anti-MIP-2 antibodies. Anti-CXC chemokine antibodies did not attenuate hepatocellular apoptosis, sinusoidal neutrophil sequestration and extravasation, or liver injury at 7 h. Furthermore, there was no difference in liver injury between BALB/cJ wild-type and CXC receptor-2 gene knockout (CXCR[2.sup.-/-]) mice treated with Gal/ET. The higher neutrophil count in livers of CXCR[2.sup.-/-] than in wild-type mice after Gal/ET was caused by the elevated number of neutrophils located in sinusoids of untreated CXCR[2.sup.-/-] animals. The pancaspase inhibitor Z-Val-Ala-Asp-fluoromethylketone eliminated Gal/ET-induced apoptosis and neutrophil extravasation and injury but not CXC chemokine formation. Thus Gal/ET induced massive, cytokine-dependent CXC chemokine formation in the liver. However, neutrophil extravasation and injury occurred in response to apoptotic cell injury at 6-7 h and was independent of CXC chemokine formation. inflammatory liver injury; neutrophil cytotoxicity; apoptosis; caspases; CXC receptor 2

Published
2005

28. The role of the c-Jun N-terminal kinases 1/2 and receptor-interacting protein kinase 3 in furosemide-induced liver injury.

Author

McGill, Mitchell R., Du, Kuo, Xie, Yuchao, Bajt, Mary Lynn, Ding, Wen-Xing, and Jaeschke, Hartmut

Subjects
C-Jun N-terminal kinases, FUROSEMIDE, LABORATORY mice, HEPATOTOXICOLOGY, PHOSPHORYLATION, WESTERN immunoblotting, KNOCKOUT mice
Abstract

1. The mechanisms of furosemide (FS) hepatotoxicity were explored in mice. Specifically, C57Bl/6 J mice were treated with 500 mg FS/kg bodyweight, and c-Jun N-terminal kinase (JNK) activation and receptor-interacting protein kinase 3 (RIP3) expression were measured by western blotting. Co-treatment with FS and the JNK inhibitor SP600125 was also performed, and FS-induced liver injury was compared in wild-type and RIP3 knockout (KO) mice. 2. JNK phosphorylation and RIP3 expression were increased in livers from the FS-treated mice as early as 6 h after treatment and persisted until at least 24 h. JNK phosphorylation was also observed in primary mouse hepatocytes and human HepaRG cells treated with FS. 3. Phosphorylated JNK translocated into mitochondria in livers, but no evidence of mitochondrial damage was observed. 4. SP600125-treated mice, SP600125 co-treated primary mouse hepatocytes and RIP3 KO mice were not protected against FS hepatotoxicity. These data show that, although JNK activation and RIP3 expression are induced by FS, neither contributes to the liver injury. [ABSTRACT FROM AUTHOR]

Published
2015
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35. Effects of CXC chemokines on neutrophil activation and sequestration in hepatic vasculature

Author

Bajt, Mary Lynn, Farhood, Anwar, and Jaeschke, Hartmut

Subjects
Cytokines -- Physiological aspects, Cell adhesion molecules -- Physiological aspects, Biological sciences
Abstract

Effects of CXC chemokines on neutrophil activation and sequestration in hepatic vasculature. Am J Physiol Gastrointest Liver Physiol 281: G1188-G1195, 2001.--The initiating step of neutrophil-induced cytotoxicity in the liver is the recruitment of these phagocytes into sinusoids. The aim of our study was to compare the efficacy of systemic exposure with individual inflammatory mediators on neutrophil activation and sequestration in the hepatic vasculature of C3Heb/FeJ mice as assessed by flow cytometry and histochemistry, respectively. The CXC chemokine macrophage inflammatory protein-2 (MIP-2; 20 [micro]g/kg) induced a time-dependent upregulation of Mac-1 (318% at 4 h) and shedding of L-selectin (41% at 4 h). MIP-2 treatment caused a temporary increase of sinusoidal neutrophil accumulation at 0.5 h [97 [+ or -] 6 polymorphonuclear leukocytes (PMN)/50 high-power fields (HPF)], which declined to baseline (8 [+ or -] 2) at 4 h. The CXC chemokine KC was largely ineffective in activating neutrophils or recruiting them into the liver. Cytokines (tumor necrosis factor-a and interleukin-1[alpha]) and cobra venom factor substantially increased Mac-1 expression and L-selectin shedding on neutrophils and caused stable sinusoidal neutrophil accumulation (170-220 PMN/50 HPF). Only cytokines induced venular neutrophil margination. Thus CXC chemokines in circulation are less effective than cytokines or complement in activation of neutrophils and their recruitment into the hepatic vasculature in vivo. complement activation; cytokines; adhesion molecules; L-selectin; Mac-1; CD11b/CD18

Published
2001

41. The Oxygen Tension Modulates Acetaminophen-Induced Mitochondrial Oxidant Stress and Cell Injury in Cultured Hepatocytes.

Author

Hui-Min Yan, Ramachandran, Anup, Bajt, Mary Lynn, Lemasters, John J., and Jaeschke, Hartmut

Subjects
ACETAMINOPHEN, LIVER cell differentiation, OXIDATIVE stress, MITOCHONDRIAL DNA abnormalities, LABORATORY rats, CELL culture, CHROMOSOMAL translocation
Abstract

Oxidative stress and mitochondrial dysfunction play an important role in acetaminophen (APAP)-induced hepatocyte cell death. However, exact mechanisms involved in the process are controversial, in part, because of the disparity in findings between in vitro and in vivo studies. A major difference in this context is the oxygen tension, with cells in culture being exposed to 21% oxygen, whereas those in the liver experience a gradient from 3 to 9% oxygen. To determine if oxygen tensions could modulate hepatocyte responses to APAP, primary mouse hepatocytes were treated with 5mM APAP for up to 15 h under various oxygen tensions and mitochondrial dysfunction (2,3-bis[2-methoxy-4-nitro-5-sulfophenyl]-2H-tetrazolium-5-carboxyanilide inner salt assay, 5,5′,6,6′-tetrachloro-1,1,3,3-tetraethylbenzimidazolylcarbocyanine iodide [JC-1] fluorescence ratio) and cell death (lactate dehydrogenase release) was evaluated. Mitochondrial reactive oxygen and reactive nitrogen species were measured using Mitosox Red or dihydrorhodamine fluorescence and nitrotyrosine staining, respectively. Exposure of hepatocytes to 5mM APAP at 21% O2 resulted in mitochondrial oxidant stress formation, deterioration of mitochondrial function, and loss of membrane potential as early as 6 h and massive cell death at 15 h. Culture of cells at 10% O2 resulted in no increase in mitochondrial oxidant stress and better preserved mitochondrial function at 6 h and significant protection against cell death at 15 h. Furthermore, dihydrorhodamine fluorescence was significantly attenuated at 10% oxygen. Cells cultured at 5% oxygen were also protected but showed evidence of hypoxia (accumulation of lactate and nuclear translocation of hypoxia-inducing factor-1α). These results suggest that oxygen tension can modulate hepatocyte responses to APAP, with low physiological levels (10%) decreasing mitochondrial oxidant stress and delaying hepatocyte cell death. [ABSTRACT FROM AUTHOR]

Published
2010
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44. Protection against Fas Receptor–Mediated Apoptosis in Hepatocytes and Nonparenchymal Cells by a Caspase-8 Inhibitor in Vivo: Evidence for a Postmitochondrial Processing of Caspase-8.

Author

Bajt, Mary Lynn, Lawson, Judy A., Vonderfecht, Steven L., Gujral, Jaspreet S., and Jaeschke, Hartmut

Subjects
CELL death, APOPTOSIS, LIVER cells, LIVER failure, CYTOCHROMES, MITOCHONDRIA
Abstract

Lymphocytes can kill target cells including hepatocytes during various inflammatory diseases by Fas receptor–mediated apoptosis. Caspase-8 is activated at the receptor level, thereby initiating the processing of downstream effector caspases. The aim of this study was to investigate the time course of caspase-8 activation and to evaluate the efficacy of the caspase-8 inhibitor IETD-CHO in a model of Fas-induced apoptosis in vivo. C3Heb/FeJ mice were treated with the anti-Fas antibody Jo-2 (0.6 mg/kg). Western blot analysis demonstrated increased cytochrome c in the cytosol (20 min), which was followed by the progressive activation of caspase-3, -9 (40–120 min), and caspase-8 (120 min). At 90 and 120 min, extensive hemorrhage was observed, indicating damage to sinusoidal lining cells. In addition, high plasma ALT levels (997 ± 316 U/L) and histological evaluation indicated severe parenchymal cell injury. Parenchymal and nonparenchymal cells showed a similar increase in caspase-3 activity and DNA fragmentation. Treatment with IETD-CHO (10 mg/kg) attenuated the increase in caspase-3 activity and DNA fragmentation by 80–90% and completely prevented hemorrhage and parenchymal cell damage. IETD-CHO also prevented the early release of mitochondrial cytochrome c and the processing of caspase-3, -8, and -9. Thus, our data support the hypothesis that Fas-mediated apoptosis is dependent on caspase-8 activation in hepatocytes and nonparenchymal cells. However, the bulk of procaspase-8 is processed late, suggesting that only a small amount of procaspase-8 may actually be activated at the Fas receptor. This initial signal may be amplified by further activation of caspase-8 by effector caspases, i.e., after mitochondrial activation. Caspase-8 is a promising therapeutic target for inhibition of Fas-mediated apoptosis. [ABSTRACT FROM PUBLISHER]

Published
2000
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45. Systems Toxicology. The Hepatic Inflammatory Response after Acetaminophen Overdose: Role of Neutrophils.

Author

Lawson, Judy A., Farhood, Anwar, Hopper, Robert D., Bajt, Mary Lynn, and Jaeschke, Hartmut

Subjects
ACETAMINOPHEN, HEPATOTOXICOLOGY, NEUTROPHILS, NECROSIS, LIVER, SELECTINS
Abstract

Acetaminophen overdose induces severe liver injury and hepatic failure. There is evidence that inflammatory cells may be involved in the pathophysiology. Thus, the aim of this investigation was to characterize the neutrophilic inflammatory response after treatment of C3Heb/FeJ mice with 300 mg/kg acetaminophen. A time course study showed that neutrophils accumulate in the liver parallel to or slightly after the development of liver injury. The number of neutrophils in the liver was substantial (209 ± 64 PMN/50 high-power fields at 12 h) compared to baseline levels (7 ± 1). Serum levels of TNF-α and the C-X-C chemokines KC and MIP-2 increased by 28-, 14-, and 295-fold, respectively, over levels found in controls during the injury process. In addition, mRNA expression of MIP-2 and KC were upregulated in livers of acetaminophen-treated animals as determined by ribonuclease protection assay. However, none of these mediators were generated in large enough quantities to account for neutrophil sequestration in the liver. There was no upregulation of Mac-1 (CD11b/CD18) or shedding of L-selectin on circulating neutrophils. Moreover, an anti-CD18 antibody had no protective effect against acetaminophen overdose during the first 24 h. These results indicate that there is a local inflammatory response after acetaminophen overdose, including a substantial accumulation of neutrophils in the liver. Because of the critical importance of β2 integrins for neutrophil cytotoxicity, these results suggest that neutrophils do not contribute to the initiation or progression of AAP-induced liver. The inflammation observed after acetaminophen overdose may be characteristic for a response sufficient to recruit neutrophils for the purpose of removing necrotic cells but is not severe enough to cause additional damage. [ABSTRACT FROM PUBLISHER]

Published
2000
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46. Reactive Oxygen as Modulator of TNF and Fas Receptor-Mediated Apoptosis In Vivo: Studies with Glutathione Peroxidase-Deficient Mice

Author

Bajt, Mary Lynn, Ho, Ye-Shih, Vonderfecht, Steven L., and Jaeschke, Hartmut

Abstract

Reactive oxygen species (ROS) can directly induce or enhance tumor necrosis factor (TNF)-mediated apoptosis in a number of different cell lines. To test the relevance of intracellular ROS in modulating apoptotic signaling in vivo, we evaluated hepatocellular apoptosis mediated by the TNF or Fas receptor in wild-type and glutathione peroxidase-1 (Gpx1-/-)-deficient mice (129SV/B6 background). Apoptosis developed in livers of wild-type animals 4-6 h after intraperitoneal administration of 700 mg/kg galactosamine/100 µg/kg endotoxin. Apoptosis was indicated by processing of procaspases-3 (assessed by western blotting), a fivefold increase in caspase-3 activity (DEVD-AMC as substrate), and a 44-fold increase in DNA fragmentation (ELISA). The time course and magnitude of apoptosis were the same in Gpx1-/- mice. In contrast, Gpx1-/- mice had higher plasma alanine aminotransferase (ALT) levels and more severe hemorrhage compared to wild-type animals at 6 h. Treatment of wild-type mice with the anti-Fas antibody Jo-2 (0.6 mg/kg i.v.) resulted in processing of procaspase-3 and a sevenfold increase in caspase-3 activity in both wild-type and Gpx1-/- mice. However, higher plasma ALT values in Gpx1-/- mice at 3 h may reflect a trend to develop more rapidly secondary necrosis. These data suggest that, under our experimental conditions, intracellular ROS did not modulate the death receptor-initiated apoptotic signaling cascade in hepatocytes. As Gpx1 is located in the cytosol and in mitochondria, which are the main cellular compartments involved in apoptotic signaling, our findings indicate that the oxidant stress in vivo was insufficient to modulate these signaling pathways. However, Gpx1 deficiency enhances the susceptibility for secondary necrosis or neutrophil-induced cell injury.

Published
2002
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47. αMβ2(CD11b/CD18, Mac‐1) integrin activation by a unique monoclonal antibody to αMI domain that is divalent cation‐sensitive

Author

Orchekowski, Randal P., Plescia, Janet, Altieri, Dario C., and Bajt, Mary Lynn

Abstract

The β2(CD18) leukocyte integrins play a key role in normal and inflammatory immune responses. In resting leukocytes, these receptors do not bind ligands. However, when leukocytes are exposed to an appropriate agonist, high‐affinity ligand binding is achieved, presumably as a result of conformational changes in the integrin. In this study, we describe a novel monoclonal antibody, mAb 6C1, directed against the αMsubunit, which directly induces adhesion of αMβ2‐transfected CHO cells to fibrinogen, ICAM‐1, and iC3b. Induction of binding could also be accomplished by monovalent Fab fragments of mAb 6C1 at concentrations similar to that observed with intact IgG, demonstrating stimulation of adhesion was not because of receptor cross‐linking at the cell surface. The binding of mAb 6C1 induces conformational changes in the receptor, as evidenced by the expression of an “activation reporter” epitope recognized by mAb 24. The binding of mAb 6C1 is modulated by divalent cations. Mn2+promoted high levels of 6C1 binding, and Mg2+supported low levels of binding, however Ca2+failed to support binding. A unique distinction of mAb 6C1 is localization of its epitope to the αMI domain. The αMI domain is essential for ligand binding, can directly bind divalent cations, and participates in the regulation of αMβ2ligand‐binding affinity. Thus, these studies have identified a novel αMI domain activation epitope of αMβ2and support the idea that the I domain modulates the activational state of the β2integrins.

Published
2000
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48. Heme oxygenase-1 induction in hepatocytes and non-parenchymal cells protects against liver injury during endotoxemia.

Author

Dorman, Robert B., Bajt, Mary Lynn, Farhood, Anwar, Mayes, January, and Jaeschke, Hartmut

Subjects
*HEME oxygenase, *LIVER cells, *LIVER injuries, *ENDOTOXEMIA, *ENDOTOXINS
Abstract

Introduction: Heme oxygenase-1 (HO-1) is a stress response enzyme, which catalyses the breakdown of heme into biliverdin-IX alpha, carbon monoxide and ferrous iron. Under situations of oxidative stress, heat stress, ischemia/reperfusion injury or endotoxemia, HO-1 has been shown to be induced and to elicit a protective effect. The mechanism of how this protective effect is executed is unknown. Results: HO-1 induction with cobalt protoporphorin (Co-PP) dose-dependently protected against apoptotic cell death as well as neutrophil-mediated oncosis in the galactosamine/endotoxin (Gal/ET) shock model. Induction of HO-1 with Co-PP dose-dependently protected against neutrophilmediated oncosis as indicated by attenuated ALT release and TNF-mediated apoptotic cell death has indicated by reduced caspase-3 activation. HO-1 induction did not attenuate Gal/ET-induced TNF-alpha formation. Furthermore, a similar protective effect with the high dose of Co-PP was observed when animals were treated with Gal/TNF-alpha. Conclusions: HO-1 induction attenuates apoptosis and neutrophil-mediated oncosis in the Gal/ET shock model. However, the protective effect is not due to the reduction of TNF-alpha release or the attenuation of neutrophil accumulation in the liver sinusoids. [ABSTRACT FROM AUTHOR]

Published
2004
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49. Expression of a structural domain of the β2subunit essential for αMβ2ligand recognition

Author

Goodman, Thomas G., DeGraaf, Michael E., Fischer, H. David, and Bajt, Mary Lynn

Abstract

The β2leukocyte integrins comprise a group of closely related adhesion receptors that mediate critical events during normal and inflammatory immune responses. Central to the understanding of β2integrin function is the basis of ligand recognition. Results from our laboratory and others indicate the presence of multiple ligand contact points in both the α and β subunit. As an approach to identify and characterize regulatory domains of the β2subunit, we have generated two different subdomains of the β2subunit for expression on the surface of mammalian cells through a phosphatidylinositol glycan anchor. The first subdomain contains the putative β2MIDAS motif implicated in ligand binding [β2(LB)], whereas the second β2subdomain contains the cysteine‐rich region [β2(CR)]. Cells expressing αmand β2constructs singly or cotransfected transiently in COS‐7 cells were tested for the ability to bind to immobilized iC3b. Cells bearing the recombinant αMβ2(LB) were capable of adhering to iC3b in a manner similar to that observed with the complete αMβ2heterodimer. In contrast, cells expressing αMβ2(CR) failed to adhere to immobilized iC3b. Moreover, cells bearing singly transfected α or β chains alone failed to adhere to immobilized iC3b. These results indicate that along with αm, the β2(LB) subdomain contains the sufficient components within the β2subunit essential for ligand recognition. These findings support the hypothesis that the β2subunit cooperates with site(s) within the αMsubunit in a receptor/cation/ligand complex resulting in high‐affinity ligand interaction. J. Leukoc. Biol.64: 767–773; 1998.

Published
1998
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50. β2(CD18) Mutations Abolish Ligand Recognition by I Domain Integrins LFA-1 ( αLβ2, CD11a/CD18) and MAC-1 ( αMβ2, CD11b/CD18) (∗)

Author

Bajt, Mary Lynn, Goodman, Tom, and McGuire, Sarah Lea

Abstract

The “I” domains of the β2(CD18) leukocyte integrins are implicated in ligand binding function. Moreover, rather than recognizing linear peptide sequences, this class of integrins generally recognizes multiple discontinuous sites on immunoglobulin superfamily adhesion receptors. A conserved cluster of oxygenated residues is involved in ligand recognition by β1and β3integrins. In the present study, we evaluated the role of this region in the I domain-containing β2integrins. Recombinant αLβ2(LFA-1, CD11a/CD18) and αMβ2(MAC-1, CD11b/CD18) were expressed on COS cells, and function was assessed by adhesion to ICAM-1 or iC3b, respectively. Alanine substitution at position Asp134or Ser136in β2produced a complete loss in the capacity of both αLβ2and αMβ2to support cell adhesion. In contrast, substitution at Asp128or Ser138resulted in loss of β2surface expression when co-transfected with αL(CD11a) or αM(CD11b). These data provide the first evidence for involvement of the β2subunit in ligand binding to I domain integrins.

Published
1995
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