Leukotriene B4 Receptor (BLT-1) Modulates Neutrophil Influx into the Peritoneum but Not the Lung and Liver during Surgically Induced Bacterial Peritonitis in Mice

Leukotriene B₄ (LTB₄) is a rapidly synthesized, early neutrophil chemoattractant that signals via its cell surface receptor, BLT-1, to attract and activate neutrophils during peritonitis. BLT-1-deficient (BLT-1^−/−) mice were used to determine the effects of LTB₄ on neutrophil migration and activation, bacterial levels, and survival after cecal ligation and puncture (CLP). Male BLT-1^−/− or wild-type (WT) BALB/c mice underwent CLP. Tissues were harvested for determination of levels of bacteria, myeloperoxidase (MPO), LTB₄, macrophage inflammatory protein 2 (MIP-2), and neutrophil (polymorphonuclear leukocyte [PMN]) numbers at 4 and 18 h after CLP. PMN activation was determined by an assessment of phagocytosis ability and CD11b expression. Survival was also determined. BLT-1^−/− mice had decreased numbers of PMNs in the peritoneum at both 4 and 18 h after CLP but increased numbers of PMNs in the blood at 18 h compared with WT mice. Liver and lung MPO levels were significantly higher in BLT-1^−/− mice at both 4 and 18 h after CLP, with increased bacterial levels in the blood, the liver, and peritoneal fluid at 4 h. Bacterial levels remained higher in peritoneal fluid at 18 h, but blood and liver bacterial levels at 18 h were not different from levels at 4 h. PMN phagocytosis and CD11b levels were decreased in BLT-1^−/− mice. LTB₄ levels were similar between the groups before and after CLP, but MIP-2 levels were decreased both locally and systemically in BLT-1^−/− mice. Survival was significantly improved in BLT-1^−/− mice (71%) compared with WT mice (14%) at 48 h post-CLP. Thus, LTB₄ modulates neutrophil migration into the mouse peritoneum, but not the lung or liver, after CLP. Despite higher bacterial and PMN levels at remote sites, there was increased survival in BLT-1^−/− mice compared to WT mice. Decreased PMN activation may result in less remote organ dysfunction and improved survival.     

小檗碱与育亨宾对脓毒症小鼠脾细胞凋亡的影响及其机制研究

 目的:探讨小檗碱与育亨宾对脓毒症小鼠脾细胞凋亡的影响及其作用机制。方法: 采用盲肠结扎穿孔（CLP）构建小鼠脓毒症模型,分为假手术（sham）组、CLP组、CLP+小檗碱组、CLP+育亨宾组、CLP+小檗碱与育亨宾合剂组。CLP术后2 h灌胃给予相应药物,20 h后取脾脏,用TUNEL和流式细胞术检测小鼠脾细胞凋亡,酶荧光法检测caspase-3、caspase-8和caspase-9的活性变化,Western blotting检测凋亡相关蛋白Fas、Bim、Bcl-2和Bax的表达。结果: (1) CLP组脾脏TUNEL阳性细胞百分率显著高于sham组（P＜0.05）,CLP+育亨宾与小檗碱合剂组、CLP+育亨宾组凋亡细胞百分率显著低于CLP组（P＜0.05）。(2) 流式细胞仪检测显示CLP组凋亡的脾细胞及T淋巴细胞明显多于sham组(P＜0.05),CLP+育亨宾与小檗碱合剂组、CLP+育亨宾组凋亡的脾细胞及T淋巴细胞明显少于CLP组 (P＜0.05) 。(3) CLP+育亨宾与小檗碱合剂组、CLP+育亨宾组脾细胞caspase-3、caspase-8、caspase-9的活性均低于CLP组(P＜0.05);而CLP+小檗碱组脾细胞caspase-9活性也低于CLP组 (P＜0.05)。(4) CLP+育亨宾与小檗碱合剂组胞浆Fas、Bim、Bax表达均低于CLP组,CLP+育亨宾组胞浆Fas表达低于CLP组,CLP+小檗碱治疗组胞浆Bim、线粒体Bax表达均低于CLP组。结论: (1) 小檗碱与育亨宾合用可通过阻断内、外源性凋亡途径抑制脓毒症小鼠脾细胞凋亡,特别是T淋巴细胞凋亡。(2) 育亨宾主要通过抑制Fas的表达、进而阻断内、外源性凋亡途径减少脓毒症诱导的脾细胞凋亡。(3) 小檗碱可抑制脓毒症小鼠脾细胞线粒体凋亡途径,但对脓毒症小鼠脾细胞凋亡的抑制作用并不明显。     

Early and late effects of bone marrow-derived mononuclear cell therapy on lung and distal organs in experimental sepsis

We tested the hypothesis that bone marrow-derived mononuclear cells (BMDMCs) at an early phase of cecal ligation and puncture (CLP)-induced sepsis may have lasting effects on: (1) lung mechanics and histology, (2) the structural remodelling of lung parenchyma, (3) lung, kidney, and liver cell apoptosis, and (4) pro- and anti-inflammatory cytokines and growth factors. At day 1, BMDMC significantly reduced mortality, as well as caspase-3, interleukin (IL)-6 and IL-1β, vascular endothelial growth factor, platelet-derived growth factor, hepatocyte growth factor, and transforming growth factor-β, but increased IL-10 mRNA expression in lung tissue in septic mice contributing to endothelium and epithelium alveolar repair and improvement of lung mechanics. BMDMC also prevented the increase of apoptotic cells in lung, liver, and kidney. At day 7, these early functional and morphological effects were preserved or further improved. In conclusion, in the present model of sepsis, the beneficial effects of early administration of BMDMCs on lung and distal organs were preserved, possibly by paracrine mechanisms.     

Antagonism of α2A-adrenoceptor: a novel approach to inhibit inflammatory responses in sepsis

Sepsis is a systemic inflammatory response syndrome (SIRS) when an infection is the etiology of SIRS. Our previous studies have indicated that the release of the sympathetic neurotransmitter, norepinephrine (NE), from the gut is increased in sepsis, and that NE potentiates endotoxin-induced tumor necrosis factor (TNF)-α upregulation via the A subtype of α₂-adrenoceptors (i.e., α_2A-AR) expressed on the surface of Kupffer cells. A specific antagonist for α_2A-AR, 2-[(4,5-dihydro-1H-imidazol-2-yl) methyl]-2,3-dihydro-1-methyl-1H-isoindole maleate (BRL-44408 maleate), reduces TNF-α secretion in cultured Kupffer cells. We, therefore, hypothesize that administration of BRL-44408 maleate inhibits inflammatory responses and reduces organ injury in sepsis. To study this, sepsis was induced in male rats by cecal ligation and puncture (CLP). At 5 h after CLP, BRL-44408 maleate (0.3125, 0.625, 1.25, 2.5, or 5.0 mg/kg BW) or vehicle (1-ml normal saline) were administered intravenously over a period of 30 min. Blood and intestinal samples were collected at 20 h after CLP. Serum levels of TNF-α, interleukin (IL)-6, IL-10, keratinocyte-derived chemokine (KC), macrophage inflammatory protein-2 (MIP-2), liver enzymes (i.e., aspartate aminotransferase (AST) and alanine aminotransferase (ALT)), and lactate were measured. The intestinal levels of TNF-α, IL-6, and myeloperoxidase (MPO) activities were also analyzed. In additional groups of animals, the necrotic cecum was excised at 20 h post-CLP, and the 10-day survival was recorded. Our results showed that serum levels of proinflammatory cytokines (TNF-α and IL-6), anti-inflammatory cytokine (IL-10), chemokines (KC, MIP-2), liver enzymes (AST and ALT), lactate, and intestinal levels of TNF-α, IL-6, and MPO were significantly elevated at 20 h after CLP. Administration of BRL-44408 maleate significantly reduced serum levels of proinflammatory cytokines, chemokines, liver enzymes, and lactate, and dramatically decreased TNF-α, IL-6, and MPO levels in the gut. However, it has no statistical effects on the elevated serum levels of IL-10. Moreover, BRL-44408 maleate at the doses of 2.5 or 5.0 mg/kg BW significantly increased the survival rate after CLP and cecal excision. In conclusion, modulation of the sympathetic nervous system by blocking α_2A-AR appears to be a novel treatment for inflammatory conditions such as sepsis.     

Leukotriene B4 receptor (BLT-1) modulates neutrophil influx into the peritoneum but not the lung and liver during surgically induced bacterial peritonitis in mice

Leukotriene B4 (LTB4) is a rapidly synthesized, early neutrophil chemoattractant that signals via its cell surface receptor, BLT-1, to attract and activate neutrophils during peritonitis. BLT-1-deficient (BLT-1(-/-)) mice were used to determine the effects of LTB4 on neutrophil migration and activation, bacterial levels, and survival after cecal ligation and puncture (CLP). Male BLT-1(-/-) or wild-type (WT) BALB/c mice underwent CLP. Tissues were harvested for determination of levels of bacteria, myeloperoxidase (MPO), LTB4, macrophage inflammatory protein 2 (MIP-2), and neutrophil (polymorphonuclear leukocyte [PMN]) numbers at 4 and 18 h after CLP. PMN activation was determined by an assessment of phagocytosis ability and CD11b expression. Survival was also determined. BLT-1(-/-) mice had decreased numbers of PMNs in the peritoneum at both 4 and 18 h after CLP but increased numbers of PMNs in the blood at 18 h compared with WT mice. Liver and lung MPO levels were significantly higher in BLT-1(-/-) mice at both 4 and 18 h after CLP, with increased bacterial levels in the blood, the liver, and peritoneal fluid at 4 h. Bacterial levels remained higher in peritoneal fluid at 18 h, but blood and liver bacterial levels at 18 h were not different from levels at 4 h. PMN phagocytosis and CD11b levels were decreased in BLT-1(-/-) mice. LTB4 levels were similar between the groups before and after CLP, but MIP-2 levels were decreased both locally and systemically in BLT-1(-/-) mice. Survival was significantly improved in BLT-1(-/-) mice (71%) compared with WT mice (14%) at 48 h post-CLP. Thus, LTB4 modulates neutrophil migration into the mouse peritoneum, but not the lung or liver, after CLP. Despite higher bacterial and PMN levels at remote sites, there was increased survival in BLT-1(-/-) mice compared to WT mice. Decreased PMN activation may result in less remote organ dysfunction and improved survival.     

Inhibition of endogenous glucocorticoid synthesis aggravates lung injury triggered by septic shock in rats

The aim of this study was to determine the effects of previous administration of metyrapone (met) on the acute lung injury (ALI) induced by caecal ligation and puncture (CLP) and to explore met's relationship with endogenous glucocorticoids (GCs) as measured by inflammatory, oxidative and functional parameters. One hundred and thirty‐five Wistar rats were divided into three main groups: Control (Naïve), Sham and CLP. The animals received pretreatment one hour before surgery. The Naïve group did not undergo any procedure or pretreatment. The Sham group only had the caecum exposed and was pretreated with saline. The CLP group was divided into three pretreatments: metyrapone (CLP met 50 mg/kg i.p.), dexamethasone (CLP dex 0.5 mg/kg i.p.) or saline (CLP sal equivalent volume of 0.9% NaCl). Analyses were performed after 6 and 24 h of sepsis. Previous administration of met significantly increased inflammatory cells, as well as myeloperoxidase (MPO) activity in the lung tissue and alveolar collapsed area, with consequent impairment of respiratory mechanics being observed compared to Sham and Naïve; CLP sal exhibited similar results to those of met. The met reduced corticosterone (CCT) levels and dramatically increased hydrogen peroxide (H₂O₂) levels in the lung tissue compared to CLP sal. Our results suggest that previous administration of met may have contributed to increased pulmonary oxidative stress and increased mortality by mechanisms dependent of endogenous GC.     

Immediate and Delayed Leukocyte Apoptosis in Two Models of Peritonitis

Leukocyte apoptosis is an energy-dependent process that facilitates resolution of the cellular inflammatory response. Levels of apoptosis can be accelerated or inhibited after exposure to various stimuli. To compare apoptosis in transmigrated leukocytes, two models of peritonitis in mice were used that both cause leukocyte influx into the peritoneal cavity: (1) intraperitoneal thioglycollate administration producing a sterile peritonitis and (2) cecal ligation and puncture (CLP) producing a polymicrobial bacterial peritonitis. Samples of blood and peritoneal exudate cells (PEC) were collected at multiple time points after induction of peritonitis. Leukocytes were either fixed immediately to determine an immediate apoptosis level or cultured for 24 h to determine a delayed apo- ptosis level. Apoptosis was assessed using terminal uridine-triphosphate nick-end labeling (TUNEL) assay, flow cytometry, and confocal microscopy. Leukocyte influx into the peritoneal cavity was confirmed in both models. At all time points, and in both models, there was increased immediate apoptosis in PEC compared with unmanipulated controls and this increase was maximal in CLP after 18 h, although it appeared to remain at a stable level in the sterile peritonitis model by 3 h. There was also an increase in PEC delayed apoptosis at early time points in both models, again maximal at 18 h for CLP, with the levels being significantly higher than the thioglycollate model at 6 h and 18 h. The mice had a relative peripheral neutropenia at 6 h after CLP, but not post thioglycollate injection, and this persisted until 42 h. Lung and liver MPO levels were elevated in CLP but did not increase after thioglycollate. There was no increase in immediate peripheral leukocyte apoptosis in either model, but an increase in delayed peripheral leukocyte apoptosis was observed by 18 h in both models. Peripheral leukocyte CD11b expression, which is a marker of activation, was also persistently elevated in the CLP model, but not in sterile peritonitis. In conclusion, CLP is a more potent stimulus for apoptosis of leukocytes than their migration to the site of inflammation alone, as occurs in the thioglycollate model. Blood leukocyte apoptosis also appears not to be dependent on CD11b expression, and therefore activation status.     

INHIBITION OF APOPTOSIS BY THE γ-HERPESVIRUSES

All members of the &#110 -herpesvirus family encode genes capable of inhibiting apoptosis. Inhibition of a variety of types of apoptotic stimuli have been demonstrated for specific viral genes, including pathways induced by the immune system as well as internal pathways. Virally encoded genes inhibit the activation of caspase-8 by the TNF receptor and Fas; activate NF- &#115 B to increase expression of antiapoptotic genes; inhibit interferon response; bind to p53, thereby blocking p53 dependent apoptosis; and interact with other pro- and antiapoptotic cellular genes. All &#110 -herpesviruses also express viral homologues of cellular antiapoptotic genes, including one or two Bcl-2 homologues. The human &#110 -herpesviruses encode genes that can inhibit apoptosis during both latent and lytic infection. During latent phase infection inhibition of apoptosis is likely important for persistence of the &#110 -herpesviruses in the face of immune attack, but it is also required for maintenance of infected cells in culture. During lytic replication the virus inhibits apoptosis to prevent cell death before viral replication and spread occurs.     

CD8+ T cells promote inflammation and apoptosis in the liver after sepsis: role of Fas-FasL

Although studies blocking the Fas pathway indicate it can decrease organ damage while improving septic (cecal ligation and puncture, CLP) mouse survival, little is known about how Fas-Fas ligand (FasL) interactions mediate this protection at the tissue level. Here, we report that although Fas expression on splenocytes and hepatocytes is up-regulated by CLP and is inhibited by in vivo short interfering RNA, FasL as well as the frequency of CD8(+) T cells are differentially altered by sepsis in the spleen (no change in FasL, decreased percentage of CD8(+) and CD4(+) T cells) versus the liver (increased FasL expression on CD8(+) T cells and increase in percentage/number). Adoptive transfer of CLP FasL(+/+) versus FasL(-/-) mouse liver CD8(+) T cells to severe combined immunodeficient or RAG1(-/-) recipient mice indicated that these cells could induce inflammation. The FasL-mediated cytotoxic capacity of these septic mouse liver CD8(+) T cells was shown by their ability to damage directly cultured hepatocytes. Finally, although CD8(-/-) mice exhibited a reduction in both CLP-induced liver active caspase-3 staining and blood interleukin-6 levels, only FasL(-/-) (but not CD8(-/-)) protected the septic mouse spleen from increasing apoptosis. Thus, although truncating Fas-FasL signaling ameliorates many untoward effects of sepsis, the pathological mode of action is distinct at the tissue level.     

Murine gammaherpesvirus M11 gene product inhibits apoptosis and is expressed during virus persistence

Summary.  The murine gammaherpesvirus (MHV-68) M11 gene encodes a protein with BH1 domain homology to Bcl-2. We found that the M11 gene product (MHVBcl-2) protected murine epithelial cells from TNF-α induced apoptosis. M11 was transcribed during early lytic infection in vitro. During early infection of mice, M11 message was detected in spleen and lung along with lytic cycle messages. During persistence, lytic cycle gene expression was undetectable but M11 RNA was still present. This suggests that MHVBcl-2 promotes virus survival by protecting not only productively infected but also persistently infected cells from apoptotic death. Received April 7, 2000/Accepted May 31, 2000     

Shock-induced neutrophil mediated priming for acute lung injury in mice: divergent effects of TLR-4 and TLR-4/FasL deficiency

Acute lung injury (ALI) leading to respiratory distress is a common sequela of shock/trauma, however, modeling this process in mice with a single shock or septic event is inconsistent. One explanation is that hemorrhage is often just a "priming insult," thus, secondary stimuli may be required to "trigger" ALI. To test this we carried out studies in which we assessed the capacity of hemorrhage alone or hemorrhage followed by septic challenge (CLP) to induce ALI. Lung edema, bronchoalveolar lavage interleukin (IL)-6, alveolar congestion, as well as lung IL-6, macrophage inflammatory protein (MIP)-2, and myeloperoxidase (MPO) activity were all increased in mice subjected to CLP at 24 but not 72 hours following hemorrhage. This was associated with a marked increase in the susceptibility of these mice to septic mortality. Peripheral blood neutrophils derived from 24 hours post-hemorrhage, but not Sham animals, exhibited an ex vivo decrease in apoptotic frequency and an increase in respiratory burst capacity, consistent with in vivo "priming." Subsequently, we observed that adoptive transfer of neutrophils from hemorrhaged but not sham-hemorrhage animals to neutropenic recipients reproduce ALI when subsequently septically challenged, implying that this priming was mediated by neutrophils. We also found marked general increases in lung IL-6, MIP-2, and MPO in mice deficient for toll-like receptor (TLR-4) or the combined lack of TLR-4/FasL. However, the TLR-4 defect markedly attenuated neutrophil influx into the lung while not altering the change in local cytokine/chemokine expression. Alternatively, the combined loss of FasL and TLR-4 did not inhibit the increase in MPO and exacerbated lung IL-6/MIP-2 levels even further.     

Neurokinin-1 receptor antagonist treatment protects mice against lung injury in polymicrobial sepsis

Earlier work from our laboratory has suggested a role for the neuropeptide substance P (SP) in inducing lung injury in sepsis. In that study, mice lacking the preprotachykinin-A gene, which encodes for SP, were protected against lung injury in sepsis. To further substantiate the role of SP in sepsis and to study its mechanism, we have evaluated the effect of SR140333, a SP receptor antagonist, on lung injury in sepsis, which was induced in male Swiss mice by cecal ligation and puncture (CLP). Sham-operated animals received the same surgical procedure, except CLP. Vehicle or SR140333 (1 mg/kg, s.c.) was administered to CLP mice 30 min before or 1 h after the CLP. Eight hours after surgery, lung tissue was collected and analyzed for myeloperoxidase (MPO) activity, chemokines, cytokines, and adhesion molecules. The CLP procedure alone caused a significant increase in the lung levels of MIP-2, MCP-1, IL-1beta, IL-6, ICAM-1, E- and P-selectin, and MPO activity when compared with sham-operated mice. SR140333 injected 30 min before or 1 h after CLP significantly attenuated the increased lung MPO activity and levels of MIP-2, MCP-1, IL-1beta, IL-6, ICAM-1, and E- and P-selectin compared with CLP-operated mice injected with the vehicle. Histological evaluation of the lung sections further supported the beneficial effect of SR140333 on lung inflammation. Therefore, SP receptor antagonism can be a potential therapeutic target in polymicrobial sepsis, and this effect is brought about via reduction in leukocyte recruitment.     

Sildenafil treatment attenuates lung and kidney injury due to overproduction of oxidant activity in a rat model of sepsis: a biochemical and histopathological study

Sepsis is a systemic inflammatory response to infection and a major cause of morbidity and mortality. Sildenafil (SLD) is a selective and potent inhibitor of cyclic guanosine monophosphate (cGMP)-specific phosphodiesterase PDE5. We aimed to investigate the protective effects of sildenafil on caecal ligation and puncture (CLP)-induced sepsis in rats. Four groups of rats were used, each composed of 10 rats: (i) 10 mg/kg SLD-treated CLP group; (ii) 20 mg/kg SLD-treated CLP group; (iii) CLP group; and (iv) sham-operated control group. A CLP polymicrobial sepsis model was applied to the rats. All groups were killed 16 h later, and lung, kidney and blood samples were analysed histopathologically and biochemically. Sildenafil increased glutathione (GSH) and decreased the activation of myeloperoxidase (MPO) and of lipid peroxidase (LPO) and levels of superoxide dismutase (SOD) in the septic rats. We observed a significant decrease in LPO and MPO and a decrease in SOD activity in the sildenafil-treated CLP rats compared with the sham group. In addition, 20 mg/kg sildenafil treatment in the sham-operated rats improved the biochemical status of lungs and kidneys. Histopathological analysis revealed significant differences in inflammation scores between the sepsis group and the other groups, except the CLP + sildenafil 10 mg/kg group. The CLP + sildenafil 20 mg/kg group had the lowest inflammation score. Sildenafil treatment decreased the serum tumour necrosis factor (TNF)-α level when compared to the CLP group. Our results indicate that sildenafil is a highly protective agent in preventing lung and kidney damage caused by CLP-induced sepsis via maintenance of the oxidant-anti-oxidant status and decrease in the level of TNF-α.     

Pathogenic avian adenovirus type II induces apoptosis in turkey spleen cells

Summary.  Wild-type mammalian adenoviruses are known to inhibit programmed cells death in infected cells. This study demonstrated for the first time that an avian type II adenovirus, the hemorrhagic enteritis virus (HEV) of turkeys, induced apoptosis in turkey spleen cells at 3 and 4 days post infection. The increased apoptosis rate in spleens of HEV-infected turkeys was associated with increased virus replication. Increased apoptosis preceded extensive virus-induced cellular necrosis. At 3 days post infection, spleen cells from HEV-infected turkeys released tumor necrosis like factor and nitric oxide inducing factors after ex vivo stimulation with concanavalin A. Spleen cells from HEV-exposed turkeys also secreted an interleukin 6-like factor when cultured in vitro. These cytokines may have contributed to HEV-pathogenesis and HEV-induced apoptosis and necrosis in the spleen. Induction of apoptosis by an avian adenovirus but not by wild-type mammalian adenoviruses indicates that evolutionarily distant adenoviruses may have different pathogenic mechanisms. Received December 1, 1999 accepted February 16, 2000     

Inhibition of C5 or absence of C6 protects from sepsis mortality

Inhibiting complement anaphlytoxin C5a during sepsis may prevent sepsis mortality. Although human anti-C5 antibodies exist, their therapeutic use in microbial sepsis has been avoided because of the hypothesis that inhibiting C5b will prevent formation of the bactericidal membrane attack complex (MAC) and worsen clinical outcome. We wished to test the hypothesis that inhibition of C5 would improve outcomes in sepsis. Sepsis was induced in rats by laparotomy and cecal ligation and puncture (CLP) by an IACUC-approved protocol. Sham animals underwent laparotomy without CLP. Following CLP rats were randomized to receive a single IV dose of purified IgG ant-C5 antibody (Ab) or control IgG Ab. Anti-C5 Ab treated rats (n = 20) had significantly lower mortality vs. controls (n = 21), 20% vs. 52% (P = 0.019, log-rank). Analysis of bacterial load by culture of spleen and liver homogenates showed a reduction in colony forming units in anti-C5 Ab treated rats vs. control IgG (P = 0.003 and 0.009, respectively). Anti-C5 treatment reduced lung injury as measured by total MPO content of lung tissue (P = 0.024). Finally, rats genetically deficient in C6 production, unable to form MAC but capable of producing C5a and C5b, were protected from CLP-induced sepsis mortality. Our results show that in anti-C5 antibody therapy prevents CLP sepsis-induced mortality and improves lung injury. Inhibition of the complement MAC does not increase bacterial load or mortality, therefore, the use of anti-C5 therapy may be beneficial rather than detrimental in sepsis.     

Apoptosis in rabbit haemorrhagic disease

Rabbit haemorrhagic disease virus (RHDV) causes an acute hepatitis and disseminated intravascular coagulation. Six rabbits were inoculated experimentally with RHDV to investigate any potential relationship between infection and apoptosis in the liver. Two rabbits were killed at 12 h post-inoculation (PI) and two at 24 h PI. The remaining two rabbits died at 30 h and 31 h PI. Immunohistochemical labelling for RHDV antigen-positive cells, TUNEL assay for apoptotic cells, and DNA analysis were performed on samples of liver. The four rabbits that died or were killed 24-31 h PI had acute hepatitis with infiltration of heterophils and necrotic hepatocytes. RHDV antigen-positive cells and apoptotic cells appeared in the centriacinar areas at 12 h PI; subsequently they spread to periacinar areas and increased in number, but the viral antigen-positive cells outnumbered apoptotic cells. At 24-31 h PI, few apoptotic cells were recognized in the areas infiltrated with lymphocytes and heterophils. The results suggested an association between RHDV infection and apoptosis of hepatocytes.     

Activation of the δ-opioid receptor inhibits serum deprivation-induced apoptosis of human liver cells via the activation of PKC and the mitochondrial pathway

Apoptosis of human liver cells is commonly found in liver diseases and liver surgery and directly affects their prognosis. Recent studies have found that δ-opioid receptors, abundant in the membranes of hepatic cells, participate in the oncogenesis and progression of liver tumors, viral hepatitis, liver cirrhosis and other diseases. The purpose of this study was to analyze the effect of the activation of the δ-opioid receptor on liver cell apoptosis and explore its relationship with PKC and the mitochondrial pathway. Hepatic cells were serum-deprived to induce apoptosis in vitro. During the period of apoptosis, mitochondrial membrane potential decreased, protein levels of cytosolic cytochrome c increased and the expression of Bcl-2 decreased, indicating that apoptosis was specifically induced by the mitochondrial pathway. Importantly, activation of δ-opioid receptors reversed the apoptotic state of hepatic cells. Following δ-opioid receptor activation, the mitochondrial membrane potential remained stable, and the expression of cytosolic cytochrome c and Bax decreased. These data suggest that δ-opioid receptor activation specifically inhibits the mitochondrial apoptotic pathway. In addition, activation of the δ-opioid receptor apparently increased the levels of PKC; blocking the PKC pathway led to increased apoptosis of liver cells, which was not affected by the activation of δ-opioid receptor. Blocking the PKC pathway led to increased apoptosis of liver cells, which was associated with δ-opioid receptor activation. Therefore, the PKC pathway is involved in the anti-apoptotic effects of the δ-opioid receptor on liver cells.     

Internalization of proteinase 3 is concomitant with endothelial cell apoptosis and internalization of myeloperoxidase with generation of intracellular oxidants

The important issue addressed by the studies presented here is the mechanism of neutrophil-mediated damage to endothelial and epithelial cells during inflammation. Binding of neutrophil-released granule proteins to endothelial cells may be involved in vascular damage in patients with inflammatory vascular diseases. We have determined whether granule proteins proteinase 3(PR3) and/or myeloperoxidase (MPO) are internalized into endothelial cells, as examined by UV light, confocal, and electron microscopy. Coincident induction of apoptosis and/or the generation of intracellular oxidants were monitored. The results indicate that human endothelial cells (human umbilical vein endothelial cells, human umbilical arterial endothelial cells, human lung microvascular endothelial cells) internalize both PR3 and MPO, which are detected on the cell surface, in the cytoplasm, and possibly nuclear. Epithelial cells (small airway epithelial cells) internalized MPO but not PR3, implying that the mechanism of PR3 internalization may be cell-type specific and different from that of MPO. Internalization of PR3, but not MPO, correlated with activation of apoptosis. Internalization of MPO correlated with an increase in intracellular oxidant radicals. The requirement for the proteolytic activity of PR3 for the induction of apoptosis was examined by generating PR3-truncated fragments that did not contain the components of the catalytic triad. An apoptotic function was localized to the C-terminal portion of PR3. These studies reveal novel mechanisms by which the neutrophil granule proteins PR3 and MPO contribute to tissue injury at sites of inflammation.