NK细胞影响T细胞向腺病毒感染的小鼠肝脏聚集的研究

目的 使用腺病毒感染的小鼠模型研究NK细胞向肝脏聚集过程中的作用机制。方法 应用抗NK1.1^ 单克隆抗体来剔除小鼠体内的NK细胞，使用FACS分析腺病毒感染的小鼠模型中肝脏的浸润淋巴细胞，应用RT－PCR检测小鼠肝组织、肝浸润淋巴细胞和脾组织中的趋化因子及其受体的基因表达，同时测定血清ALT来做人估价肝损伤。结果 抗NK1.1^ 单克隆抗体明显干扰了腺病毒感染小鼠模型中的T细胞向肝脏的聚集，抑制了趋化因子IP－10mRNA的表达。同时，与未给予抗NK1.1^ 单克隆抗体的小鼠腺病毒感染模型相比较，其肝脏受损也明显减轻。IP－10的特异性受体CXCR3 mRNA的表达先后分别出现在腺病毒感染后的脾脏和肝脏浸润淋巴细胞中。结论 NK细胞在T细胞向腺病毒感染的肝脏聚集过程中起着关键的作用，这种作用可能与依赖NK细胞的趋化因子IP－10密切相关。     

The beta2, alpha4, alpha5 integrins and selectins mediate chemotactic factor and endotoxin-enhanced neutrophil sequestration in the lung

Intravascular chemotactic factor activation of neutrophils (polymorphonuclear leukocytes; PMNLs), associated with actin polymerization resulting in PMNL stiffening, induces rapid and transient sequestration in the pulmonary vasculature and lung dysfunction. Recent studies have proposed that this sequestration is mediated by physical lodging of PMNLs because of loss of deformability. To examine the contribution of cell adhesion molecules in this process, we used blocking monoclonal antibodies (mAbs) to rat selectins and integrins in a model of PMNL margination (reflected by acute blood neutropenia) induced by N-formyl-met-leu-phe (FMLP) chemotactic factor infusion in normal or lipopolysaccharide (LPS)-primed rats. Blood PMNL levels dropped by 70% within 1 minute and for the duration of FMLP infusion (20 minutes) in normal or by 90% in LPS-primed rats. Pretreatment with mAbs to beta2(WT.3), VLA-4(TA-2 F(ab)(2)), and VLA-5 (HMalpha5 F(ab)(2)) in combination inhibited the decrease by 50% and to a greater degree than beta2 blockade alone (35% inhibition). F(ab)(2) mAbs to L-(HRL-3), P-(RMP-1), plus E-(RME-1) selectins had no effect but they potentiated inhibition by anti-beta2 + anti-VLA-4 + anti-VLA5 mAb treatment (69% inhibition, P < 0.05). Similar results were observed in the first 6 minutes in LPS-primed rats with complete inhibition of sequestration thereafter by combined selectin and integrin blockade. These results indicate that besides PMNL stiffening because of actin polymerization, both selectins and integrins substantially contribute to activated PMNL sequestration in the lung.     

The role of chemokines in the recruitment of lymphocytes to the liver

Chemokines direct leukocyte trafficking and positioning within tissues. They thus play critical roles in regulating immune responses and inflammation. The chemokine system is complex involving interactions between multiple chemokines and their receptors that operate in combinatorial cascades with adhesion molecules. The involvement of multiple chemokines and chemokine receptors in these processes brings flexibility and specificity to recruitment. The hepatic vascular bed is a unique low flow environment through which leukocyte are recruited to the liver during homeostatic immune surveillance and in response to infection or injury. The rate of leukocyte recruitment and the nature of cells recruited through the sinusoids in response to inflammatory signals will shape the severity of disease. At one end of the spectrum fulminant liver failure results from a rapid recruitment of leukocytes that leads to hepatocyte destruction and liver failure at the other diseases such as chronic hepatitis C infection may progress over many years from hepatitis to fibrosis and cirrhosis. Chronic hepatitis is charactezised by a T lymphocyte rich infiltrate and the nature and outcome of hepatitis will depend on the T cell subsets recruited, their activation and function within the liver. Different subsets of effector T cells have been described based on their secretion of cytokines and specific functions. These include Th1 and Th2 cells and more recently Th17 and Th9 cells which are associated with different types of immune response and which express distinct patterns of chemokine receptors that promote their recruitment under particular conditions. The effector function of these cells is balanced by the recruitment of regulatory T cells that are able to suppress antigen-specific effectors to allow resolution of immune responses and restoration of immune homeostasis. Understanding the signals that are responsible for recruiting different lymphocyte subsets to the liver will elucidate disease pathogenesis and open up new therapeutic approaches to modulate recruitment in favour of resolution rather than injury.     

The role of selectins in VLA-4 and CD18-independent neutrophil migration to joints of rats with adjuvant arthritis

Neutrophil migration from blood into inflamed tissues is mediated by adhesion molecules on neutrophils and on vascular endothelium. It was previously shown that the integrins VLA-4 and CD11/CD18 in combination mediate 70-80% of neutrophil recruitment to arthritic joints of rats. To investigate if the remaining recruitment involves the selectins, the effect of adhesion-blocking monoclonal antibodies (mAb) to each of the selectins (E-, P and L-), in combination with mAb to VLA-4 and CD18, on the migration of radiolabeled neutrophils to joints of rats with adjuvant arthritis was examined. Blocking P-selectin inhibited neutrophil accumulation in hindlimb joints by 40% whereas mAb to P- and E-selectin together inhibited the accumulation in all joints by 60% relative to anti-VLA-4 plus anti-CD18 treatment alone. Overall there was 90% inhibition relative to arthritic controls. Blocking E- or L-selectin alone or together had no effect. Our results demonstrate that P-selectin in particular and in concert with E-selectin are required for the VLA-4- and CD18-independent migration of neutrophils to sites of chronic arthritis in the rat.     

Nitric oxide-dependent neutrophil recruitment: role in nasal secretion

Leukotriene B4 (LTB4), an inflammatory mediator, is a potent chemoattractant for neutrophils that plays an important role in nasal secretion via release of elastase. Nitric oxide (NO) is an important modulator of leucocyte-endothelial cell interactions, endogenously produced in large quantities in the paranasal sinuses. To examine the role of NO in LTB4-stimulated nasal secretion. A newly-developed method for isolating and superfusing a nasal segment in dogs was used. Instillation of LTB4 into the nasal segment caused a time-dependent increase in the volume of airway fluid and in the recruitment of neutrophils. N(G)-nitro-L-arginine-methylester (L-NAME), an inhibitor of NO synthase, prevented LTB4-induced neutrophil recruitment and nasal secretion. These studies show that NO modulates LTB4-induced neutrophil recruitment and subsequent fluid secretion in the nose, and they suggest a therapeutic role for NO inhibitors in modulating neutrophil-dependent nasal secretion.     

整合素及其相关miRNA在肝纤维化中作用的研究进展

整合素家族是一类拥有细胞黏附、信号通路传导枢纽和机械力信号传感功能的跨膜二聚体蛋白.整合素广泛分布于肝星状细胞和其他多种类型的肝内细胞中,其中,含有αⅤ亚基的整合素αⅤβ3和αⅤβ5,以及含β1亚基的整合素α4β1、α5β1、α8β1、α9β1和α11β1能促进肝纤维化.miR-125b通过靶向下调整合素α8β1中α8...     

Matrix metalloproteinase-9 promotes neutrophil and T cell recruitment and migration in the postischemic liver

Matrix metalloproteinases-2 and -9 (MMP-2/9) are critically involved in degradation of extracellular matrix, and their inhibition is discussed as a promising strategy against hepatic ischemia-reperfusion (I/R) injury. Here, we analyzed the role of MMP-2 and -9 for leukocyte migration and tissue injury in sham-operated mice and in mice after I/R, treated with a MMP-2/9 inhibitor or vehicle. Using zymography, we show that the MMP-2/9 inhibitor abolished I/R-induced MMP-9 activation, whereas MMP-2 activity was not detectable in all groups. As demonstrated by intravital microscopy, MMP-9 inhibition attenuated postischemic rolling and adherence of total leukocytes in hepatic postsinusoidal venules, CD4+ T cell accumulation in sinusoids, and neutrophil transmigration. These effects were associated with reduction of plasma tumor necrosis factor alpha (TNF-alpha) levels and endothelial expression of CD62P. Motility of interstitially migrating leukocytes was assessed by near-infrared reflected light oblique transillumination microscopy in the postischemic cremaster muscle. Upon MMP-9 blockade, leukocyte migration velocity and curve-line and straight-line migration distances were reduced significantly as compared with the vehicle-treated I/R group. Postischemic sinusoidal perfusion failure, hepatocellular apoptosis, and alanine aminotransferase activity were only slightly reduced after MMP-9 inhibition, whereas aspartate aminotransferase activity and mortality were significantly lower. In conclusion, MMP-9 is involved in the early recruitment cascades of neutrophils and CD4+ T cells, promotes neutrophil and T cell transmigration during hepatic I/R, and is required for motility of interstitially migrating leukocytes. MMP-9 blockade is associated with an attenuation of TNF-alpha release and endothelial CD62P expression, weakly protects from early microvascular/hepatocellular I/R damage, but improves postischemic survival.     

The role of integrins in the recognition and response of dendritic cells to biomaterials

Biomaterials have the potential to be utilized as immunostimulatory or immunosuppressive delivery agents for biologics. It is hypothesized that this is directed by the ability of a biomaterial to drive dendritic cells (DC) in situ toward an immunostimulatory or an immunosuppressive phenotype, respectively. However, the specific pattern recognition receptors (PRRs) that DCs use to recognize and respond to biomaterials are unknown. From among the many receptors that DCs use to recognize and respond to foreign entities, herein the focus is on integrins. A biomaterial that induces DC maturation, namely poly(lactic-co-glycolic) acid (PLGA), supported increased human monocyte-derived DC adhesion and up-regulation of integrin receptor gene expression, measured via RT-PCR, as compared to culture on tissue culture polystyrene (TCPS). This was not observed for a biomaterial that does not support DC maturation. Through antibody-blocking techniques, the adhesion to both TCPS and PLGA was found to be β(2) integrin dependent and β(1) independent. Significantly, inhibiting β(2)-mediated adhesion to biomaterials via blocking antibodies also lowered the level of maturation of DCs (CD86 expression). β(2) integrins (but not β(1)) were found localized in biomaterial-adherent DC podosomes and also were found in direct contact with the PLGA surface. Therefore, it appeared that β(2) integrin-mediated adhesion is involved in determining the state of DC maturation on the PLGA surface. DC adhesion to biomaterials may be engaged or avoided to manipulate an immune response to biological component delivered with a biomaterial carrier.     

The role of alpha(4) and LFA-1 integrins in selectin-independent monocyte and neutrophil migration to joints of rats with adjuvant arthritis

Monocytes and neutrophils are chronically recruited to joints in rheumatoid arthritis. In the joints of rats with adjuvant arthritis, this is mediated, in part, by selectin-dependent and selectin-independent mechanisms. To define the selectin-independent mechanisms, (51)Cr-labeled blood monocytes, (111)In-labeled neutrophils and function blocking mAb to the selectins and integrins were utilized. Integrins contributed to the selectin-independent monocyte migration to arthritic joints with 58-70% inhibition of this recruitment by anti-alpha(4) or anti-LFA-1 mAb, relative to selectin blockade alone. alpha(4) plus P-selectin blockade was as effective as combined blockade of alpha(4), P-, E- and L-selectin, mediating approximately 83% of the overall monocyte migration to the joints. In contrast, LFA-1 was the predominant selectin-independent mechanism for neutrophil recruitment to the joints. LFA-1 together with P-selectin had essential roles in the talar joint. In dermal inflammation in the arthritic rats, LFA-1 accounted for most (69%) of the selectin-independent monocyte migration to the chemoattractant C5a(desArg) (zymosan-activated serum), whereas LFA-1 and Mac-1 both contributed to selectin-independent neutrophil recruitment to C5a(desArg). alpha(4) integrin and P-selectin in concert mediated monocyte recruitment to lipopolysaccharide and IFN-gamma lesions (81%). Thus: (1) either alpha(4) or LFA-1 can mediate monocyte migration to arthritic joints in the absence of selectin function and alpha(4) together with P-selectin is particularly important; (2) LFA-1 is the predominant mechanism of selectin-independent migration of neutrophils to inflamed joints; and (3) in arthritic rats, selectin-independent migration of monocytes and neutrophils to dermal inflammation is mediated by alpha(4) or LFA-1 or both LFA-1 and Mac-1, depending on the leukocyte type, and inflammatory stimulus.     

Contribution of cytokine-induced neutrophil chemoattractant CINC-2 and CINC-3 to neutrophil recruitment in lipopolysaccharide-induced inflammation in rats

OBJECTIVE: We have estimated the contribution of three types of cytokine-induced neutrophil chemoattractants (CINC-1, -2 and -3) and rat macrophage inflammatory protein (MIP)-1alpha to neutrophil recruitment in the air pouch/ lipopolysaccharide (LPS)-induced inflammation in rats. MATERIALS AND METHODS: Excess amounts of anti-CINC-2, CINC-3 and MIP-1alpha antibodies (Abs), together with LPS (1 microg/ml), were injected into the preformed air pouch of rats. Chemokine levels and chemotactic activity in the pouch fluid were measured using enzyme-linked immunosorbent assay and multiwell-type Boyden chambers in vitro, respectively. RESULTS: Excess amounts of the Abs significantly neutralized CINC-1 and almost completely neutralized CINC-2, CINC-3 and MIP-1 alpha in the pouch fluid, and a significant suppression (about 60% inhibition) of neutrophil infiltration by the Abs was found. In agreement with the in vivo results, in vitro neutralization experiments demonstrated that complete neutralization of CINCs and MIP-1alpha by the Abs resulted in a marked suppression (73% inhibition) of chemotactic potency of 8-h pouch fluid (exudate) from LPS-treated rats. On the other hand, treatment with anti-CINC-2, CINC-3 or MIP-1alpha Ab alone resulted in 48%, 34% or 10% inhibition, respectively, of chemotactic activity of the 8-h exudate. CONCLUSIONS: Our results suggest that CINC-2, a novel rat CXC chemokine and CINC-3 play an important role in neutrophil recruitment in the rat air pouch/LPS-induced inflammation.     

Ratio of local to systemic chemokine concentrations regulates neutrophil recruitment

CXC chemokines are important regulators of local neutrophil recruitment. In this study, we examined the role of the ratio of local to systemic chemokine concentrations as a significant factor determining local neutrophil recruitment. Thioglycollate was injected intraperitoneally into BALB/c mice resulting in a dose-dependent increase in neutrophil recruitment and local inflammation, as measured by peritoneal levels of interleukin 6. At the high dose of 3% thioglycollate, antibody inhibition of the murine chemokines KC and macrophage inflammatory protein-2 caused a reduction in peritoneal neutrophil recruitment by as much as 93%. A paradoxical effect was observed with a 0.3% thioglycollate intraperitoneal challenge. In this situation, inhibition of KC resulted in a significant increase in peritoneal neutrophils, and inhibition of macrophage inflammatory protein-2 also resulted in increased peritoneal neutrophils. These results were consistent with a reverse chemotactic gradient as described by the ratio of peritoneal to plasma KC levels. A higher ratio (ie, increased peritoneal chemokines compared to plasma) resulted in increased neutrophil recruitment after either the 3% or 0.3% thioglycollate challenge. Our results demonstrate that whereas sufficient local concentrations of chemokines are necessary, a critical factor dictating local neutrophil recruitment is the ratio of the local to the systemic chemokine concentrations.     

Sepsis: emerging role of nitric oxide and selectins

Sepsis--a state of systemic bacterial infection--often leads to multiorgan failure and is associated with high mortality despite the recent advances achieved in intensive care treatment. Many of the ill effects of sepsis are attributed to an abnormally enhanced host inflammatory response that leads to neutrophil recruitment and activation involving selectins, a class of adhesion molecules, in the initial stages. Nitric oxide and its various isoforms have also been implicated in various vascular alterations and directly participate in the cellular toxicity in sepsis. This review briefly describes the role of selectins and nitric oxide in experimental and clinical sepsis as well as the therapeutic outcomes of blocking therapies.     

Cellular and molecular choreography of neutrophil recruitment to sites of sterile inflammation

Liberation of damage-associated molecular patterns (DAMPs) following tissue injury and necrotic cell death leads to the induction of sterile inflammation. A hallmark of acute inflammation is the recruitment of neutrophils to injured tissues. This review focuses on the journey of neutrophils to sites of sterile inflammation and the cellular and molecular mechanisms that choreograph this complex voyage. We review the pathway of leukocyte recruitment, with emphasis on recent additions to our understanding of intravascular neutrophil migration. The contributions of various tissue-resident sentinel cell populations to the detection of danger signals (DAMPs) and coordination of neutrophil recruitment and migration are discussed. In addition, we highlight recent data on the control of neutrophil chemotaxis towards sites of sterile inflammation, including new insight into the temporal and spatial regulation of chemoattractant guidance signals that direct cell migration. Given that inappropriate neutrophilic inflammation is a cornerstone in the pathogenesis of many diseases, a complete understanding of the choreography of neutrophil recruitment to sites of sterile inflammation may uncover new avenues for therapeutic interventions to treat inflammatory pathologies.     

The possible role of neutrophil proteinases in damage to articular cartilage

The proteolytic degradation of articular cartilage that is seen in the arthritides affects both of the major structural components of the tissue, proteoglycan and collagen. Neutrophil leucocytes are abundant in the synovial fluid of the inflamed joints, and we have considered whether the large quantities of neutral proteinases carried by these cells could contribute to the cartilage degradation. The two neutrophil serine proteinases have been isolated, and shown to break down both proteoglycan and collagen in articular cartilage. The enzymes attacked the non-helical terminal peptides of the collagen, eliminating the cross-links, thus destabilizing and solubilizing the fibres. The soluble collagen then denatured spontaneously, and was further degraded.Although large quantities of the neutrophil proteinases are probably released in the synovial fluid each day, the inhibitory capacity of the fluid is seldom, if ever, saturated. Nevertheless, immunologically mediated release of the neutrophil enzymes in frustrated endocytosis at the cartilage surface could give rise to the generalized damage that has been reported by others.     

The possible role of neutrophil proteinases in damage to articular cartilage

The proteolytic degradation of articular cartilage that is seen in the arthritides affects both of the major structural components of the tissue, proteoglycan and collagen. Neutrophil leucocytes are abundant in the synovial fluid of the inflamed joints, and we have considered whether the large quantities of neutral proteinases carried by these cells could contribute to the cartilage degradation. The two neutrophil serine proteinases have been isolated, and shown to break down both proteoglycan and collagen in articular cartilage. The enzymes attacked the non-helical terminal peptides of the collagen, eliminating the cross-links, thus destabilizing and solubilizing the fibres. The soluble collagen then denatured spontaneously, and was further degraded.Although large quantities of the neutrophil proteinases are probably released in the synovial fluid each day, the inhibitory capacity of the fluid is seldom, if ever, saturated. Nevertheless, immunologically mediated release of the neutrophil enzymes in frustrated endocytosis at the cartilage surface could give rise to the generalized damage that has been reported by others.     

Role of TNF priming and adhesion molecules in neutrophil recruitment to intravascular immune complexes

Neutrophils play an important role in immune complex (IC)-mediated diseases, but the mechanisms underlying their recruitment to sites of IC deposition remain largely undefined. Furthermore, neutrophils encounter cytokines that prime their effector functions, yet the physiological relevance of priming to neutrophil functions is unclear. Using intravital microscopy, we demonstrate that TNF treatment of neutrophils ex vivo significantly increased their adhesion in a model of intravascular ICs deposited in the cremaster muscle. Notably, TNF priming had no effect on neutrophil adhesion in the absence of ICs. Analyses of relevant knockout mice and neutrophil reconstitution revealed a critical role for FcgammaRs and the CD18 integrin Mac-1 in IC-mediated neutrophil adhesion. Furthermore, ICAM-1, a major Mac-1 ligand constitutively expressed on unactivated endothelium, significantly contributed to this process. These data suggest that TNF priming promotes FcgammaR interaction with intravascular ICs, leading to the binding of Mac-1 to ICAM-1 and subsequent neutrophil arrest.     

The role of Rac2 in regulating neutrophil production in the bone marrow and circulating neutrophil counts

Circulating neutrophils are persistently higher in mice deficient in the small GTPase Rac2 than in wild-type (WT) mice. Therefore, we examined the mechanisms through which the small GTPase Rac2 regulates neutrophil production and release. Lethally irradiated WT mice reconstituted with a 50:50 mixture of WT and Rac2(-/-) fetal liver cells were protected from neutrophilia, suggesting that neutrophilia is primarily because of extrinsic defects that can be corrected by WT leukocytes. However, the differential counts and numbers of leukocyte subtypes differed between Rac2(-/-) and WT cells, suggesting that Rac2 modulates leukocyte lineage distribution. Kinetic studies suggest Rac2 modulates the release of neutrophils into the circulation and does not prolong their circulating half life. The percentage of bone marrow cells that expressed the neutrophil marker Gr-1 in lethally irradiated WT or Rac2(-/-) recipients of Rac2(-/-) stem cells was greater than in recipients of WT stem cells; however, circulating neutrophil counts were higher only in Rac2(-/-) recipients of Rac2(-/-) stem cells. Rac2 mRNA was expressed in the bone marrow of WT recipients of Rac2(-/-) stem cells and in human mesenchymal stem cells. The data presented here suggest that Rac2 in hematopoietic cells regulates leukocyte lineage distribution and Rac2 in nonhematopoietic cells might contribute to regulating circulating neutrophil counts.