Venina Marcela Dominical

Elevated plasma levels and platelet‐associated expression of the pro‐thrombotic and pro‐inflammatory protein, TNFSF14 (LIGHT), in sickle cell disease

Chronic vascular inflammation and endothelial activation may initiate vaso‐occlusion in sickle cell disease (SCD). TNFSF14 (CD258; LIGHT), a recently‐identified pro‐thrombotic and pro‐inflammatory tumour necrosis factor (TNF)‐superfamily cytokine, has a potent activating effect on endothelial cells. We evaluated whether TNFSF14 production is altered in SCD and whether platelets contribute to this production. TNFSF14 was measured in platelet‐free plasma from healthy‐control individuals (CON), steady‐state sickle cell anaemia (SCA), SCA on hydroxycarbamide therapy (SCAHC) and haemoglobin SC (HbSC) patients. Mean plasma TNFSF14 was significantly increased in SCA, SCAHC and HbSC, compared to CON individuals. In SCA/SCAHC patients, plasma TNFSF14, showed no correlation with haematological variables, but was significantly correlated with serum lactate dehydrogenase and inflammatory markers (CD40LG , IL8 and ICAM1). Platelet‐membrane TNFSF14 expression was significantly augmented on SCA platelets, and correlated with platelet activation; furthermore, measurement of platelet TNFSF14 release indicated that platelets may be a major source of circulating TNFSF14 in SCA. Interestingly, high plasma TNFSF14 was significantly associated with elevated tricuspid regurgitant velocity (≥2·5 m/s) in a population of SCA/SCAHC patients. The pro‐inflammatory and atherogenic cytokine, TNFSF14, could contribute to endothelial activation and inflammation in SCA; future investigations may confirm whether this protein contributes to major clinical complications of the disease, such as pulmonary hypertension, and represents a potential therapeutic target.

Endothelial Activation by Platelets from Sickle Cell Anemia Patients

Sickle cell anemia (SCA) is associated with a hypercoagulable state. Increased platelet activation is reported in SCA and SCA platelets may present augmented adhesion to the vascular endothelium, potentially contributing to the vaso-occlusive process. We sought to observe the effects of platelets (PLTs) from healthy control (CON) individuals and SCA individuals on endothelial activation, in vitro. Human umbilical vein endothelial cells (HUVEC) were cultured, in the presence, or not, of washed PLTs from CON or steady-state SCA individuals. Supernatants were reserved for cytokine quantification, and endothelial adhesion molecules (EAM) were analyzed by flow cytometry; gene expressions of ICAM1 and genes of the NF-κB pathway were analyzed by qPCR. SCA PLTs were found to be more inflammatory, displaying increased adhesive properties, an increased production of IL-1β and a tendency towards elevated expressions of P-selectin and activated αIIbβ3. Following culture in the presence of SCA PLTs, HUVEC presented significant augmentations in the expressions of the EAM, ICAM-1 and E-selectin, as well as increased IL-8 production and increased ICAM1 and NFKB1 (encodes p50 subunit of NF-κB) gene expressions. Interestingly, transwell inserts abolished the effects of SCA PLTs on EAM expression. Furthermore, an inhibitor of the NF-κB pathway, BAY 11-7082, also prevented the induction of EAM expression on the HUVEC surface by SCA PLTs. In conclusion, we find further evidence to indicate that platelets circulate in an activated state in sickle cell disease and are capable of stimulating endothelial cell activation. This effect appears to be mediated by direct contact, or even adhesion, between the platelets and endothelial cells and via NFκB-dependent signaling. As such, activated platelets in SCD may contribute to endothelial activation and, therefore, to the vaso-occlusive process. Results provide further evidence to support the use of anti-platelet approaches in association with other therapies for SCD.

Simvastatin abrogates inflamed neutrophil adhesive properties, in association with the inhibition of Mac-1 integrin expression and modulation of Rho kinase activity

ObjectivesLeukocytes play a primary role in vascular inflammation, and thus an understanding of the pathways involved in the activation of these cells and means to inhibit their consequent adhesion to the vessel wall is of significant interest. This study aimed to determine whether statins have a direct effect upon neutrophil adhesive properties under inflammatory conditions.MethodsNeutrophils from healthy individuals were subjected to adhesion assays (with fibronectin as ligand) and flow cytometry.ResultsIn the presence of a TNF-α inflammatory stimulus, neutrophils displayed a rapid and substantial enhancement in their adhesive properties that was abrogated by preincubation of cells with simvastatin. Neutrophil surface expression of the Mac-1 integrin subunit, CD11b, was augmented by TNF-α, and this increased expression was also inhibited by simvastatin. TNF-α also induced neutrophil LFA-1 and Mac-1 activation, but this activation was not blocked by simvastatin. Interestingly, while addition of the isoprenoids, geranygerayl pyrophosphate and farnesyl pyrophosphate, to cells did not alter the effect of simvastatin on TNF-α-stimulated adhesion, concurrent incubation of cells with the Rho kinase (ROCK) inhibitor reversed the effects of simvastatin on neutrophil adhesion and CD11b expression.ConclusionSimvastatin appears to have direct anti-inflammatory effects in neutrophils that may be mediated by modulation of ROCK activity.

Neutrophils of Rheumatoid Arthritis Patients on Anti‐TNF‐α Therapy and in Disease Remission Present Reduced Adhesive Functions in Association with Decreased Circulating Neutrophil‐Attractant Chemokine Levels

Neutrophils participate in the initiation and progression of rheumatoid arthritis (RA) although the exact mechanisms responsible for neutrophil accumulation in rheumatoid joints are not understood. This study compared the adhesive and chemotactic functions of neutrophils from RA patients in activity (DAS28 > 3.2) and not in activity (DAS28 < 2.6) and observed the effects of different treatment approaches on these functions. Neutrophils were isolated from healthy controls (CON), and patients with active or inactive RA in use of therapy not specific for RA (NSAIDs), in use of DMARDs and in use of anti‐TNF‐α therapy. Adhesive and chemotactic properties were evaluated using in vitro assays; adhesion molecule expression was assessed by flow cytometry and real‐time PCR and circulating chemokines were determined by ELISA. No significant alterations in the adhesive and chemotactic properties of neutrophils from active RA were observed when compared to CON neutrophils, independently of treatment regimen. In contrast, neutrophils from RA patients in disease remission presented reduced adhesive properties and a lower spontaneous chemotactic capacity, in association with decreased adhesion molecule expression, although profiles of alterations differed for those patients on DMARDs and those on anti‐TNF‐α therapy. Circulating levels of the major neutrophilic chemokines, IL‐8 and epithelial neutrophil activating peptide‐78, were also significantly decreased in those patients demonstrating a clinical response. Remission of RA appears to be associated with ameliorations in aspects important for neutrophil adhesion and chemotaxis; whether these alterations contribute to decrease neutrophil migration to the synovial fluid, with consequent improvements in the clinical manifestations of RA, remains to be determined.

In vitro microfluidic model for the study of vaso-occlusive processes

Vaso-occlusion, responsible for much of the morbidity of sickle-cell disease, is a complex multicellular process, apparently triggered by leukocyte adhesion to the vessel wall. The microcirculation represents a major site of leukocyte-endothelial interactions and vaso-occlusive processes. We have developed a biochip with subdividing interconnecting microchannels that decrease in size (40 μm to 10 μm in width), for use in conjunction with a precise microfluidic device, to mimic cell flow and adhesion through channels of sizes that approach those of the microcirculation. The biochips were utilized to observe the dynamics of the passage of neutrophils and red blood cells, isolated from healthy and sickle-cell anemia (SCA) individuals, through laminin or endothelial adhesion molecule-coated microchannels at physiologically relevant rates of flow and shear stress. Obstruction of E-selectin/intercellular adhesion molecule 1-coated biochip microchannels by SCA neutrophils was significantly greater than that observed for healthy neutrophils, particularly in the microchannels of 40-15 μm in width. Whereas SCA red blood cells alone did not significantly adhere to, or obstruct, microchannels, mixed suspensions of SCA neutrophils and red blood cells significantly adhered to and obstructed laminin-coated channels. Results from this in vitro microfluidic model support a primary role for leukocytes in the initiation of SCA occlusive processes in the microcirculation. This assay represents an easy-to-use and reproducible in vitro technique for understanding molecular mechanisms and cellular interactions occurring in subdividing microchannels of widths approaching those observed in the microvasculature. The assay could hold potential for testing drugs developed to inhibit occlusive mechanisms such as those observed in SCA and thrombotic diseases.

Inhibition of phosphodiesterase 9A reduces cytokine-stimulated in vitro adhesion of neutrophils from sickle cell anemia individuals

ObjectiveLeukocyte adhesion to vessel walls may initiate vaso-occlusion in sickle cell anemia (SCA); however, the extent to which inflammation participates in this mechanism is not understood. This in vitro study investigated whether inflammatory molecules, commonly augmented in SCA, can affect neutrophil adhesive properties and whether cyclic guanosine monophosphate (cGMP)-elevating agents can inhibit such adhesion.Subjects and methodsEffects of Interleukin 8 (IL-8), tumor necrosis factor-α (TNF-α), granulocyte macrophage-colony stimulating factor (GM-CSF) cytokines, BAY 73-6691 [phosphodiesterase (PDE)-9A-inhibitor], and BAY 41-2271 (guanylate-cylase stimulator) on the adhesive properties of neutrophils from healthy control (CON) and steady-state SCA individuals were determined using static-adhesion assays.ResultsSCA neutrophils demonstrated increased adhesive properties, compared to CON neutrophils; IL-8, TNF-α and GM-CSF increased CON neutrophil adhesion and further increased SCA neutrophil adhesion to fibronectin (FN). The PDE9A inhibitor, BAY-73-6691, significantly reduced basal CON neutrophil and SCA neutrophil adhesion; this was accompanied by decreased SCA neutrophil surface expressions of the L-selectin and CD11b adhesion molecules. BAY-73-6691 also significantly reduced cytokine-stimulated CON neutrophil and SCA neutrophil adhesion to FN; however, this was not accompanied by alterations in adhesion-molecule presentation.ConclusionsThe chronic inflammatory nature of SCA may contribute to leukocyte adhesive functions in SCA. Furthermore, elevation of leukocyte cGMP may be an interesting approach for inhibition of leukocyte adhesion to the vessel wall, even in the presence of inflammatory stimuli.

TNF induces neutrophil adhesion via formin‐dependent cytoskeletal reorganization and activation of β‐integrin function

Although essential for inflammatory responses, leukocyte recruitment to blood vessel walls in response to inflammatory stimuli, such as TNF‐α, can contribute to vascular occlusion in inflammatory diseases, including atherosclerosis. We aimed to further characterize the mechanisms by which TNF stimulates adhesive and morphologic alterations in neutrophils. Microfluidic and intravital assays confirmed the potent effect that TNF has on human and murine neutrophil adhesion and recruitment in vitro and in vivo, respectively. Inhibition of actin polymerization by cytochalasin D significantly diminished TNF‐induced human neutrophil adhesion in vitro and abolished TNF‐induced membrane alterations and cell spreading. In contrast, TNF‐induced increases in β2‐integrin (Mac‐1 and LFA‐1) expression was not significantly altered by actin polymerization inhibition. Consistent with a role for cytoskeletal rearrangements in TNF‐induced adhesion, TNF augmented the activity of the Rho GTPase, RhoA, in human neutrophils. However, inhibition of the major RhoA effector protein, Rho kinase (ROCK), by Y‐27632 failed to inhibit TNF‐induced neutrophil adhesion. In contrast, the formin FH2 domain inhibitor, SMIFH2, abolished TNF‐induced human neutrophil adhesion and diminished leukocyte recruitment in vivo. SMIFH2 also inhibited TNF‐induced cytoskeletal reorganization in human neutrophils and abolished the alterations in β2‐integrin expression elicited by TNF stimulation. As such, Rho GTPase/mDia formin‐mediated cytoskeletal reorganization appears to participate in the orchestration of TNF‐induced neutrophil‐adhesive interactions, possibly mediated by formin‐mediated actin nucleation and subsequent modulation of β2‐integrin activity on the neutrophil surface. This pathway may represent a pharmacologic target for reducing leukocyte recruitment in inflammatory diseases.

Attenuation of TNF-induced neutrophil adhesion by simvastatin is associated with the inhibition of Rho-GTPase activity, p50 activity and morphological changes

&NA; Neutrophil adhesion to the vasculature in response to potent inflammatory stimuli, such as TNF‐&agr; (TNF), can contribute to atheroprogression amongst other pathophysiological mechanisms. Previous studies have shown that simvastatin, a statin with known pleiotropic anti‐inflammatory properties, can partially abrogate the effects of TNF‐induced neutrophil adhesion, in association with the modulation of &bgr;2‐integrin expression. We aimed to further characterize the effects of this statin on neutrophil and leukocyte adhesive mechanisms in vitro and in vivo. A microfluidic assay confirmed the ability of simvastatin to inhibit TNF‐induced human neutrophil adhesion to fibronectin ligand under conditions of shear stress, while intravital imaging microscopy demonstrated an abrogation of leukocyte recruitment by simvastatin in the microvasculature of mice that had received a TNF stimulus. This inhibition of neutrophil adhesion was accompanied by the inhibition of TNF‐induced RhoA activity in human neutrophils, and alterations in cell morphology and &bgr;2‐integrin activity. Additionally, TNF augmented the activity of the p50 NF&kgr;B subunit in human neutrophils and TNF‐induced neutrophil adhesion and &bgr;2‐integrin activity could be abolished using pharmacological inhibitors of NF&kgr;B translocation, BAY11‐7082 and SC514. Accordingly, the TNF‐induced elevation of neutrophil p50 activity was abolished by simvastatin. In conclusion, our data provide further evidence of the ability of simvastatin to inhibit neutrophil adhesive interactions in response to inflammatory stimuli, both in vivo and in vitro. Simvastatin appears to inhibit neutrophil adhesion by interfering in TNF‐induced cytoskeletal rearrangements, in association with the inhibition of Rho A activity, NF&kgr;B translocation and, consequently, &bgr;2‐integrin activity.