Migratory activity of blood polymorphonuclear leukocytes during juvenile rheumatoid arthritis, demonstrated with a new whole-blood membrane filter assay

Modeling Transcriptional Rewiring in Neutrophils Through the Course of Treated Juvenile Idiopathic Arthritis

Neutrophils in children with the polyarticular form of juvenile idiopathic arthritis (JIA) display abnormal transcriptional patterns linked to fundamental metabolic derangements. In this study, we sought to determine the effects of therapy on mRNA and miRNA expression networks in polyarticular JIA. Using exon and miRNA microarrays, we studied children with untreated active JIA (ADU, n = 35), children with active disease on therapy with methotrexate ± etanercept (ADT, n = 26), and children with inactive disease also on therapy (ID, n = 14). We compared the results to findings from healthy control children (HC, n = 35). We found substantial re-ordering of mRNA and miRNA expression networks after the initiation of therapy. Each disease state was associated with a distinct transcriptional profile, with the ADT state differing the most from HC, and ID more strongly resembling HC. Changes at the mRNA level were mirrored in changes in miRNA expression patterns. The analysis of the expression dynamics from differentially expressed genes across three disease states indicated that therapeutic response is a complex process. This process does not simply involve genes slowly correcting in a linear fashion over time. Computational modeling of miRNA and transcription factor (TF) co-regulatory networks demonstrated that combinational regulation of miRNA and TF might play an important role in dynamic transcriptome changes.

Neutrophils: the forgotten cell in JIA disease pathogenesis

Juvenile idiopathic arthritis (JIA) has long been assumed to be an autoimmune disease, triggered by aberrant recognition of "self" antigens by T-cells. However, systems biology approaches to this family of diseases have suggested complex interactions between innate and adaptive immunity that underlie JIA. In particular, new data suggest an important role for neutrophils in JIA pathogenesis. In this short review, we will discuss the new data that support a role for neutrophils in JIA, discuss regulatory functions that link neutrophils to adaptive immune responses, and discuss future areas of investigation. Above all else, we invite the reader to re-consider the use of the term "autoimmunity" as applied to the family of illnesses we collectively call JIA.

Polymorphonuclear leukocyte function during the menstrual cycle and during controlled ovarian hyperstimulation

Neutrophil migration did not change during normal menstrual cycles but was significantly reduced during controlled ovarian hyperstimulation (COH). Correlations between neutrophil migration and serum hormone concentrations could not be established.

Inhibition of MMP-dependent chemotaxis and amelioration of experimental autoimmune uveitis with a selective metalloproteinase-2 and -9 inhibitor

The chemotaxis of inflammatory cells depends on proteolytic disruption of extracellular matrix components. The metalloproteinases (MMP)-2 and -9 enable T-lymphocytes to pass through basement membranes. Selective inhibition of only MMP-2 and -9 almost completely abolished the ability of lymphocytes to digest collagen. The chemotaxis of lymphocytes was reduced 40%. In our in-vivo model of experimental autoimmune uveitis (EAU), 46% of the animals in the treated group remained disease-free, whereas all animals in the control group developed EAU. The mean activity of the disease was also statistically significantly reduced. The data suggest that selective MMP-2 and -9 inhibition might be a treatment option.

Blood polymorphonuclear leukocyte migration as a predictive marker for infections in severe trauma: comparison with various inflammation parameters

OBJECTIVE

To assess in patients with multiple trauma the relevance of the following as predictive markers for infections: the inflammation parameters white blood count, body temperature, blood polymorphonuclear leukocyte (PMN) migration; blood levels of C-reactive protein, PMN elastase, procalcitonin, neopterin, interleukin 6, interleukin 8, malondialdehyde, total antioxidative status; the stress parameters cortisol and lactate.

DESIGN

Prospective observational cohort study.

SETTING

Intensive Care Unit of a university surgical department.

PATIENTS

Twenty-six patients with multiple trauma of differing severity.

MEASUREMENTS AND RESULTS

Trauma severity was estimated by the ISS. PMN migration upon F-Met-Leu-Phe stimulation was determined in fresh whole blood in a ready-for-use, one-way membrane filter assay and evaluated by automated image analysis. The other parameters were measured with commercially available tests. During hospitalization, nine patients developed infections, and 17 patients were free of infection. PMN migration below a critical minimum preceded infections in eight of the infected, but occurred in only three of the non-infected patients (positive/negative predictive values 0.72/0.93; sensitivity/specificity 0.88/0.82; likelihood ratio 5.0). Fever (> or =38.0 degrees C) had predictive values of 0.83/0.80 and a high likelihood ratio of 9.4, but a low sensitivity/specificity of 0.55/0.94. The other parameters were without significance. Procalcitonin, elastase, C-reactive protein, neopterin and lactate correlated positively with the injury severity score.

CONCLUSION

PMN migration proved to be a highly sensitive predictive marker for infections. The whole-blood PMN migration test may facilitate early aggressive antimicrobial therapy.

Monitoring neutrophil activation in juvenile rheumatoid arthritis by S100A12 serum concentrations

OBJECTIVE

Phagocytes are extensively involved in the synovial inflammation associated with chronic arthritis. The aim of our study was to determine neutrophil activation in juvenile rheumatoid arthritis (JRA) by analyzing S100A12 (EN-RAGE; calgranulin C), a proinflammatory protein secreted by human neutrophils.

METHODS

S100A12 serum concentrations were determined in 124 patients with chronic active polyarticular-, oligoarticular-, or systemic-onset JRA. S100A12 was also analyzed in synovial fluid obtained from 22 patients. Changes in S100A12 levels in response to anti-tumor necrosis factor alpha (anti-TNF alpha) therapy, intraarticular injections of corticosteroids, and methotrexate (MTX) treatment were analyzed. Forty-five patients were followed up after successful antiinflammatory treatment, for a mean period of 2.8 years.

RESULTS

The mean serum level of S100A12 was 395 ng/ml in patients with active polyarticular JRA and 325 ng/ml in patients with active oligoarticular JRA (normal <120 ng/ml). The level of S100A12 was approximately 10-fold higher in synovial fluid than in serum, indicating release at sites of local inflammation. In patients with systemic-onset JRA, the mean level of S100A12 was 3,700 ng/ml. Moreover, serum levels decreased in response to different antiinflammatory therapies (i.e., intraarticular injections of corticosteroids, MTX, or etanercept). S100A12 levels were elevated in 20 patients who experienced disease flares after the initial induction of remission, even weeks before the relapses became clinically apparent.

CONCLUSION

S100A12 serum concentrations indicate neutrophil activation in JRA and correlate with disease activity. S100A12 may indicate synovial inflammation even when other signs of arthritis are absent. Its function as a proinflammatory factor secreted by activated neutrophils makes this protein a potential target for future therapies.

Novel approaches to gene expression analysis of active polyarticular juvenile rheumatoid arthritis

Juvenile rheumatoid arthritis (JRA) has a complex, poorly characterized pathophysiology. Modeling of transcriptosome behavior in pathologic specimens using microarrays allows molecular dissection of complex autoimmune diseases. However, conventional analyses rely on identifying statistically significant differences in gene expression distributions between patients and controls. Since the principal aspects of disease pathophysiology vary significantly among patients, these analyses are biased. Genes with highly variable expression, those most likely to regulate and affect pathologic processes, are excluded from selection, as their distribution among healthy and affected individuals may overlap significantly. Here we describe a novel method for analyzing microarray data that assesses statistically significant changes in gene behavior at the population level. This method was applied to expression profiles of peripheral blood leukocytes from a group of children with polyarticular JRA and healthy control subjects. Results from this method are compared with those from a conventional analysis of differential gene expression and shown to identify discrete subsets of functionally related genes relevant to disease pathophysiology. These results reveal the complex action of the innate and adaptive immune responses in patients and specifically underscore the role of IFN-γ in disease pathophysiology. Discriminant function analysis of data from a cohort of patients treated with conventional therapy identified additional subsets of functionally related genes; the results may predict treatment outcomes. While data from only 9 patients and 12 healthy controls was used, this preliminary investigation of the inflammatory genomics of JRA illustrates the significant potential of utilizing complementary sets of bioinformatics tools to maximize the clinical relevance of microarray data from patients with autoimmune disease, even in small cohorts.

Impaired blood polymorphonuclear leukocyte migration and infection risk in severe trauma

OBJECTIVES

We investigated the association of impaired blood polymorphonuclear leukocyte (PMN) migration with the incidence of bacterial infections in patients with severe trauma.

METHOD

Twenty-six intensive-care patients with different injury severity scores were enrolled in a prospective study. PMN migration was measured daily using 300 microl fresh whole blood in a membrane filter assay. Migration was evaluated in an automated image analyzer that recorded numbers and distribution of the immigrant PMNs within a filter. The relevant parameter was the percentage of PMNs that migrated from the blood samples into the filters upon f-Met-Leu-Phe stimulation.

RESULTS

Nine patients developed posttraumatic infections verified microbiologically. These patients showed a reduced PMN migratory capacity in comparison with the 17 patients without infections. A migrating portion of six per cent or less at least three days in succession preceded infections by one to 19 days and indicated infection in eight true positive versus three false positive cases, and 14 true negative versus one false negative case, i.e. specificity was 82.3% and sensitivity 88.8%, p=0.0008. Trauma severity had no influence on PMN migration.

CONCLUSIONS

Trauma patients with impaired PMN migration are at risk for bacterial infections. Whole-blood migration tests can define the infection risk and thus may be useful predictive markers for infections.

Blood polymorphonuclear leukocyte activation in atherosclerosis: effects of aspirin

The aim of the study was to demonstrate an activation of polymorpho-nuclear leukocytes (PMNs) in chronic progressive atherosclerosis (ATH). A group of patients with ATH, and a group of ATH patients under aspirin (ASA) therapy were compared with control persons without atherosclerotic alterations (healthy controls). Each group comprised 15 male age-matched subjects. The following inflammatory parameters related to PMN activities were measured: the polymorphonuclear leukocyte (PMN) blood count; blood PMN migration and reactive oxygen species release in vitro; the blood levels of PMN elastase, malondialdehyde, antibodies to oxidized LDL and soluble ICAM-1. In ATH patients, the PMN blood counts and the share of blood PMNs migrating upon platelet activating factor and leukotriene B4 stimulation were significnatly above the values of the healthy controls, while the other parameters were not significantly altered. ASA treatment attenuated the inflammatory response and reduced the differences between ATH and the healthy controls. It can be concluded that, in patients with chronic progressive atherosclerosis, PMNs are involved in the inflammatory process underlying the disease.

Impaired whole-blood polymorphonuclear leukocyte migration as a possible predictive marker for infections in preterm premature rupture of membranes

OBJECTIVES

Steroids, used in preterm premature rupture of membranes (pPROM), to reduce the risk of morbidity and mortality of the preterm neonate, impair the maternal polymorphonuclear leukocyte (PMN)-based immune system. In spite of combination with antibiotics, prenatal and postnatal bacterial infections of mother and child are frequent. This pilot study focuses on the influence of steroids in pPROM on maternal PMN functional capacity and subsequent infections.

METHODS

After opting for expectant management, eight women with pPROM and no signs of infection were treated by steroids (betamethasone 5.7 mg, i.m. every 24 hours, for three days) and antibiotic therapy with either amoxicillin and clavulanic acid, piperacillin or ampicillin i.v. up to delivery. The conventional inflammation parameters of PMN blood count and C-reactive protein (CRP) were measured daily in parallel with PMN migratory capacity towards N-formyl-methionyl-leucyl-phenylalanine stimulation and under blank conditions, estimated by a whole blood membrane filter assay.

RESULTS

In all patients PMN migration decreased during the application of steroids. Three patients showed a decrease in PMN migration below critical values and in spite of antibiotic prophylaxis acute pyelonephritis developed 2-6 days later. PMN count and CRP were not predictive of maternal infection.

CONCLUSION

Reduced PMN function, caused by steroid treatment in pPROM, is suggested to be a reason for serious bacterial infections in spite of antibiotic prophylaxis. PMN migration reflects individual PMN defensive capacity.

Inhibition of neutrophil migration soon after initiation of treatment with leflunomide or methotrexate in patients with rheumatoid arthritis: findings in a prospective, randomized, double-blind clinical trial in fifteen patients

OBJECTIVE

Leflunomide is a novel immunomodulating drug that has recently been approved as a disease-modifying antirheumatic drug for the treatment of rheumatoid arthritis (RA). The aim of this study was to determine the relationship between the clinical effects of leflunomide and neutrophil migration.

METHODS

The effects of leflunomide and methotrexate on neutrophil chemotaxis were studied in 15 RA patients who participated in a prospective, randomized, double-blind clinical trial. When possible, neutrophil numbers were counted in synovial fluid (SF) samples at baseline and after 14 days, 4 months, and 1 year of treatment. The chemotactic properties of peripheral blood neutrophils from RA patients treated with either leflunomide or methotrexate were studied by the Boyden chamber technique, using the activators formyl-methionyl-leucyl-phenylalanine (fMLP) and interleukin-8 (IL-8). The in vitro effects of A77 1726, the active metabolite of leflunomide, and methotrexate on peripheral blood neutrophils from 7 healthy control subjects were also investigated.

RESULTS

Both therapy groups exhibited clinical improvement, including rapid reductions in SF neutrophil counts and reduced joint swelling and tenderness. On day 14, 3 of 7 patients who received leflunomide showed no detectable effusions. There was a significant effect on neutrophil chemotaxis (P < 0.001), which was similar for leflunomide and methotrexate. The direct effects on the neutrophils diminished over time. Incubation of peripheral blood neutrophils from healthy controls with A77 1726 confirmed the inhibitory effect on chemotaxis.

CONCLUSION

Leflunomide treatment is beneficial in RA patients. Different mechanisms are operative in various phases of treatment, leading to decreased recruitment of inflammatory cells in the joints.

Abnormal directed migration of blood polymorphonuclear leukocytes in rheumatoid arthritis. Potential role in increased susceptibility to bacterial infections

Rheumatoid arthritis (RA) patients are at higher risks of bacterial infection than healthy subjects. Polymorphonuclear leukocytes (PMN) are the first line of nonspecific cellular defence against these infections. We tested the hypothesis that abnormal directed migration of PMN may be one reason for the increased infection rate of RA patients. PMN migration was investigated in 68 peripheral blood samples of 15 RA patients compared with 64 samples of healthy controls in a novel whole blood in vitro membrane filter assay. The migration of PMNs from RA patients and controls was stimulated using the bacterial chemoattractant N-formyl-methionyl-leucyl-phenylalanine (fMLP). Unstimulated PMN migration of RA patients was increased compared with healthy controls as measured by the following parameters: (a) absolute number of migrant PMNs (1954+/-87 vs. 1238 +/-58 PMN/mm2), (b) percentage of PMNs migrated into the filter (total migration index, TMI) (28.6+/-0.9 vs. 24.0+/-0.8%), (c) the distance half the migrating PMNs had covered (distribution characteristic, DC) (22.6+/-1.1 vs. 16.1+/-0.6 mm) and (d) the product of TMI and DC (neutrophil migratory activity, NMA) (669.0+/-45.0 vs. 389.0+/-18.9). fMLP stimulated PMNs of RA patients showed defective migration compared to unstimulated samples as shown by (a) a reduced number of migrant PMNs (1799+/-93 PMN/mm2), (b) lower TMI (26.1+/-0.9%), (c) unremarkable altered distribution characteristic (22.9+/-0.8 mm) and (d) significant reduced migratory activity (600.0+/-30.0). Our data suggest that the high incidence of infections in RA patients may partly be caused by defective migratory activity of PMNs to bacterial chemoattractants as demonstrated by fMLP.

Changes in the polymorphonuclear leukocyte function of blood samples induced by storage time, temperature and agitation

We have investigated changes in polymorphonuclear leukocyte (PMN) functions of blood samples caused by such typical elements of laboratory handling as storage time, temperature and agitation. The blood of five healthy subjects was stored upright in test tubes at 4, 22 and 37 degrees C over periods of 20 min, one, two, six and 24 h. Controlled agitation was performed on a shaker. The following PMN functional parameters were measured: the white blood cell count (WBC), migration, elastase (EL) release, reactive oxygen species (ROS) production and lipid peroxidation. Migration was determined in a whole-blood membrane filter assay; ROS production by latex-stimulated, luminol-enhanced chemiluminescence (CL) in a whole-blood assay; EL as EL alpha 1-antitrypsin complex; and lipid peroxidation by malondialdehyde (MDA) generation. The reactions after handling were compared with the values measured immediately after blood withdrawal which served as reference values of 'genuine' PMN reactivity. The outstanding result was the marked scatter between the individual reactions. Overall, the proportion of migrating PMNs in the blood total decreased, while CL, correlating positively with MDA, increased with the time of storage. EL increased considerably in some of the samples. Agitation raised CL and MDA. The effect of temperature was apparent only after 24 h at 37 degrees C. There was evidence that inhomogeneities in the blood samples were another interfering factor, since resuspension of sedimented blood after storage can be incomplete. In order to obtain reliable results from PMN functional tests, whole-blood assays and processing of blood samples within 20 min after blood withdrawal are recommended.

The influence of trauma on changes in neutrophil granulocyte function assessed by an analysis of granulocyte migration

We examined the effects of trauma on polymorphonuclear leucocyte (PMN) migratory parameters and PMN elastase release, with the aim of tracing an acute inflammatory reaction from its very beginning to the phase of recovery. Fifteen patients who underwent monotrauma surgery, followed by uneventful healing, served as inflammation model. PMN activation was studied by measuring their readiness to migrate (TMI) and their penetration potency (DC) in a whole blood membrane filter device, in which a chemoattractant depot (FMLP) was integrated. Control chambers lacking FMLP provided parameters of the spontaneous migration. In healthy controls (n = 64), the numbers of invading PMNs decreased continuously from the outermost layer towards the interior of the filter device. FMLP did not influence the mobilization rate of PMNs immigrant from the blood into the filter, but those cells that did migrate penetrated deeper (P < 0.05). After trauma, the spontaneous and FMLP-stimulated DC was increased (P < 0.05). Trauma also tended to inhibit PMN migratory activity episodically; depression of the unspecific immune function (low TMI values) was found on the 3rd (P < 0.0001) and 12th (P < 0.01) postsurgical days. There was no correlation between the migratory parameters and the inflammation parameter, PMN elastase release. Preliminary results indicate that analyses of PMN migratory parameters by a whole blood membrane filter assay could provide a valuable adjunct in monitoring trauma-associated immunologic changes.

Blood polymorphonuclear leukocyte migratory activities during rheumatoid arthritis

Blood polymorphonuclear leukocyte (PMN) migratory activity was investigated in adult rheumatoid arthritis (RA) patients and in healthy control subjects using fresh whole blood in a novel membrane filter assay. The PMNs migrated under FMLP stimulation and under blank control conditions (spontaneous migration). Essential evaluation criteria were the percentage of PMNs that migrated from the entire blood sample into the filters (TMI) and the penetration depth of the migrating cell bulk into the filters (DC). PMNs from healthy subjects penetrate deeper under FMLP stimulation than under blank control conditions. Migration depends on age and sex: the TMI decreases, while the DC and the reactivity towards FMLP increase with age. FMLP triggers a stronger DC reaction in females than in males. Compared with healthy subjects, patients with RA develop an increased PMN reaction, whereas FMLP inhibits migration in comparison with the blank controls. There is no correlation between disease activity estimated by joint functions and PMN migratory activity, while there are strong correlations between disease activity and the classical RA laboratory parameters WBC, platelets, BSR, CRP, hemoglobin and rheumatoid factor. PMNs therefore probably do not play a major role in joint injury. Gold therapy inhibits DC reactivity. PMN migration in RA differs markedly from the reactions in juvenile rheumatoid arthritis, where high disease activity is associated with high PMN migratory activity, and the correlations between classical laboratory parameters and disease activity follow other patterns than in RA.