Neutrophil: Lymphocyte Ratio as a Potential Biomarker for Fatigue and Recovery

Bernards, Jake, Carroll, Kevin, Miller, J., Stone, Michael H.

01 July 2017

Abstract available in the Journal of Strength and Conditioning Research.

fatigue

recovery

neutrophil

Sports Medicine

Sports Sciences

The Role of Ceramide in Neutrophil Elastase Induced Inflammation in the Lungs

Karandashova, Sophia

01 January 2018

Alterations to sphingolipid metabolism are associated with increased pulmonary inflammation, but the impact of inflammatory mediators, such as neutrophil elastase (NE), on airway sphingolipid homeostasis remains unknown. NE is a protease associated CF lung disease progression, and can be found in up to micromolar concentrations in patient airways. While sphingolipids have been investigated in the context of CF, the focus has been on loss of cystic fibrosis transmembrane conductance regulator (CFTR) function. Here, we present a novel observation: oropharyngeal aspiration of NE increases airway ceramides in mice. Using a previously characterized mouse model of NE-induced inflammation, we demonstrate that NE increases de novo ceramide production, which is likely mediated via increased SPTLC2 levels. Inhibition of de novo sphingolipid synthesis using myriocin, an SPT inhibitor, decreases airway ceramide as well as the release of pro-inflammatory signaling molecules induced by NE. Furthermore, in a retrospective study of the sphingolipid content of CF sputum—the largest of its type in this patient cohort to date, we investigated the association between NE and sphingolipids. There were linear correlations between the concentration of active NE and ceramide, sphingomyelin, and monohexosylceramide moieties as well as sphingosine-1-phosphate. The presence of Methicillin-resistant Staphylococcus aureus (MRSA) positive culture and female gender both strengthened the association of NE and sphingolipids, but higher FEV1 % predicted weakened the association, and Pseudomonas aeruginosa had no effect on the association between NE and sphingolipids. These data suggest that NE may increase sphingolipids in CF airways as it did in our in vivo model, and that this association is stronger in patients that have worse lung function, are female, and whose lungs are colonized with MRSA. Modulating sphingolipid homeostasis could provide novel pharmacological approaches for alleviating pulmonary inflammation.

cystic fibrosis

CFTR

neutrophil elastase

sphingolipid

ceramide

pulmonary inflammation

Lipids

Respiratory Tract Diseases

Translational Medical Research

Inflammatory imbalance in the development of bronchopulmonary dysplasia.

Oei, Ju Lee, Women's & Children's Health, Faculty of Medicine, UNSW

January 2007

Abstract Introduction: Current evidence suggests that the lungs of infants with the debilitating disorder, bronchopulmonary dysplasia (BPD), react to the challenges of extra-uterine adaptation with inappropriately aggressive inflammation. The reasons for this are not entirely clear and this study hypothesizes that a deficiency of interleukin (IL)-10, a potent anti-inflammatory mediator, leads to the functional and architectural changes characteristic of BPD. Aim: To characterize the behaviour of IL-10 and neutrophil apoptosis in the tracheal fluids (TF) of infants at risk of developing BPD. Method: TF from intubated infants of varying gestations at the Royal Hospital for Women, Randwick was spun and ILs 8, 10 and 16 were measured in the supernatant. The residual pellets of white cells were used to determine differential white cell counts and neutrophil apoptosis. Results: None of the 20 TF specimens from the extremely premature infants with BPD (n=11) had detectable IL-10, compared to 14/20(70%) of the specimens from preterm infants without BPD (n=20) and to 5/19 (26%) of the specimens from term infants (n=19). BPD infants also had a significantly lower number of apoptotic neutrophils during the 1st week of life. Premature infants with TF IL-10 &gt5pg/ml did not develop BPD. Levels of IL-8, a neutrophil chemotaxin, and white cell counts, while not differing significantly between the groups, increased considerably towards the end of the first week of life in the BPD group. IL-16, a chemotaxin for inflammatory CD4+ cells, was also detected in more BPD than non-BPD specimens (BPD: 16/46 (35%) v 1/30 (0.3%) non-BPD preterm and 2/7 (28%) term TF specimens). Conclusions: Extremely premature infants prone to BPD have decreased pulmonary anti-inflammatory activity as demonstrated by decreased IL-10 and apoptotic neutrophils in tracheal fluids. The lack of a counter-regulatory response to the inflammatory processes that are an inevitable consequence of extra-uterine adaptation may therefore place the extremely premature newborn infant at a considerable risk of developing BPD.

IL-10.

Il-8.

Il-16.

Neutrophil apoptosis.

Bronchopulmonary dysplasia.

Inflammation -- Treatment.

Microbe-induced apoptosis in phagocytic cells and its role in innate immunity

Blomgran, Robert

January 2006

<p>Apoptosis, or programmed cell death, is a controlled process by which aged or damages cells are eliminated in multicellular organisms. Neutrophils, short-lived phagocytes of the innate immune system, are highly equipped effectors that can sense, locate, ingest and kill bacterial pathogens. Inflammatory mediators and the presence of bacterial products at the foci of infection regulate the function and life span of these cells. Modulation of neutrophil apoptosis and the subsequent clearance by scavenger cells, such as macrophages, is part of a balanced inflammatory process leading to resolution of inflammation. Many pathogens are capable of modulating host cell apoptosis, and thereby influence the progression of disease. Hence, this thesis was aiming at elucidating mechanisms involved in pathogen- and host-modulated apoptosis and its contribution to the inflammatory process.</p><p>We found that different routes of bacterial entry, i.e. through invasion or by receptor-mediated phagocytosis, triggered different signaling pathways within phagocytes. Invasion of virulent Salmonella caused apoptosis, a process requiring activation of the Rho GTPases Rac1 and Cdc42. On the other hand, phagocytosis of the non-invasive Salmonella inhibited apoptosis despite similar intracellular survival as the invasive bacteria. Protection against phagocytosis-induced apoptosis was regulated by tyrosine- and PI3-kinase-dependent activation of AKT (also called PKB for protein kinase B). Furthermore, inhibiting the intraphagosomal production of reactive oxygen species (ROS) in neutrophils during phagocytosis of <em>E. coli</em> decreased apoptosis below spontaneous apoptosis, further indicating that both pro- and anti-apoptotic pathways are triggered by receptor-mediated phagocytosis.</p><p>Type 1 fimbria-expressing <em>E. coli </em>adhering to neutrophils resisted ingestion, and induced a ROS-dependent apoptosis by a cooperative effect of the FimH adhesin and LPS. To explore how compartmentalization of ROS during neutrophil activation was involved in modulating apoptosis, we evaluated the stability of lysosomes. In contrast to phagocytosis of <em>E. coli</em>, the adhesive strain induced intracellular non-phagosomal ROS production which triggered early permeabilization and release of lysosomal enzymes to the cytosol. Cathepsin B and/or L were responsible for targeting of the pro-apoptotic Bcl-2 protein Bid, thereby inducing mitochondrial damage, and apoptosis. These data propose a novel pathway for ROS-induced apoptosis in human neutrophils, where the location of the ROS rather than production <em>per se</em> is important.</p><p>Moreover, we found that pathogen-induced apoptotic neutrophils, in contrast to uninfected apoptotic neutrophils, activated blood-monocyte derived macrophages to increase their FcγRI surface expression and to produce large quantities of the pro-inflammatory cytokine TNF-α. This demonstrates that during the early phase of infection, pathogen-induced neutrophil apoptosis will help local macrophages to gain control over the microbes. Furthermore, we suggest that heat shock protein 60 and 70 represent a stress signal that enables macrophages to distinguish between, and react differently to, uninfected and inflammatory apoptotic neutrophils.</p>

apoptosis

cell death

inflammation

innate immunity

microbiology

neutrophil

macrophage

phagocyte

Medical microbiology

Medicinsk mikrobiologi

CD64 (FcγRI) Expression on Neutrophil Granulocytes : A Diagnostic Marker of Acute Bacterial Infections

Fjaertoft, Gustav

January 2005

<p><b>Background. </b>Newborn infants, especially preterm infants, have an increased susceptibility to serious and overwhelming bacterial as well as fungal infections. Symptoms of septicaemia in especially the very preterm neonates are vague and unspecific. No really good biochemical parameter exists today that can confirm or exclude the existence of neonatal septicaemia. The access to such a test in neonates would be most valuable, not only to assure early institution of effective antibiotic therapy when needed, but also to avoid unnecessary use of antibiotics, thereby reducing the risk of further development of antimicrobial resistance. </p><p><b>Aim. </b>To investigate the possible use of the expression of the phagocyte receptor CD64 (FcγRI) on neutrophils for early diagnosis of bacterial infections with special reference to neonatal septicaemia. </p><p><b>Results. </b>Neutrophils from preterm and term newborn infants, older infants, children, and adults examined during the early phase of a bacterial infection showed a significantly higher expression of CD64 compared with non-infected controls (p<0.001). Neutrophils from even extremely preterm infants expressed CD64 to the same extent as did neutrophils from children and adult patients. The expression of CD64 was not affected by the respiratory distress syndrome (RDS) or by such factors as premature rupture of the membranes, gestational age, steroid treatment before delivery, method of delivery, birth weight or postnatal age.</p><p>Major surgery in adults (total hip replacement) did not affect the CD64 expression to an extent comparable to that found during bacterial infections. Indirectly CD64 was found to be at least equal to CRP for differentiation between Influenza A infection and bacterial infections in adults.</p><p><b>Conclusion.</b> CD64 was found to be a specific and reliable marker for early detection of bacterial infections in preterm and term newborn infants, as well as after surgery. For differentiation between bacterial and viral infections it is probably at least as effective as CRP.</p>

Pediatrics

CD64

FcγRI

Neutrophil

Infection

Newborn

Neonate

Pediatrik

Paediatric medicine

Pediatrisk medicin

Phylogenies and Secondary Chemistry in <i>Arnica</i> (Asteraceae)

Ekenäs, Catarina

January 2008

<p>The genus <i>Arnica</i> (Asteraceae) was investigated for phylogenetic relationships and sesquiterpene lactone (STL) content with the aims to trace the evolutionary history of the genus and to investigate possible congruencies between DNA sequence data, secondary chemistry, and biological activity. </p><p>Complex evolutionary patterns in <i>Arnica</i> are evident from phylogenetic analyses of chloroplast regions (the <i>rpl16</i> and <i>rps16</i> introns and the <i>psbA–trnH</i>, <i>ycf4–cemA</i>, and <i>trnT–L</i> spacers), nuclear ribosomal regions (the internal and external transcribed spacers) and the nuclear low-copy DNA region coding for the second largest subunit of RNA polymerase II (<i>RPB2</i>) between exons 17 and 23. Polymorphism was detected in nuclear ribosomal and low-copy regions<i>,</i> likely caused by polyploidy and agamospermy. Lineage sorting and/or hybridization is a possible explanation for incongruencies between topologies of the different DNA regions. None of the five subgenera in <i>Arnica</i> constitute a monophyletic group according to any of our analyses. </p><p>Sesquiterpene lactone profiles were compared to nuclear ribosomal DNA data using phylogenetic inference and principal component analysis for 33 accessions of 16 species. Clusters supported by both STL chemistry and ribosomal DNA sequence data consist of multiple accessions of the same species (e.g.<i> A montana </i>and<i> A. longifolia</i>), indicating that these species are well defined both genetically and chemically, based on our sampling. Support for subspecies classification of <i>A. chamissonis</i> and <i>A. parryi</i> was found in chemical data. For the first time STLs are reported from subtribe Madiinae, sister to Arniciinae.</p><p>Anti-inflammatory properties, as measured by inhibition of human neutrophil elastase release from neutrophils and inhibition of the binding of transcription factor NF-κB to DNA, were investigated for extracts of 12 <i>Arnica</i> species. <i>Arnica montana</i>, <i>A. chamissonis</i> and <i>A. longifolia</i> accessions show high inhibitory effects in both bioassays. Generally, species with a more diverse STL chemistry also possess the strongest inhibitory activity in the bioassays.</p>

Biology

phylogeny

ITS

ETS

RPB2

sesquiterpene lactones

PCA

bioassay

NF-κB

neutrophil

chloroplast

Biologi

Arnica

Asteraceae

Pre-B Cell Colony-enhancing Factor (PBEF) Promotes Neutrophil Inflammatory Function through Enzymatic and Non-enzymatic Mechanisms

Malam, Zeenatsultana

19 January 2012

Pre-B Cell Colony-Enhancing Factor (PBEF) is a cytokine-like molecule that functions as a nicotinamide phosphoribosyl transferase (Nampt) in a salvage pathway of NAD biosynthesis. PBEF has well-characterized activity as an extracellular inflammatory mediator and has been proposed to signal through the insulin receptor (IR). As neutrophils are key effectors of the innate immune response to infection and injury, we hypothesized that PBEF promotes pro-inflammatory function in neutrophils and that these pro-inflammatory effects may occur through interactions with the neutrophil IR or through PBEF���s enzymatic Nampt activity. Our studies focused on two important facets of neutrophil inflammatory function: their ability to generate reactive oxygen species (ROS) and undergo constitutive apoptosis. We found that, although PBEF does not activate oxidative burst on its own, it primes for ROS generation through the NADPH oxidase. PBEF promotes membrane translocation of cytosolic NADPH oxidase subunits p40phox and p47phox, but not p67phox, induces p40phox phosphorylation and activates Rac. Priming, translocation and phosphorylation are dependent on activation of p38 and ERK mitogen activated protein kinases. PBEF priming of neutrophils occurs independent of its Nampt capacity or of interactions with IR. We next investigated the effects of PBEF on neutrophil constitutive apoptosis. Our lab previously established that extracellular PBEF delays neutrophil apoptosis. Accordingly, we next investigated the mechanism through which this delay was occurring. PBEF-induced delayed apoptosis was enhanced in the presence of Nampt substrates, and NAD alone could delay apoptosis to an extent comparable to PBEF. Delayed apoptosis was blocked by a Nampt inhibitor and was lacking when a mutated PBEF deficient in Nampt activity was utilized. The cell-surface NAD glycohydrolase, CD38, can convert NAD to cyclic ADP-ribose (cADPR). Blocking CD38 activity with a blocking antibody partially reversed the delay of apoptosis induced by PBEF in conjunction with its substrates, and delayed apoptosis could be achieved by addition of the CD38 product cADPR. Finally, we found that delayed apoptosis induced by PBEF did not involve IR. These results indicate that PBEF can prime for enhanced oxidative burst and delay apoptosis in neutrophils, and that these phenomena occur through distinct mechanisms.

Inflammation

Neutrophil

Apoptosis

Oxidative burst

Innate immunity

Nampt

NAD

PBEF

0564

Identifying Mechanisms Associated with Innate Immunity in Cows Genetically Susceptible to Mastitis

Elliott, Alexandra Alida

01 December 2010

Mastitis, or mammary gland inflammation, causes the greatest loss in profit for dairy producers. Mastitis susceptibility differs among cows due to environmental, physiological, and genetic factors. Prior research identified a genetic marker in a chemokine receptor, CXCR1, associated with mastitis susceptibility and decreased neutrophil migration. Current research seeks to identify reasons behind mastitis susceptibility by validating this model through in vivo challenge with Streptococcus uberis and studying specific mechanisms causing impaired neutrophil migration. Holstein cows with GG (n=19), GC (n=28), and CC (n=20) genotypes at CXCR1+777 were challenged intramammarily with S. uberis strain UT888. After challenge 68% of quarters from GG genotype, 74% from CC genotype and only 47% from GC genotype cows had ≥10 colony forming units/ml S. uberis for at least two sampling time points (P<0.05). However, among infected cows, number of S. uberis, somatic cell count, rectal temperature, milk scores and mammary scores were comparable among genotypes throughout infection. These findings suggest that cows with GC genotypes may be more resistant to S. uberis mastitis, but have similar responses if infected. To better understand the mechanisms associated with disease resistance, migration patterns in neutrophils from cows with different CXCR1+777 genotypes were evaluated. Neutrophils from cows with GG (n=11) and CC (n=11) genotypes were isolated and stimulated with zymosan activated sera (ZAS). Cells were fixed and stained for F-actin and evaluated for F-actin content, distribution, and cell morphology. Neutrophils from CC cows had significantly lower average F-actin polymerization than GG cows v (P=0.05). Directed migration of neutrophils from GG (n=10) and CC (n=10) genotypes was imaged and tracking data was analyzed for individual cells. Cells from GG genotype traveled further on an X axis and had higher X/Y movement towards IL8 compared to CC genotype, meaning they moved more directly towards IL8. Our findings suggest lower F-actin polymerization in combination with lower ability to directly move towards IL8 could impair neutrophil response to infection in cows with a CC genotype and may contribute to increased mastitis susceptibility. Finding what makes certain cows more susceptible to mastitis could lead to strategies aimed at improved prevention and treatment of mastitis.

Mastitis

innate immunity

neutrophil

chemotaxis

CXCR1

F-actin

Cell Biology

Dairy Science

Immunology and Infectious Disease

Immunopathology

Towards a Refined Model of Neutrophil Motility

Loitto, Vesa-Matti

January 2001

The ability of human polymorphonuclear leukocytes (PMNL; neutrophils), to sense and move to sites of infection is essential for our defense against pathogens. Cell motility is critically dependent on a dynamic remodeling of morphology. The morphological polarization toward chemoattractants, such as N-formyl-Met-Leu-Phe (fMLF), is associated with temporary extension and stabilization of lamellipodia in the direction of movement. The underlying mechanisms of cell motility are, however, still not entirely elucidated. It is therefore an urgent task to extend the present experimental evidence to give solid basis for a comprehensive model. Here it is shown that nitric oxide (NO) stimulates the morphological response of neutrophils, most likely due to transient increases in [Ca2+]i, following addition of NO-donors. This will, hypothetically, activate gelsolin and other actin filament severing proteins, leading to a subsequent decrease in filamentous actin. The incapability to efficiently turnover the actin filament network then blocks all motile activity. It is also shown that N-formyl peptide receptors on polarized neutrophils accumulate non-uniformly towards regions involved in motility. It is suggested that neutrophils use the asymmetric receptor distribution for directional sensing and sustained migration. A model for lamellipodium extension, where water fluxes play a pivotal role is presented. It is suggested that water fluxes through water-selective aquaporin (AQP) channels, contribute to the propulsive force for formation of various membrane protrusions and, thus, cell motility. It is well known that small G proteins of the Rho family GTPases play important roles in the intracellular signaling underlying cell motility. In morphologically polarized neutrophils it is shown that Cdc42, Rac2 and RhoA display spatially distinct distributions, which allows for sequential chemoattractant stimulation of neutrophil motility. The specific localizations of Rac2, Cdc42 and RhoA relative to each other and filamentous actin and fMLF receptors support the hypothesized order of activation and regulation of neutrophil cell motility. In conclusion, the detailed analysis of motility-related issues presented here provide new data allowing further refinement of previous models of neutrophil motility.

human polymorphonuclear leukocytes. PMNL

neutrophils

neutrophil motility

N-formyl-Met-Leu-Phe

Medical microbiology

Medicinsk mikrobiologi

CD64 (FcγRI) Expression on Neutrophil Granulocytes : A Diagnostic Marker of Acute Bacterial Infections

Fjaertoft, Gustav

January 2005

<b>Background. </b>Newborn infants, especially preterm infants, have an increased susceptibility to serious and overwhelming bacterial as well as fungal infections. Symptoms of septicaemia in especially the very preterm neonates are vague and unspecific. No really good biochemical parameter exists today that can confirm or exclude the existence of neonatal septicaemia. The access to such a test in neonates would be most valuable, not only to assure early institution of effective antibiotic therapy when needed, but also to avoid unnecessary use of antibiotics, thereby reducing the risk of further development of antimicrobial resistance. <b>Aim. </b>To investigate the possible use of the expression of the phagocyte receptor CD64 (FcγRI) on neutrophils for early diagnosis of bacterial infections with special reference to neonatal septicaemia. <b>Results. </b>Neutrophils from preterm and term newborn infants, older infants, children, and adults examined during the early phase of a bacterial infection showed a significantly higher expression of CD64 compared with non-infected controls (p&lt;0.001). Neutrophils from even extremely preterm infants expressed CD64 to the same extent as did neutrophils from children and adult patients. The expression of CD64 was not affected by the respiratory distress syndrome (RDS) or by such factors as premature rupture of the membranes, gestational age, steroid treatment before delivery, method of delivery, birth weight or postnatal age. Major surgery in adults (total hip replacement) did not affect the CD64 expression to an extent comparable to that found during bacterial infections. Indirectly CD64 was found to be at least equal to CRP for differentiation between Influenza A infection and bacterial infections in adults. <b>Conclusion.</b> CD64 was found to be a specific and reliable marker for early detection of bacterial infections in preterm and term newborn infants, as well as after surgery. For differentiation between bacterial and viral infections it is probably at least as effective as CRP.

Pediatrics

CD64

FcγRI

Neutrophil

Infection

Newborn

Neonate

Pediatrik

Paediatric medicine

Pediatrisk medicin