Helena Crisford scite author profile

Airway inflammation plays a key role in asthma pathogenesis but is heterogeneous in nature. There has been significant scientific discovery with regard to type 2-driven, eosinophil-dominated asthma, with effective therapies ranging from inhaled corticosteroids to novel biologics. However, studies suggest that approximately 1 in 5 adults with asthma have an increased proportion of neutrophils in their airways. These patients tend to be older, have potentially pathogenic airway bacteria and do not respond well to classical therapies. Currently, there are no specific therapeutic options for these patients, such as neutrophil-targeting biologics.Neutrophils comprise 70% of the total circulatory white cells and play a critical defence role during inflammatory and infective challenges. This makes them a problematic target for therapeutics. Furthermore, neutrophil functions change with age, with reduced microbial killing, increased reactive oxygen species release and reduced production of extracellular traps with advancing age. Therefore, different therapeutic strategies may be required for different age groups of patients.The pathogenesis of neutrophil-dominated airway inflammation in adults with asthma may reflect a counterproductive response to the defective neutrophil microbial killing seen with age, resulting in bystander damage to host airway cells and subsequent mucus hypersecretion and airway remodelling. However, in children with asthma, neutrophils are less associated with adverse features of disease, and it is possible that in children, neutrophils are less pathogenic.In this review, we explore the mechanisms of neutrophil recruitment, changes in cellular function across the life course and the implications this may have for asthma management now and in the future. We also describe the prevalence of neutrophilic asthma globally, with a focus on First Nations people of Australia, New Zealand and North America.

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Proteinase 3; a potential target in chronic obstructive pulmonary disease and other chronic inflammatory diseases

Crisford

Sapey

Stockley

2018

Respir Res

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Chronic Obstructive Pulmonary Disease (COPD) is a common, multifactorial lung disease which results in significant impairment of patients’ health and a large impact on society and health care burden. It is believed to be the result of prolonged, destructive neutrophilic inflammation which results in progressive damage to lung structures. During this process, large quantities of neutrophil serine proteinases (NSPs) are released which initiate the damage and contribute towards driving a persistent inflammatory state.Neutrophil elastase has long been considered the key NSP involved in the pathophysiology of COPD. However, in recent years, a significant role for Proteinase 3 (PR3) in disease development has emerged, both in COPD and other chronic inflammatory conditions. Therefore, there is a need to investigate the importance of PR3 in disease development and hence its potential as a therapeutic target. Research into PR3 has largely been confined to its role as an autoantigen, but PR3 is involved in triggering inflammatory pathways, disrupting cellular signalling, degrading key structural proteins, and pathogen response.This review summarises what is presently known about PR3, explores its involvement particularly in the development of COPD, and indicates areas requiring further investigation.

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A specific proteinase 3 activity footprint in α₁-antitrypsin deficiency

et al. 2019

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α1-Antitrypsin (α1-AT) deficiency is a risk factor for emphysema due to tissue damage by serine proteases. Neutrophil elastase (NE) has long been considered the enzyme responsible. However, proteinase 3 (PR3) also produces the pathological features of chronic obstructive pulmonary disease (COPD), is present in the same granules in the neutrophil and is inhibited after NE. We developed a specific footprint assay for PR3 activity and assessed its relationship to an NE footprint in α1-AT deficiency.An ELISA was developed for the specific PR3 fibrinogen cleavage site Aα-Val541. Levels were measured in plasma from 239 PiZZ patients, 94 PiSZ patients, 53 nondeficient healthy smokers and 78 individuals with usual COPD. Subjects underwent extensive demographic characterisation including full lung function and lung computed tomography scanning.Aα-Val541 was greater than the NE footprint in all cohorts, consistent with differential activity. Values were highest in the PiZZ α1-AT-deficient patients and correlated with the NE marker Aα-Val360, but were ∼17 times higher than for the NE footprint, consistent with a greater potential contribution to lung damage. Aα-Val541 was related cross-sectionally to the severity of lung disease (forced expiratory volume in 1 s % pred: rs= −0.284; p<0.001) and was sensitive to augmentation therapy, falling from 287.2 to 48.6 nM (p<0.001).An in vivo plasma footprint of PR3 activity is present in greater quantities than an NE footprint in patients with α1-AT deficiency, is sensitive to augmentation therapy and represents a likely biomarker for dose-ranging studies.

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Frailty Is Associated With Neutrophil Dysfunction Which Is Correctable With Phosphoinositol-3-Kinase Inhibitors

Wilson

Drew

Jasper

et al. 2020

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Neutrophil dysfunction has been described with age, appears exaggerated in infection, with altered phosphoinositol signalling a potential mechanism. However, functional ageing is heterogeneous. Frailty is a negative health status and is more common in older adults. We hypothesised that neutrophil migration may be compromised in frailty, associated with the degree of frailty experienced by the older person. We compared measures of frailty, neutrophil function and systemic inflammation in forty young and seventy-seven older community dwelling adults in the United Kingdom. Systemic neutrophils exhibited an age-associated reduction in the accuracy of migration (chemotaxis) which was further blunted with frailty. The degree of migratory inaccuracy correlated with physical (adjusted hand grip strength) and cognitive (Stroop test) markers of frailty. Regression analysis demonstrated that age, Charlson Co-morbidity Index and Frailty Index were able to predict neutrophil chemotaxis. Reduced chemotaxis of neutrophils from frail adults could be reversed using selective PI3K inhibitors. Exposure of neutrophils from young adults to plasma from chronically inflamed frail older adults could not recapitulate the migratory deficit in vitro and there were no relationships with systemic inflammation and neutrophil dysfunction. Frailty exaggerated the neutrophil deficits seen with advanced age but aspects of the frailty-associated deficit in neutrophil function are rescuable and thus potentially form a therapeutic target to improve outcomes from infection in older adults

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Helena Crisford

Neutrophils in asthma: the good, the bad and the bacteria

Proteinase 3; a potential target in chronic obstructive pulmonary disease and other chronic inflammatory diseases

A specific proteinase 3 activity footprint in α₁-antitrypsin deficiency

Frailty Is Associated With Neutrophil Dysfunction Which Is Correctable With Phosphoinositol-3-Kinase Inhibitors

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Helena Crisford

Neutrophils in asthma: the good, the bad and the bacteria

Proteinase 3; a potential target in chronic obstructive pulmonary disease and other chronic inflammatory diseases

A specific proteinase 3 activity footprint in α1-antitrypsin deficiency

Frailty Is Associated With Neutrophil Dysfunction Which Is Correctable With Phosphoinositol-3-Kinase Inhibitors

Contact Info

Product

Resources

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A specific proteinase 3 activity footprint in α₁-antitrypsin deficiency