Analysis of the proteome of human airway epithelial secretions

Ali, Mehboob; Lillehoj, Erik P.; Park, Yongsung; Kyo, Yoshiyuki; Kim, K Chul

doi:10.1186/1477-5956-9-4

Cited by 52 publications

(55 citation statements)

References 49 publications

(54 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Later, Ali et al [19] identified 56 proteins in a "mucin" fraction isolated under physiological conditions from primary human tracheobronchial epithelial cells grown in air/liquid interface, supporting the previous report [11] that airway mucins are tightly associated with various molecules. Proteomic analysis of the 56 proteins included not only mucins but also many functionally active proteins, including antimicrobial, anti-proteolytic, anti-oxidative, and anti-inflammatory proteins [19]. This finding is highly significant because it had been thought that the complex structure of "mucins" itself was responsible for their multifaceted properties that are necessary for host defense against inhaled harmful substances, including anti-microbial, anti-proteolytic, and anti-oxidative activities [20].…”

Section: Mucins Are "Aircraft Carriers" In the Airway Surface Fluidsupporting

confidence: 53%

Section: Mucins Are "Aircraft Carriers" In the Airway Surface Fluidmentioning

confidence: 50%

See 1 more Smart Citation

Airway Mucins: “Aircraft Carriers” in the Apical Surface Fluid

Kim¹

2017

JLPRR

View full text Add to dashboard Cite

Airway mucins, the major component of airway mucus or apical surface fluid that covers the entire surface of the airways, have been shown to possess multi-factorial functions that are necessary for first line defense, the major function of airway mucus. In this mini-review, I will provide some evidence, both theoretical and experimental, that the multi-factorial functions of airway mucins are most likely due to various bioactive proteins that are tightly associated with mucins. Thus, the first line defense of airway mucus requires both the mucociliary clearance and the activity of various bioactive proteins tightly associated with mucins, which depend on the quality and quantity of airway mucins.Keywords: Airway mucins; Physicochemical; Mucociliary; Viscoelasticity; Hydrophobicity Structure of MucinsMucus in the airway, also called the apical surface liquid, forms the first line defensive layer against particles or chemicals entering the lung. Airway mucus is produced by goblet cells of the underlying epithelium and mucous cells of the sub mucosal gland. Its defensive role is thought to be attributable to both its physical location and the physicochemical property through mucociliary clearance. The latter, more specifically referred to as the viscoelastic property of mucus, is controlled mainly by mucins which are present in mucus. Mucins are heavily glycosylated (>60% of molecular weight) and also negatively charged due to sialyation and sulfation of the oligosaccharides. Thus, the polydispersity of mucins in size and charge depends on the structure of their oligosaccharides and makes these molecules unique in both physiology and pathology. Studies with cultured airway goblet cells indicated that excessive production and secretion of mucins are induced by inflammatory mediators [1] suggesting that mucus hypersecretion in patients is due to airway inflammation.Twenty two mucin genes have been cloned in human of which 17 have been identified in the lung [2]. Among these 17 mucin genes, 5 mucins showed relatively high expression in the lung, which are MUC1, MUC4, MUC5AC, MUC5B and MUC16 [3]. While MUC5AC and MUC5B are secreted mucins or also called gelforming mucins, MUC1, MUC4 and MUC16 are cell surface mucins or also called membrane-tethered mucins. The membranetethered mucins can be shed by proteases [4] and therefore, mucins in the apical surface liquid consist of mainly these two types of mucins, i.e. full length MUC5AC and MUC5B and MUC1, MUC4 and MUC16 with only extracellular domains [3].

show abstract

Section: Mucins Are "Aircraft Carriers" In the Airway Surface Fluidsupporting

confidence: 53%

Section: Mucins Are "Aircraft Carriers" In the Airway Surface Fluidmentioning

confidence: 50%

Airway Mucins: “Aircraft Carriers” in the Apical Surface Fluid

Kim¹

2017

JLPRR

View full text Add to dashboard Cite

show abstract

“…8, A and B). Again, given the dilutional effect inherent to the BAL procedure, combined with the known sequestration of a fraction of MUC1-ED within the fluid lining the bronchoalveolar compartment (38), these data likely underestimate the true levels of shed MUC1-ED in the BALF from P. aeruginosa-colonized patients.…”

Section: Journal Of Biological Chemistrymentioning

confidence: 99%

NEU1 Sialidase Regulates Membrane-tethered Mucin (MUC1) Ectodomain Adhesiveness for Pseudomonas aeruginosa and Decoy Receptor Release

Lillehoj

Hyun

Liu

et al. 2015

Journal of Biological Chemistry

View full text Add to dashboard Cite

Background: Pseudomonas aeruginosa flagellin binds to the membrane-tethered mucin, MUC1. Results: Flagellin drives NEU1 to desialylate MUC1, thereby increasing its adhesiveness for Pseudomonas aeruginosa and its shedding. Conclusion: P. aeruginosa hijacks host NEU1 through its flagellin. Significance: P. aeruginosa mobilizes NEU1 to enhance its pathogenicity, but the host retaliates by releasing MUC1 as a hyperadhesive decoy receptor.

show abstract

“…Recent shotgun proteomics reports revealed large catalogues of exoproteomes of several bacteria [11,12] and fungi [13] comprising a large list of items unsuspected from prior 2D-gel based studies. Regarding human proteomes, a large panel of secretomes have been described from myeloid cells [14], dendritic cells [15], stem cells [16], endothelial cells [17], astrocytes [18], and airway epithelial cells [19]. The description of specific cancer biomarkers being the aim of most secretome studies, more than 28 reports presented the catalogue of secreted proteins from cancer cell lines [5].…”

Section: Introductionmentioning

confidence: 99%