At the crossroads: mucosal immunology of the larynx

Thibeault, Susan L.; Rees, Len; Pazmany, Laszlo; Birchall, Martin A.

doi:10.1038/mi.2008.82

Cited by 43 publications

(39 citation statements)

References 37 publications

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“…The vocal fold epithelium is critical to upper airway immunologic defense [Thibeault et al, 2009] and water/ion transport [Fisher et al, 2001]; therefore, any form of physical trauma or insult increases the vulnerability of this structure to functional impairment and pathogen invasion/infection. We observed complete mucosal reepithelialization by 3 days postinjury, as previously reported [Ling et al, 2010].…”

Section: Discussionmentioning

confidence: 99%

“…analysis of variance A-P anterior-posterior Col-IV type IV collagen CPF ciliated pseudocolumnar formation DAPI 4,6-diamidino-2-phenylindole dihydrochloride E-cad E-cadherin HE hematoxylin and eosin LP lamina propria M-L medial-lateral S-I superior-inferior SSC stratified squamous cell TGase-1 transglutaminase-1 ated pseudocolumnar cell formation along its superiorinferior (S-I) axis [Ling et al, 2010] and is primarily responsible for vocal fold immune, transport, and barrier functions [Sivasankar and Fisher, 2007;Leydon et al, 2009;Thibeault et al, 2009]. The physiologic and molecular mechanisms regulating these protective functions are poorly understood, particularly under conditions of epithelial compromise such as mucosal injury.…”

Section: Anovamentioning

confidence: 99%

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E-Cadherin and Transglutaminase-1 Epithelial Barrier Restoration Precedes Type IV Collagen Basement Membrane Reconstruction following Vocal Fold Mucosal Injury

Ling

Raasch

Welham

2010

Cells Tissues Organs

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The vocal fold epithelium is critical to upper airway immunologic defense and water/ion transport; therefore, any form of physical trauma or insult increases the vulnerability of this structure to functional impairment and pathogen invasion/infection. In this study, we examined the reestablishment of epithelial and basement membrane barrier structures in a well-established rat model of vocal fold mucosal injury. We observed active cell recruitment culminating in peak hyperplasia at 3 days postinjury, the establishment of robust E-cadherin+ and transglutaminase-1+ biochemical barrier signals along the epithelial surface by 3 days postinjury, and the persistent absence of a type IV collagen+ basement membrane at 7 days postinjury. The distinct spatial and temporal immunoactivity of these molecules is consistent with a programmed repair process driving the restoration of vocal fold mucosal integrity and permeability. These data may inform future efforts to optimize functional mucosal recovery postinjury and avoid undesirable events such as barrier compromise or epithelial metaplasia.

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Section: Discussionmentioning

confidence: 99%

Section: Anovamentioning

confidence: 99%

E-Cadherin and Transglutaminase-1 Epithelial Barrier Restoration Precedes Type IV Collagen Basement Membrane Reconstruction following Vocal Fold Mucosal Injury

Ling

Raasch

Welham

2010

Cells Tissues Organs

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“…The larynx is situated at the separation of the respiratory and digestive tracts (Mouadeb et al, 2009; Thibeault, Rees, Pazmany, & Birchall, 2009). Narrowing at the level of the vocal folds creates an area of highly turbulent airflow that promotes the deposition of a wide-range of inhaled, environmental and sometimes ingested, systemic irritants.…”

Section: Vocal Fold Epithelial Barrier Injurymentioning

confidence: 99%

Vocal Fold Epithelial Barrier in Health and Injury: A Research Review

Levendoski

Leydon

Thibeault

2014

J Speech Lang Hear Res

116

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Purpose Vocal fold epithelium is composed of layers of individual epithelial cells joined by junctional complexes constituting a unique interface with the external environment. This barrier provides structural stability to the vocal folds and protects underlying connective tissue from injury while being nearly continuously exposed to potentially hazardous insults including environmental or systemic-based irritants such as pollutants and reflux, surgical procedures, and vibratory trauma. Small disruptions in the epithelial barrier may have a large impact on susceptibility to injury and overall vocal health. The purpose of this article is to provide a broad-based review of our current knowledge of the vocal fold epithelial barrier. Methods A comprehensive review of the literature was conducted. Details of the structure of the vocal fold epithelial barrier are presented and evaluated in the context of function in injury and pathology. The importance of the epithelial-associated vocal fold mucus barrier is also introduced. Results/Conclusions Information presented in this review is valuable for clinicians and researchers as it highlights the importance of this understudied portion of the vocal folds to overall vocal health and disease. Prevention and treatment of injury to the epithelial barrier is a significant area awaiting further investigation.

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“…As the outermost layer of the vocal folds, the epithelium is exposed to a multitude of inhaled particulates including pollutants (Thibeault et al 2009). However, our understanding of the effects of pollutants on vocal fold epithelial function is extremely limited.…”

Section: Introductionmentioning

confidence: 99%

Vocal Fold Ion Transport and Mucin Expression Following Acrolein Exposure

Levendoski

Sivasankar

2014

J Membrane Biol

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The vocal fold epithelium is exposed to inhaled particulates including pollutants during breathing in everyday environments. Yet, our understanding of the effects of pollutants on vocal fold epithelial function is extremely limited. The objective of this study was to investigate the effect of the pollutant acrolein on two vocal fold epithelial mechanisms: ion transport and mucin synthesis. These mechanisms were chosen as each plays a critical role in vocal defense and in maintaining surface hydration which is necessary for optimal voice production. Healthy, native porcine vocal folds (N=85) were excised and exposed to an acrolein or sham challenge. A 60 minute acrolein, but not sham challenge significantly reduced ion transport and inhibited cyclic adenosine monophosphate-dependent increases in ion transport. Decreases in ion transport were associated with reduced sodium absorption. Within the same timeline, no significant acrolein-induced changes in mucin gene or protein expression were observed. These results improve our understanding of the effects of acrolein on key vocal fold epithelial functions and inform the development of future investigations that seek to elucidate the impact of a wide range of pollutant exposures on vocal fold health.

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At the crossroads: mucosal immunology of the larynx

Cited by 43 publications

References 37 publications

E-Cadherin and Transglutaminase-1 Epithelial Barrier Restoration Precedes Type IV Collagen Basement Membrane Reconstruction following Vocal Fold Mucosal Injury

E-Cadherin and Transglutaminase-1 Epithelial Barrier Restoration Precedes Type IV Collagen Basement Membrane Reconstruction following Vocal Fold Mucosal Injury

Vocal Fold Epithelial Barrier in Health and Injury: A Research Review

Vocal Fold Ion Transport and Mucin Expression Following Acrolein Exposure

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