Accumulation of Ubiquitin and Sequestosome-1 Implicate Protein Damage in Diacetyl-Induced Cytotoxicity

Overview

Journal Am J Pathol

Publisher Elsevier

Specialty Pathology

Date 2016 Sep 20

PMID 27643531

Citations 14

Authors

Ann F Hubbs

Kara L Fluharty

Rebekah J Edwards

Jamie L Barnabei

John T Grantham

Scott M Palmer

Francine Kelly

Linda M Sargent

Steven H Reynolds

Robert R Mercer

Madhusudan P Goravanahally

Michael L Kashon

John C Honaker

Mark C Jackson

Amy M Cumpston

William T Goldsmith

Walter McKinney

Jeffrey S Fedan

Lori A Battelli

Tiffany Munro

Winnie Bucklew-Moyers

Kimberly McKinstry

Diane Schwegler-Berry

Sherri Friend

Alycia K Knepp

Samantha L Smith

Krishnan Sriram

Affiliations

Soon will be listed here.

Abstract

Inhaled diacetyl vapors are associated with flavorings-related lung disease, a potentially fatal airway disease. The reactive α-dicarbonyl group in diacetyl causes protein damage in vitro. Dicarbonyl/l-xylulose reductase (DCXR) metabolizes diacetyl into acetoin, which lacks this α-dicarbonyl group. To investigate the hypothesis that flavorings-related lung disease is caused by in vivo protein damage, we correlated diacetyl-induced airway damage in mice with immunofluorescence for markers of protein turnover and autophagy. Western immunoblots identified shifts in ubiquitin pools. Diacetyl inhalation caused dose-dependent increases in bronchial epithelial cells with puncta of both total ubiquitin and K63-ubiquitin, central mediators of protein turnover. This response was greater in Dcxr-knockout mice than in wild-type controls inhaling 200 ppm diacetyl, further implicating the α-dicarbonyl group in protein damage. Western immunoblots demonstrated decreased free ubiquitin in airway-enriched fractions. Transmission electron microscopy and colocalization of ubiquitin-positive puncta with lysosomal-associated membrane proteins 1 and 2 and with the multifunctional scaffolding protein sequestosome-1 (SQSTM1/p62) confirmed autophagy. Surprisingly, immunoreactive SQSTM1 also accumulated in the olfactory bulb of the brain. Olfactory bulb SQSTM1 often congregated in activated microglial cells that also contained olfactory marker protein, indicating neuronophagia within the olfactory bulb. This suggests the possibility that SQSTM1 or damaged proteins may be transported from the nose to the brain. Together, these findings strongly implicate widespread protein damage in the etiology of flavorings-related lung disease.

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