Dual oxidase, hydrogen peroxide and thyroid diseases

Author:

Ohye Hidemi12,Sugawara Masahiro12

Affiliation:

1. Endocrinology and Diabetes Division, Greater Los Angeles Veterans Affair Healthcare System, 11301 Wilshire Blvd

2. Department of Medicine, David Geffen School of Medicine, University of California at Los Angeles, Los Angeles, CA, USA

Abstract

The thyroid gland is a unique endocrine organ that requires hydrogen peroxide (H2O2) for thyroid hormone formation. The molecule for H2O2 production in the thyroid gland has been known as dual oxidase 2 (DUOX2). Recently, NADPH oxidase 4 (NOX4), a homolog of the NOX family, was added as a new intracellular source of reactive oxygen species (ROS) in the human thyroid gland. This review focuses on the recent progress of the DUOX system and its possible contribution to human thyroid diseases. Also, we discuss human thyroid diseases related to abnormal H2O2 generation. The DUOX molecule contains peroxidase-like and NADPH oxidase-like domains. Human thyroid gland also contains DUOX1 that shares 83% similarity with the DUOX2 gene. However, thyroid DUOX1 protein appears to play a minor role in H2O2 production. DUOX proteins require DUOX maturation or activation factors (DUOXA1 or 2) for proper translocation of DUOX from the endoplasmic reticulum to the apical plasma membrane, where H2O2 production takes place. Thyroid cells contain antioxidants to protect cells from the H2O2-mediated oxidative damage. Loss of this balance may result in thyroid cell dysfunction and thyroid diseases. Mutation of either DUOX2 or DUOXA2 gene is a newly recognized cause of hypothyroidism due to insufficient H2O2 production. Papillary thyroid carcinoma, the most common thyroid cancer, is closely linked to the increased ROS production by NOX4. Hashimoto's thyroiditis, a common autoimmune thyroid disease in women, becomes conspicuous when iodide intake increases. This phenomenon may be explained by the abnormality of iodide-induced H2O2 or other ROS in susceptible individuals. Discovery of DUOX proteins and NOX4 provides us with valuable tools for a better understanding of pathophysiology of prevalent thyroid diseases.

Publisher

SAGE Publications

Subject

General Biochemistry, Genetics and Molecular Biology

Reference74 articles.

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