Abstract
Objective Apoptotic events mediated by mitochondrial injury play an important role on the onset of Pemphigus vulgaris (PV). The thioredoxin-2 (Trx2)/apoptosis signal-regulating kinase 1 (ASK1) signaling pathway is considered a key cascade involved on the regulation of mitochondrial injury. Hence, we have investigated the regulatory mechanism of the Trx2/ASK1 signaling in PV-induced mitochondrial injury. Methods Serum and tissue samples were collected from clinical PV patients to detect the oxidative stress factors, cell apoptosis, and expression of members from Trx2/ASK1 signaling. HaCaT cells were cultured with the serum of PV patients and transfected with Trx2 overexpression or silencing vector. Changes in the levels of reactive oxygen species (ROS), mitochondrial membrane potential (△ψm), and apoptosis were further evaluated. A PV mouse model was established and administered with Trx2-overexpressing plasmid. The effect of ectopic Trx2 expression towards acantholysis in PV mice was observed. Results A series of cellular and molecular effects, including (i) increased levels of oxidative stress products, (ii) destruction of epithelial cells in the skin tissues, (iii) induction of apoptosis in keratinocytes, (iv) reduction of Trx2 protein levels, and (v) enhanced phosphorylation of ASK1, were detected in PV patients. In vitro experiments confirmed that Trx2 can inhibit ASK1 phosphorylation, alleviate ROS release, decrease △ψm, and lower the apoptotic rate. Injection of Trx2-overexpressing vectors in vivo could also relieve acantholysis and blister formation in PV mice. Conclusion The Trx2/ASK1 signaling pathway regulates the incidence of PV mediated by mitochondrial injury.
Highlights
Pemphigus vulgaris (PV) is one type of autoimmune blistering disease, related to chronic bullous dermatosis [1]
In regard to the oxidative stress products present in the PV patient sera, we currently verified that the content of GSH-Px was lowered, while the levels of superoxide dismutase (SOD) and CAT were increased (Figure 1(a))
We confirmed that the oxidative stress products are increased in PV
Summary
Pemphigus vulgaris (PV) is one type of autoimmune blistering disease, related to chronic bullous dermatosis [1] This condition is typically mediated by immunoglobulin G (IgG) autoantibodies which can dramatically affect the skin and mucosa of affected individuals [2]. A number of studies have confirmed the presence of various types of mitochondria-related antibodies in the serum of PV patients [4, 5] Such antibodies can directly enter into KCs and recognize/bind a diverse number of receptors located in the mitochondrial surface [4]. Thereafter, these antibodies may lead to mitochondrial injury and initiate mitochondria-mediated host cell apoptosis, acantholysis, and desmosome attack [6]. Neutralizing these antibodies may eliminate the IgG-induced KC dissociation (acantholysis) and vesicular lesions on the skin of PV patients
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