Abstract
Tumor necrosis factor alpha (TNF-α) is a pro-inflammatory cytokine important in normal and pathological biological processes. Newly synthesized pro-TNF-α is expressed on the plasma membrane and cleaved to release soluble TNF-α protein: both are biologically active. Secreted TNF-α signals through TNF receptors and the membrane-bound TNF-α acts by cell contact-dependent signaling. Anti-TNF-α antibodies have been used effectively for treatment of chronic inflammation, however with adverse side effects. Thus, there is a need for new anti-TNF-α small molecule compounds. Anti-TNF-α activity assays involve treatment of keratinocytes with exogenous TNF-α before or after anti-TNF-α incubation. However, this model fails to address the dual signaling of TNF-α. Here we describe a Doxycycline (Dox)-inducible TNF-α (HaCaT-TNF-α) expression system in keratinocytes. Using this in-vitro model, we show cell inhibition and induced expression of pro-inflammatory cytokines and markers, including IL-1β, IL-6, IL-8, NF-κB1, and KRT-16, similar to cells treated with exogenous TNF-α. Sufficient secreted TNF-α produced also activated IL-1β and IL-8 expression in wt HaCaT cells. Importantly, stimulated expression of IL-1β and IL-8 in HaCaT-TNF-α were blocked by Quercetin, a flavanol shown to possess anti-TNF-α activities. This novel in vitro cell model provides an efficient tool to investigate the dual signaling of TNF-α. Importantly, this model provides an effective, fast, and simple screening for compounds with anti-TNF-α activities for chronic inflammatory disease therapies.
Highlights
Inflammation is an essential innate immunity response that is crucial to combat pathogens
HaCaT cells expressing inducible TNF-α were analyzed for biological responses to TNF-α and compared with those from HaCaT cells treated with exogenous TNF-α
Quercetin is a flavonoid that can be found in several types of fruits, vegetables, leaves and grains and has been shown to possess anti-psoriatic and anti-inflammatory activities [39, 41] To determine anti-TNF-α activity, we examined Quercetin’s ability to reduce expressions of pro-inflammatory cytokine genes, IL-8 and IL-1β, stimulated by Dox-induced TNF-α or recombinant TNF-α in HaCaT-TNF-α cells
Summary
Inflammation is an essential innate immunity response that is crucial to combat pathogens. Dysregulated and untimely inflammation contributes to several chronic inflammatory diseases such as psoriasis, atopic dermatitis, rheumatoid arthritis, coronary heart diseases, Crohn’s disease and cancer [1,2,3]. Chronic inflammation due to virus and bacterial infections, such as herpes simplex virus (HSV) as well as Chlamydia pneumonia, has been. New In Vitro Model for Anti-TNF-α Drug Screening shown to increase coronary heart disease risk [4]. Local inflammation in breast tissues due to obesity has been reported to increase risk of aggressive breast cancer through increased local estrogen production [5], Given the significance of inflammation in a variety of common diseases, the use of anti-inflammatory drugs are currently being used in therapeutic regimes, especially in cancer [6, 7]. It is accepted that inflammation plays a central role in many diseases, its role in disease progression is a poorly understood process
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