Genetic deletion of TNF{alpha} inhibits ultraviolet radiation-induced development of cutaneous squamous cell carcinomas in PKC{varepsilon} transgenic mice via inhibition of cell survival signals

Protein kinase C epsilon (PKC), a Ca2+-independent phospholipid-dependent serine/threonine kinase, is among the six PKC isoforms (α, , , , μ, ) expressed in both mouse and human skin. Epidermal PKC level dictates the susceptibility of PKC transgenic (TG) mice to the development of cutaneous squamous cell carcinomas (SCC) elicited either by repeated exposure to ultraviolet radiation (UVR) or by using the DMBA initiation-TPA (12-O-tetradecanoylphorbol-13-acetate) tumor promotion protocol (Wheeler,D.L. et al. (2004) Protein kinase C epsilon is an endogenous photosensitizer that enhances ultraviolet radiation-induced cutaneous damage and development of squamous cell carcinomas. Cancer Res., 64, 7756–7765). Histologically, SCC in TG mice, like human SCC, is poorly differentiated and metastatic. Our earlier studies to elucidate mechanisms of PKC-mediated development of SCC, using either DMBA-TPA or UVR, indicated elevated release of cytokine TNFα. To determine whether TNFα is essential for the development of SCC in TG mice, we generated PKC transgenic mice/TNFα-knockout (TG/TNFαKO) by crossbreeding TNFαKO with TG mice. We now present that deletion of TNFα in TG mice inhibited the development of SCC either by repeated UVR exposures or by the DMBA-TPA protocol. TG mice deficient in TNFα elicited both increase in SCC latency and decrease in SCC incidence. Inhibition of UVR-induced SCC development in TG/TNFαKO was accompani...
Source: Carcinogenesis - Category: Cancer & Oncology Authors: Tags: Original Manuscript Source Type: research