BACKGROUND: In human keratinocytes, we have recently characterized a low-molecular-weight cytosolic protein of 15 kD that specifically binds fatty acids (FAs) with high affinity, the epidermal FA-binding protein (E-FABP). The distribution of E-FABP in skin diseases is not known. OBJECTIVE: To localize by immunohistochemistry the expression of E-FABP in psoriasis, basal and squamous cell carcinomas in order to obtain indirect information, at the cellular level, on the transport of the FAs. RESULTS: E-FABP was localized in the upper stratum spinosum and stratum granulosum in normal and non-lesional psoriatic skin. In contrast, lesional psoriatic epidermis strongly expressed E-FABP in all suprabasal layers, like nonkeratinized oral mucosa. The basal layer did not express E-FABP reactivity in any of these samples. Accordingly, basal cell carcinomas were E-FABP negative whereas only well-differentiated cells of squamous cell carcinomas expressed E-FABP. CONCLUSION: It is unlikely that E-FABP plays a significant role in FA uptake by basal cells. Our data rather indicate that E-FABP expression is related to the commitment of keratinocyte differentiation and that the putative role of E-FABP should not be restricted to the formation of the skin lipid barrier. Since the pattern of E-FABP expression mimics cellular FA transport, our results suggest that lesional psoriatic skin and oral mucosa have a higher metabolism/transport for FAs than normal and non-lesional psoriatic epidermis.
BACKGROUND: In human keratinocytes, we have recently characterized a low-molecular-weight cytosolic protein of 15 kD that specifically binds fatty acids (FAs) with high affinity, the epidermal FA-binding protein (E-FABP). The distribution of E-FABP in skin diseases is not known. OBJECTIVE: To localize by immunohistochemistry the expression of E-FABP in psoriasis, basal and squamous cell carcinomas in order to obtain indirect information, at the cellular level, on the transport of the FAs. RESULTS:E-FABP was localized in the upper stratum spinosum and stratum granulosum in normal and non-lesional psoriatic skin. In contrast, lesional psoriatic epidermis strongly expressed E-FABP in all suprabasal layers, like nonkeratinized oral mucosa. The basal layer did not express E-FABP reactivity in any of these samples. Accordingly, basal cell carcinomas were E-FABP negative whereas only well-differentiated cells of squamous cell carcinomas expressed E-FABP. CONCLUSION: It is unlikely that E-FABP plays a significant role in FA uptake by basal cells. Our data rather indicate that E-FABP expression is related to the commitment of keratinocyte differentiation and that the putative role of E-FABP should not be restricted to the formation of the skin lipid barrier. Since the pattern of E-FABP expression mimics cellular FA transport, our results suggest that lesional psoriatic skin and oral mucosa have a higher metabolism/transport for FAs than normal and non-lesional psoriatic epidermis.
Authors: Liraz Levi; Glenn Lobo; Mary Kathryn Doud; Johannes von Lintig; Darcie Seachrist; Gregory P Tochtrop; Noa Noy Journal: Cancer Res Date: 2013-05-30 Impact factor: 12.701
Authors: Zhengzheng Bao; Mohammad I Malki; Shiva S Forootan; Janet Adamson; Farzad S Forootan; Danqing Chen; Christopher S Foster; Philip S Rudland; Youqiang Ke Journal: Genes Cancer Date: 2013-07
Authors: Katiuscia Dallaglio; Tiziana Petrachi; Alessandra Marconi; Francesca Truzzi; Roberta Lotti; Annalisa Saltari; Paolo Morandi; Mario Puviani; Antonino Maiorana; Dennis R Roop; Carlo Pincelli Journal: Int J Mol Sci Date: 2013-09-26 Impact factor: 5.923