Effects of cerulenin on the endogenous fatty acid synthetic activity in squamous cell carcinoma of the oral cavity

Increased expression of fatty acid synthase in human aberrant crypt foci: possible target for colorectal cancer prevention

Aberrant crypt foci (ACF), the earliest identified monoclonal lesions in the colon, provide insights into changes that promote and/or accompany the transformation of normal colonic epithelial cells to colorectal cancer. Fatty acid synthase (FAS), the primary enzyme involved in de novo lipogenesis from carbohydrates, is expressed at low levels in most normal human tissues but is elevated in several human neoplasms including colorectal adenomas and carcinomas. To determine if this pathway is altered even earlier in colorectal tumorigenesis, 35 human ACF from 21 patients were evaluated for the immunohistochemical expression of FAS. Sections of colon cancer served as positive controls, and normal colonic mucosa distant from cancer or ACF served as negative controls. FAS expression was increased in 30 (86%) ACF compared with that in adjacent normal colonic mucosa. The expression of FAS in ACF was not related to the degree of dysplasia or to the number of crypts in the ACF. The over expression of FAS in a high proportion of ACF suggests that this enzyme plays an important role very early in colorectal tumorigenesis and may be a target for chemoprevention.

Differential expression of fatty acid synthase (FAS) and ErbB2 in nonmalignant and malignant oral keratinocytes

The aim of this study was to investigate fatty acid synthase (FAS) and ErbB2 expression in nonmalignant oral epithelium and oral or head and neck squamous cell carcinomas (OSCC/HNSCC). Morphologically normal, hyperkeratotic, and dysplastic oral epithelium as well as well-differentiated and poorly differentiated OSCC were immunohistochemically evaluated for FAS, ErbB2, and Ki-67. These proteins were also analyzed in a tissue microarray with 55 HNSCC. SCC-9 cells were used to study FAS and ErbB2 during differentiation. FAS expression was higher in hyperkeratosis, dysplasias, and OSCC than in normal epithelium. Well-differentiated OSCC/HNSCC were more positive for FAS than the poorly differentiated tumors. ErbB2 was observed at the surface of nonmalignant and well-differentiated OSCC/HNSCC keratinocytes and in the cytoplasm of poorly differentiated cells. Ki-67 index was progressively higher from normal oral epithelium to OSCC, inversely correlated with cell surface ErbB2, and positively correlated with intracytoplasmic ErbB2. Finally, SCC-9 cell cultures were enriched in membrane ErbB2-positive cells after differentiation by anchorage deprivation. In conclusion, FAS is overexpressed in OSCC/HNSCC and hyperkeratotic oral epithelium and ErbB2 is found at the cell surface of differentiating keratinocytes and in the cytoplasm of poorly differentiated tumor cells. Ki-67 index is higher in epithelial dysplasias and OSCC than in morphologically normal oral epithelium.

Fatty acid synthase is required for the proliferation of human oral squamous carcinoma cells

Fatty acid synthase (FAS) is the enzyme responsible for the endogenous synthesis of saturated long-chain fatty acids from the precursors acetyl-CoA and malonyl-CoA. A growing body of evidence indicates that FAS is over expressed in several human cancers, such as prostate, breast, bladder, liver, lung, melanoma and oral squamous cell carcinoma (SCC). In the present study we used human oral SCC cell lines (SCC-4, -9, -15 and -25) as a model to investigate the role of FAS in the pathogenesis of oral cancer. RT-PCR and western blot experiments demonstrated that FAS is differentially expressed by the four oral SCC cell lines, with the highest production in SCC-9 followed by SCC-25. FAS expression in SCC-4 and -15 was similarly lower than the other cell lines. Proliferation curves and immunocytochemistry for PCNA and Ki-67 demonstrated that SCC-25 has the highest proliferative potential. In addition, the specific inhibitor of FAS activity cerulenin was able to significantly reduce the proliferation of oral SCC cells. Expression of androgen receptor was low in SCC-4, -9 and -15 and undetectable in SCC-25, whereas EGFR and c-erb-B2 were expressed in high amounts by the four cell lines. Immunocytochemical reactions showed that SCC-25 expresses higher levels of EGF compared to the other three cell lines. Finally, oral SCC cells exposed to nanomolar concentrations of exogenous EGF presented a reduction in the FAS protein levels concomitant with a decrease in their proliferation rates. Taken together, our results indicate that FAS is expressed in an apparently androgen-independent fashion in oral SCC cells and it is necessary for their proliferation.