Copyright © 2007 American Association for Cancer ResearchDOI:10.1158/0008-5472.CAN-06-3643 Cytochrome P450 Epoxygenase Promotes Human Cancer Metastasis

Cytochrome P450 (CYP) epoxygenases convert arachidonic acid to four regioisomeric epoxyeicosatrienoic acids (EET), which exert diverse biological activities in a variety of systems. We previously reported that the CYP2J2 epoxygenase is overexpressed in human cancer tissues and cancer cell lines and that EETs enhance tumor growth, increase carcinoma cell proliferation, and prevent apoptosis of cancer cells. Herein, we report that CYP epoxygenase overexpression or EET treatment promotes tumor metastasis independent of effects on tumor growth. In four different human cancer cell lines in vitro, overexpression of CYP2J2 or CYP102 F87V with an associated increase in EET production or addition of synthetic EETs significantly induced Transwell migration (4.5- to 5.5-fold), invasion of cells (3- to 3.5-fold), cell adhesion to fibronectin, and colony formation in soft agar. In contrast, the epoxygenase inhibitor 17-ODYA or infection with the antisense recombinant adeno-associated viral vector (rAAV)-CYP2J2 vector inhibited cell migration, invasion, and adhesion with an associated reduction in EET production. CYP overexpression also enhanced metastatic potential in vivo in that rAAV-CYP2J2-infected MDA-MB-231 human breast carcinoma cells showed 60% more lung metastases in athymic BALB/c mice and enhanced angiogenesis in and around primary tumors compared with control cells. Lung metastasis was abolished by infection with the antisense rAAV-CYP2J2 vector. CYP epoxygenase overexpression or EET treatment up-regulated the prometastatic matrix metalloproteinases and CD44 and down-regulated the antimetastatic genes CD82 and nm-23. Together, these data suggest that CYP epoxygenase inhibition may represent a novel approach to prevent metastasis of human cancers.


Introduction
Cytochrome P450 (CYP) epoxygenases metabolize arachidonic acid to biologically active eicosanoids termed cis-epoxyeicosatrienoic acids (5,6-EET, 8,9-EET, 11,12-EET, and 14,15-EET; ref. 1).Early studies identified EETs as endothelium-derived hyperpolarizing factors, which activate calcium-sensitive potassium channels to result in hyperpolarization of resting membrane potential and relaxation of vascular smooth muscle cells (2).Subsequent work has shown that EETs have diverse biological effects within the cardiovascular system.Addition of EETs or CYP2J2 overexpression diminishes cytokine-induced endothelial cell adhesion molecule expression and inhibits leukocyte adhesion to vessel walls (3).These effects involve suppression of NF-nB and InB kinase and suggest that EETs have anti-inflammatory effects independent of membrane hyperpolarization (3).We have observed that EETs up-regulate endothelial nitric oxide synthase (4) and stimulate endothelial cell proliferation and angiogenesis via activating both mitogen-activated protein kinase (MAPK) and phosphatidylinositol 3-kinase (PI3K)/Akt signaling pathways (5).Addition of synthetic EETs or CYP2J2 overexpression protects endothelial cells against hypoxia-reoxygenation injury in vitro (6) and shows fibrinolytic effects by increasing tissue plasminogen activator (t-PA) expression and activity (7).CYP2J2 overexpression and addition of synthetic EETs also protect against post-ischemic myocardial dysfunction through activating mitochondrial ATP-sensitive K + channels and the MAPK pathway (8).Collectively, these data describe a role for CYP2J2-derived EETs in cardiovascular protection.
However, in a recent publication, we described potentially deleterious effects of CYP2J2 expression and EET biosynthesis.Elevated CYP2J2 mRNA and protein levels were found in a set of diverse human-derived cancer cell lines and human cancer tissues but not in noncancer cell lines or adjacent normal tissues (9).Addition of exogenous EETs or recombinant adeno-associated viral vector (rAAV)-mediated delivery of CYP2J2 or CYP102 F87V (a selective 14,15-EET epoxygenase) markedly promoted proliferation of cancer cells in vitro and in vivo.In neoplastic cell lines, epoxygenase overexpression or EET addition increased activation of MAPK and PI3K/Akt pathways and enhanced phosphorylation of epidermal growth factor receptor (EGFR).EETs also inhibited carcinoma cell apoptosis through up-regulation of the antiapoptotic proteins Bcl-2 and Bcl-xL and down-regulation of the proapoptotic protein Bax (9).These results suggested that the CYP2J2 epoxygenase plays a previously unrecognized role in the promotion of the neoplastic phenotype and in the pathogenesis of a variety of human cancers.
The roles of CYP-derived EETs in carcinoma cell metastasis have yet to be examined.Herein, we show that CYP epoxygenase overexpression or EET treatment markedly enhanced the migration, invasion, and prometastatic gene expression profiles in a variety of cancer cell lines in vitro.In addition, CYP epoxygenase overexpression enhanced tumor metastasis of MDA-MB-231 human breast carcinoma cells to lungs of athymic BALB/C mice.These data describe a previously unrecognized role for EETs in the promotion of carcinoma metastasis and may have important therapeutic implications.

Materials and Methods
The human breast cancer cell lines MDA-MB-231, Tca-8113, A549, Hcl-H446, and HepG2 were obtained from the American Type Culture Collection and maintained as recommended.Chemicals and reagents were obtained as follows: cell culture medium and Trizol reagent from Life Technologies; antibodies against nm-23, CD44, KAI-1/CD82, matrix metalloproteinase (MMP)-2, and MMP-9 from Santa Cruz Biotechnology, Inc.; antibodies against human E-cadherin from Cell Signaling Technology; antibody against h-actin from NeoMarkers; horseradish peroxidase (HRP)-conjugated secondary antibodies (goat anti-rabbit IgG and rabbit anti-mouse IgG) from KPL; enhanced chemiluminescence reagents from Pierce, Inc.; polyvinylidene difluoride (PVDF) membranes, prestained protein markers, and SDS-PAGE gels from Bio-Rad, Inc.; and synthetic 8,9-EET, 11,12-EET, and 14,15-EET from Sigma Chemical Co.Polyclonal antibodies against CYP2J2 were developed as described (10) and showed no cross-reactivity with other P450 isoforms.Antibody against CYP102 F87V was a kind gift from Dr. Jorge Capdevila (Vanderbilt University Medical School, Nashville, TN).All other reagents were purchased from standard commercial suppliers unless otherwise specified.
For measurement of EETs and dihydroxyeicosatrienoic acid in the cultured cells, the cells infected with the different rAAVs for 7 days in 150-mm dishes were scraped in cold PBS (pH 7.2) with triphenylphosphine after washing with PBS and then homogenized and sonicated over ice.Eicosanoids were extracted from the cell homogenates thrice with ethyl acetate after acidification with acetic acid.After evaporation, the samples were dissolved in N,N-dimethylformamide (Amresco) and concentrations of the stable EET metabolite 14,15-dihydroxyeicosatrienoic acid (DHET) were determined by an ELISA kit (Detroit R&D) according to the manufacturer's instructions.Results were expressed as nanograms of DHET per 250 Ag proteins.
Cell migration and invasion assays.Chemotactic migration was evaluated using a modified Boyden chamber as described (13).Porous filters (8-Am pores) were coated by passive adsorption for 24 h with type IV collagen (10 Ag/mL collagen in coating buffer; Sigma).Cells (1 Â 10 5 ) were plated in the upper chamber.The bottom chamber contained 5% FBSsupplemented medium as a chemoattractant.Subsequently, serum-free medium with individual EETs (100 nmol/L) was added to the upper chamber and cells were allowed to migrate for 5 h.Nonmigrating cells were removed from the upper chamber with a cotton swab and filters were stained with DiffQuik stain.Migrating cells adherent to the underside of the filter were counted with an ocular micrometer, counting a minimum of 10 high-powered fields (HPF).To study cell invasiveness, rAAV-infected or EET-treated cells (5 Â 10 4 ) were plated onto Boyden chambers coated with Matrigel (500 Ag/filter) and incubated for 48 to 72 h.Chambers were stained as described above and invasiveness was evaluated by quantifying the number of cells invading the Matrigel and reaching the opposite side of the filter.To test whether EET-induced up-regulation and activation of MMPs play a role in EET-enhanced migration and invasion, 11,12-EET-treated cells (100 nmol/L) were incubated with nonspecific MMP inhibitor 1,10-phenanthrolin (100 Amol/L) for 6 h and then migration and invasiveness were evaluated as described above.All the data are expressed as relative migration (number of cells per field) and represent the mean F SE of quadruplicate experiments.
Injection of MDA-MB-231 cells and lung colony measurement.All animal studies were approved by the Animal Research Committee of Tongji Medical College and done according to guidelines set forth by the NIH.Athymic BALB/c mice, 4 weeks of age, were housed on a 12-h light/ 12-h dark cycle in a pathogen-free environment and allowed ad libitum access to food and water.MDA-MB-231 cells were cultured and infected with rAAV-CYP2J2, rAAV-antisense-CYP2J2, and rAAV-GFP (f100 virons per cell) as described above.One week after infection, the cells (5 Â 10 6 in 0.4 mL of phosphate buffer solution) were inoculated into the mammary fat pads of female athymic BALB/C mice (n = 8 for each group).Tumor size was measured once every 5 days (beginning 7 days after injection) with microcalipers.Tumor volumes were calculated as length Â width 2 Â 0.5236 as described previously (14).At the end of the experiment (14 weeks after cell injection), mice were sacrificed by sodium pentobarbital overdose (90 mg/kg i.p.), and primary tumors were removed, weighed, and analyzed for protein expression.Lungs were also removed for quantification of white metastatic colonies on the lung surfaces.
Two additional experiments were done to exclude the effects of differential xenograft tumor proliferation on metastasis into lungs.Cells were infected and inoculated into the mammary fat pads of female athymic BALB/C mice as described above.These mice were monitored and tumors were measured until the primary xenograft tumors reached a volume of f2.5 cm 3 .The animals were subsequently euthanized and autopsied.Primary xenograft tissues were weighed and white metastatic colonies on the lung surfaces were counted (n = 6 for each group).In a separate experiment, lung metastasis was assessed after MDA-MB-231 cells infected with either rAAV-GFP, rAAV-CYP2J2, or rAAV-antisense-CYP2J2 (5 Â 10 5 in 0.3 mL DMEM) were injected into mouse tail veins according to methods previously described ( 15) and the animals were sacrificed at 4 weeks to evaluate lung metastases as described above (n = 6 for each group).
We also evaluated the effects of CYP2J2 overexpression on angiogenesis in and around xenograft tumors as the method described by Weidner et al. (16) Briefly, xenograft tumors were sectioned and stained using anti-CD31 antibodies.The areas of invasive tumor containing the highest numbers of capillaries and small venules per area (''hotspots'') were selected by light microscopy at low magnification (Â40).After the area of highest neovascularization was identified, individual microvessel counts were made on a 200Â field.Results were expressed as the mean value of all the fields.
Colony formation assay.Soft agar colony formation assays were done in six-well dishes as described previously (19).Briefly, cells (2.5 Â 10 3 ) infected with either rAAV-CYP2J2, rAAV-GFP, or rAAV-antisense-CYP2J2 were suspended in 1.5 mL of 0.3% bactoagar with growth medium (RPMI 1640 supplemented with 10% FBS).Cells were added to a base layer of 0.6% bactoagar containing culture medium and incubated at 37jC in a 5% CO 2 incubator for 2 weeks.Colony formation was assessed by counting the number of colonies under low magnification (Â100) at four points on each well.A colony was defined as >10 cells in one site.

Cancer Research
Cancer Res 2007; 67: (14).July 15, 2007 Fibronectin adhesion assay.Adhesion of cells to fibronectin was carried out as described previously (20).Briefly, nontissue culture 96-well plates were coated with 100 AL/well of 10 Ag/mL fibronectin for 60 min at 37jC and blocked twice with 200 AL of 1% bovine serum albumin (BSA) in RPMI 1640 for 30 min at 37jC.Three wells were not coated to determine nonspecific binding.Cells (1 Â 10 4 in 100 AL RPMI 1640 containing 0.1% BSA) infected with or without rAAV-GFP, rAAV-antisense-CYP2J2, or rAAV-CYP2J2 were added to fibronectin-coated wells for 60 min at 37jC.Noninfected cells were adhered in the presence or absence of 100 nmol/L EETs as indicated.After three washes with medium to remove nonadhered cells, the cells were covered with 100 AL RPMI 1640 and 20 AL MTT solution (5 mg/mL) was added for cell viability analysis (9).Absorbance values at 570 nm reflect the proportional number of cells adhering to fibronectin.
Statistical analysis.Student's t test was used for statistical analysis of all migration and invasion assays as well as for the analysis of xenograft tumor volume and metastases.Each experiment was done at least in triplicate.Results are expressed as mean F SE of the mean.A P value of <0.05 was taken as the level of significance for all tests.

Results
CYP epoxygenase-derived EETs enhance migration and invasion of carcinoma cells.We previously showed that the human cancer cell lines Tca-8113, A549, HepG2, NCl-H446, LS-174, SiHa, U251, and ScaBER have abundant CYP2J2 expression, whereas the noncancer cell lines HEK293 and HT1080 do not (9).Four representative cell lines (Tca-8113, A549, Hcl-H446, and HepG2) were used in the current studies.We previously showed that infection of these four cell lines with rAAV-CYP2J2 or rAAV-CYP102 F87V resulted in increased expression of the respective recombinant proteins, whereas infection with rAAV-antisense-CYP2J2 resulted in reduced CYP2J2 expression compared with control cells infected with rAAV-GFP or uninfected cells (9).Addition of 100 nmol/L of each EET regioisomer significantly increased cell migration in all four carcinoma cell lines examined in the Transwell assay (2-to 4.5-fold increase over control; Fig. 1A).Similarly, infection with rAAV-CYP2J2 or rAAV-CYP102 F87V significantly increased Tca-8113 and HepG2 Transwell migration 5-to 6-fold above control levels (Fig. 1B).In contrast, treatment with the CYP epoxygenase inhibitor 17-ODYA or infection with rAAV-antisense-CYP2J2 significantly inhibited migration compared with control (Fig. 1B).Moreover, infection with rAAV-CYP2J2 or rAAV-CYP102 F87V or the addition of EET regioisomers significantly promoted invasion of carcinoma cells into Matrigel to levels that were 2-to 4-fold above control levels (Fig. 1C).Invasion was attenuated by addition of the CYP epoxygenase inhibitor 17-ODYA or infection with rAAV-antisense-CYP2J2 (Fig. 1D).Together, these results indicate that CYP epoxygenase-derived EETs enhance migration and invasion of human carcinoma cells in vitro.
CYP2J2-derived EETs enhance migration of MDA-MB-231 breast carcinoma cells.MDA-MB-231 cells are a model cell line to study breast tumor metastasis in mice (21).To confirm efficiency of rAAV-mediated epoxygenase gene transfer and long-term expression of CYP epoxygenases in MDA-MB-231 cells, we analyzed cells in vitro before injection and in xenograft tumors grown in vivo for 14 weeks in athymic BALB/c mice.MDA-MB-231 cells have elevated CYP2J2 protein levels compared with HEK293 cells (Fig. 2A).One week after infection of MDA-MB-231 cells with rAAV-CYP2J2, we observed increased CYP2J2 expression compared with uninfected or rAAV-GFP-infected controls (Fig. 2A).In contrast, infection of MDA-MB-231 cells with rAAV-antisense-CYP2J2 resulted in reduced CYP2J2 expression (Fig. 2A).Similarly, protein extracts from mouse xenograft tumors confirmed that
At 14 weeks, all animals were sacrificed and lungs were removed to count metastatic tumor colonies.Interestingly, we observed a significant increase in lung metastases in mice injected with the rAAV-CYP2J2-infected MDA-MB-231 cells compared with mice injected with uninfected and rAAV-GFP-infected cells (Fig. 3D).In contrast, no metastatic lung colonies were observed in the rAAVantisense-CYP2J2-infected group (Fig. 3C).These results suggest that CYP2J2 overexpression promotes growth and metastasis of breast carcinoma cells in vivo.
CYP2J2 expression influences metastases independent of primary tumor growth.To minimize possible effects of differential primary tumor growth rates on lung metastases, additional experiments were done.Uninfected or rAAV-infected MDA-MB-231 cells were injected into mouse mammary pads as before and xenograft tumors were allowed to grow up to a similar size (f2.5 cm 3 ; Fig. 4A) and weight (f2 g; Fig. 4B), at which time animals were sacrificed to count lung metastases.In this experiment, as before, CYP2J2 overexpression was associated with significantly increased lung metastases (Fig. 4C).
In separate experiments, mice received tail vein injection of uninfected or rAAV-infected MDA-MB-231 cells, which were allowed to grow for 4 weeks before mice were sacrificed to determine extent of lung metastases.In this model, CYP2J2 overexpression also led to significantly more lung metastases than control (Fig. 4D).Additional metastases were found only in the CYP2J2-transfected group.Two animals had liver metastatic lesions (12 and 9 metastatic foci, respectively), whereas another animal had one lesion in bladder.Together, these experiments indicate that CYP2J2 overexpression promotes increased primary tumor metastatic potential independent of its effects on primary tumor growth.
CYP2J2-derived EETs promote soft agar colony formation and adhesion to fibronectin.The metastatic potential of cancer cells was assessed in vitro by their ability to form anchorageindependent colonies in soft agar.MDA-MB-231 cells infected with rAAV-CYP2J2 showed a significant increase in anchorageindependent growth compared with uninfected cells and cells infected with rAAV-GFP.Thus, rAAV-CYP2J2-infected cells produced Figure 4. CYP2J2 overexpression promotes lung metastases of xenograft tumors independent of primary tumor size.Mice were injected with uninfected (control) or rAAV-infected MDA-MB-231 cells and primary tumors were measured until volume was 2.5 cm 3 , at which time animals were sacrificed.Average volume (A) and net weight (B) of xenograft tumors for each group at the time of sacrifice.C, average number of lung metastases for each group at the time of sacrifice.D, uninfected (control) or rAAV-infected MDA-MB-231 cells were injected into tail veins of mice and allowed to grow for 4 to 6 wks.Average numbers of lung metastases for each group.Columns, mean; bars, SE. *, P < 0.01 versus control.
The effect of CYP2J2 expression on adhesion of cancer cells to fibronectin was assessed in vitro using a MTT assay.Treatment with EETs (100 nmol/L) increased cell adhesion to fibronectin by 25% to 50% (Fig. 5C).Similarly, infection with rAAV-CYP2J2 increased adhesion to fibronectin by f100% (Fig. 5D).In contrast, infection with antisense rAAV-CYP2J2 or treatment with the CYP epoxygenase inhibitor 17-ODYA significantly decreased cancer cell adhesion to fibronectin (Fig. 5C and D).
CYPCYP2J2 expression influences expression of metastasisrelated genes.Cancer metastasis is associated with expression of various molecules, including tetraspanin, MMPs, and E-cadherin, and a variety of cell adhesion molecules.The effect of EETs or CYP epoxygenase overexpression on expression of these metastasisrelated genes was examined in MDA-MB-231 cells and in excised tumor xenografts.We found that CYP2J2 overexpression in tumors significantly up-regulated MMP-9 protein expression and activity compared with control (Fig. 6A).MMP-2 activity was increased without a corresponding increase in MMP-2 protein expression (Fig. 6A).In contrast, antisense rAAV-CYP2J2 infection reduced MMP-9 expression and activity compared with control (Fig. 6A).E-cadherin was not detected in these tumors (data not shown).Tumors originating from rAAV-CYP2J2-infected cells also showed increased expression of the prometastatic protein CD44 and decreased expression of antimetastatic proteins CD82 and nm-23 compared with tumors originating from uninfected and rAAV-GFP-infected cells (Fig. 6B).In contrast, tumors originating from antisense rAAV-CYP2J2-infected cells showed the reciprocal pattern-diminished CD44 expression and increased CD82 and nm-23 expression (Fig. 6B).
Treatment of carcinoma cells in culture with exogenous EETs or infection with rAAV-CYP2J2 led to increased MMP-9 and CD44 expression and decreased CD82 and nm-23 expression (Fig. 6C and  D) and also increased MMP-9 activity (Supplementary Fig. S1).Conversely, infection with antisense rAAV-CYP2J2 or treatment with 17-OYDA had reciprocal effects and resulted in decreased MMP-9 and CD44 expression and increased CD82 and nm-23 expression (Fig. 6C and D).Together, these results indicate that CYP-derived EETs up-regulate the expression of genes that promote metastasis and down-regulate the expression of genes that may limit metastatic potential.Finally, we tested whether the EET-induced up-regulation and activation of MMPs played a role in EET-enhanced migration and invasion.Incubation with the nonspecific MMP inhibitor 1,10phenanthrolin significantly attenuated 11,12-EET-induced migration and invasiveness of MDA-MB-231 cells (Supplementary Fig. S2  and S3).This further suggests that EET-stimulated expression and activity of MMPs may play a role in EET-induced changes in the tumor metastasis phenotype.

Discussion
Tumor metastasis is a multistep process that involves cell proliferation, proteolysis, detachment, adhesion, and migration.The mechanisms underlying each of these steps are complex.CYP2J2-derived EETs seem to promote a prometastatic phenotype at several stages.Our previous study showed that the P450 epoxygenase CYP2J2 is abundantly expressed in a variety of human carcinoma cell lines and human tumors.This was shown to have detrimental effects, as overexpression of CYP2J2 or treatment with EETs promoted cell proliferation both in vitro and in vivo (9).In the current study, we found that, in addition to inducing tumor cell proliferation, both endogenously formed and exogenously applied EETs enhanced tumor cell motility, invasion, adhesion, prometastatic gene expression, and xenograft metastasis to lungs.We also showed that rAAV-mediated CYP2J2 transfection results in a significant increase in EET production and these effects of CYP2J2 on cancer cells are mediated by EETs.
A significant finding is that CYP2J2-derived EETs lead to MMP activation in tumor cells.This can enhance tumor progression or metastases in several ways.In renal epithelial cells, MMP activation is required for EET-induced EGFR activation (22).We recently observed similar effects in carcinoma cell lines and endothelial cells, where CYP epoxygenase-derived EETs were found to significantly enhance phosphorylation of EGFR and activate downstream signaling cascades, including MAPK and PI3K/Akt pathways (5,9).Such activation has been reported to trigger upregulation of metastasis-related genes, such as MMPs (23) and CD44 (24,25), and down-regulation of antimetastatic genes, such as CD82/KAI-1 and nm-23, and to modulate cancer cell attachment to matrix (25,26).MMP-2 seems to be critical for tumor enlargement, whereas MMP-9 is critical for stimulating angiogenesis in developing tumors, a process that is also stimulated by EETs (5,25).Herein, we report that CYP2J2 overexpression or treatment with physiologically relevant concentrations of EETs induces many of these prometastatic changes in carcinoma cells and in tumors.
One potential mechanism for EET activation of MMPs is through induction of plasminogen activators.In this regard, EET treatment or CYP2J2 overexpression in endothelial cells has been shown to induce t-PA expression and activity (7).Plasminogen activators, including t-PA and urokinase-type plasminogen activator, have been widely studied in carcinomas and a high level of plasminogen activator expression is associated with carcinoma metastasis and poor prognosis (27)(28)(29).Plasminogen activators convert plasminogen to a proteolytic enzyme called plasmin, which digests fibrin and matrix and promotes MMP maturation (29).Collectively, these data suggest that increased expression and/or activity of t-PA induced by CYP epoxygenasederived EETs may contribute to human cancer metastasis through activation of MMPs.Additionally, activation of MMPs may enhance cancer cell growth (30), stimulate angiogenesis (31), and also modulate cell adhesion (32,33).In this study, a MMP inhibitor significantly attenuated 11,12-EET-induced cancer cell migration and invasiveness, which further supports that the upregulation and activation of MMPs by EETs contribute to CYP2J2enhanced metastasis.
CYP epoxygenase overexpression or addition of EETs increased cell adhesion to fibronectin and lung colonization of carcinoma cells following tail vein injection.This suggests that EETs may promote a prometastatic phenotype in tumor cells that is distinct from effects on primary tumor growth.We found that CD44 is also up-regulated in tumor cells by CYP epoxygenases or EETs.As with MMPs, increased CD44 expression can contribute to a metastatic phenotype in several ways.CD44 is an adhesion molecule with binding domains for the extracellular matrix component hyaluronic acid.CD44-mediated adhesion also leads to signaling events involving transmembrane and cytoplasmic tail domains that may enhance cancer cell detachment, motility, matrix degradation, and metastases (34,35).In addition, the extracellular glycoprotein domains of CD44 can bind growth factors, cytokines, and enzymes to concentrate the activities of these molecules near the cell surface.Finally, CD44 expression can activate NF-nB signaling (36), which could further promote cancer metastasis by up-regulating a variety of prometastatic genes.
CD82/KAI-1 is a transmembrane glycoprotein member of the transmembrane-4 superfamily (tetraspanin), which has inhibitory effects on tumor cell motility and metastasis.Studies have found that loss of CD82 expression is correlated with increased tumor metastases and poor prognosis in a variety of human carcinomas (37)(38)(39)(40)(41).In contrast, CD82 expression is associated with improved prognosis through inhibition of cancer metastasis (37,42).CD82 has been implicated in the assembly of integrin-containing signaling complexes, thus modulating the function of integrin receptors in cell migration (43).CD82 down-regulates cell surface expression and signaling from EGFRs and a 6 integrins, which decreases cellular adhesion and morphogenesis (44,45).EET treatment and CYP epoxygenase overexpression markedly reduced CD82 protein expression, whereas CYP epoxygenase inhibition or down-regulation of CYP2J2 significantly up-regulated CD82 expression in both cancer cell lines and MDA-MB-231 cell xenografts.Thus, down-regulation of CD82 by CYP epoxygenase-derived EETs may promote the metastatic phenotype observed in these studies.
Although nm-23 was identified as a cancer metastasis suppressor gene almost 2 decades ago (46,47), the biochemical pathway by which elevated nm-23 expression suppresses metastasis is still unclear.Our work showed that EET incubation with cultured cancer cells and CYP epoxygenase overexpression down-regulated nm-23.Together, these studies suggest that CYP epoxygenasederived EETs promote human carcinoma metastasis at least partially through down-regulating expression of nm-23 and CD82.
In conclusion, our findings suggest that CYP2J2-derived EETs may play important roles in promoting invasion and metastasis of human cancers through several mechanisms.EETs activate many signaling pathways that can have both short-term (cell motility, invasion, and adhesion) and long-term (gene expression) effects on carcinoma cells.The effects of CYP2J2-derived EETs may involve down-regulation of metastatic suppressor genes, up-regulation of metastatic enhancing genes, and activation of a variety of signaling cascades, such as PI3K/Akt and MAPK.These findings, combined with previous data (9), suggest that inhibition of CYP epoxygenases and EET pathways could represent a novel therapeutic strategy for the treatment of human carcinomas.

Figure 5 .
Figure 5. EETs or CYP2J2 overexpression promotes soft agar colony formation and adhesion to fibronectin.A, representative photographs of soft agar colony formation of uninfected (control) or rAAV-infected MDA-MB-231 cells.B, quantification of soft agar growth of uninfected (control) or rAAV-infected MDA-MB-231 cells.Mean colony number (z10 cells per colony) per HPF.C, mean absorbance value on MTT assay for EET-induced MDA-MB-231 cell adhesion to fibronectin.D, mean absorbance value on MTT assay for CYP epoxygenase-induced MDA-MB-231 cell adhesion to fibronectin.Columns, mean; bars, SE. *, P < 0.05 versus control.