Potential ability of hot water adzuki (Vigna angularis) extracts to inhibit the adhesion, invasion, and metastasis of murine B16 melanoma cells

The 40% ethanol eluent of the fraction of hot-water extract from adzuki beans (EtEx.40) adsorbed onto DIAION HP-20 resin has many biological activities, for example, antioxidant, antitumorigenesis, and intestinal alpha-glucosidase suppressing activities. This study examined the inhibitory effect of EtEx.40 on experimental lung metastasis and the invasion of B16-BL6 melanoma cells. EtEx.40 was found significantly to reduce the number of tumor colonies. It also inhibited the adhesion and migration of B16-BL6 melanoma cells into extracellular matrix components and their invasion into reconstituted basement membrane (matrigel) without affecting cell proliferation in vitro. These in vivo data suggest that EtEx.40 possesses a strong antimetastatic ability, which might be a lead compound in functional food development.     

Bioconjugation of laminin peptide YIGSR with poly(styrene co-maleic acid) increases its antimetastatic effect on lung metastasis of B16-BL6 melanoma cells

A comb-shaped polymeric modifier, SMA [poly(styrene comaleic anhydride)], which binds to plasma albumin in blood was used to modify the synthetic cell-adhesive laminin peptide YIGSR, and its inhibitory effect on experimental lung metastasis of B16-BL6 melanoma cells was examined. YIGSR was chemically conjugated with SMA via formation of an amide bond between the N-terminal amino group of YIGSR and the carboxyl anhydride of SMA. The antimetastatic effect of SMA-conjugated YIGSR was approximately 50-fold greater than that of native YIGSR. When injected intravenously, SMA-YIGSR showed a 10-fold longer plasma half-life than native YIGSR in vivo. In addition, SMA-YIGSR had the same binding affinity to plasma albumin as SMA, while native YIGSR did not bind to albumin. These findings suggested that the enhanced antimetastatic effect of SMA-YIGSR may be due to its prolonged plasma half-life by binding to plasma albumin, and that bioconjugation of in vivo unstable peptides with SMA may facilitate their therapeutic use.     

Chemically modified heparins as inhibitors of heparan sulfate specific endo-beta-glucuronidase (heparanase) of metastatic melanoma cells

To determine the significance of the heparan sulfate (HS) degradative endo-beta-glucuronidase (heparanase) in tumor invasion and metastasis and to develop possible antimetastatic agents, we synthesized specific inhibitors of this enzyme. We previously found that heparanase activity correlates with the lung colonization abilities of murine B16 melanoma cells and is inhibited by heparin [Nakajima, M., Irimura, T., Di Ferrante, N., & Nicolson, G. L. (1984) J. Biol. Chem. 259, 2283-2290]. In this study, heparin was chemically modified in order to determine which portions of its structure are responsible for heparanase inhibitory activity and to obtain heparanase inhibitors that have minimal additional biological effects, such as anticoagulation. N-Sulfate groups and O-sulfate in heparin were removed separately, and the resultant free amino groups were acetylated or resulfated. Heparin was also reduced at the carboxyl groups of uronic acid. The heparanase inhibitory activities of these heparin derivatives were examined by high-speed gel-permeation chromatography and by the use of radioactive HS immobilized on agarose beads. The results indicated that although N-sulfate and O-sulfate groups on glucosamine residues, and carboxyl groups on uronic acid residues, are important for heparanase inhibition, they are not essential for full activity. When highly metastatic B16-BL6 melanoma cells were incubated with N-acetylated N-desulfated heparin, N-resulfated N- and O-desulfated heparin, or carboxyl-reduced heparin and injected intravenously to syngenic C57BL/6 mice, significant reductions in the numbers of experimental melanoma lung metastases occurred.     

Inhibition of murine melanoma cell-matrix adhesion and experimental metastasis by albolabrin, an RGD-containing peptide isolated from the venom of Trimeresurus albolabris

Albolabrin, a 7.5-kDa cysteine-rich protein isolated from the venom of Trimeresurus albolabris, contains the arginine-glycine-aspartic acid (RGD) cell recognition sequence found in many cell adhesion-promoting extracellular matrix proteins, such as fibronectin and laminin. Albolabrin belongs to a family of RGD-containing peptides, termed disintegrins, recently isolated from the venom of various vipers and discovered to be potent inhibitors of both platelet aggregation and cell-substratum adhesion. Here we report that albolabrin inhibited the attachment of B16-F10 mouse melanoma cells to either fibronectin or laminin absorbed on plastic. When immobilized on plastic, albolabrin promoted B16-F10 melanoma cell attachment; this was inhibited by either RGD-serine (RGDS) or antibodies to integrins, suggesting that albolabrin binds via its RGD amino sequence to integrin receptors expressed on the melanoma cell surface. In an in vivo experimental metastasis system, albolabrin at a concentration of 300-600 nM inhibited C57BL/6 mouse lung colonization by tail vein-injected mouse melanoma cells and was at least 2000 times more active than RGDS in this assay. We propose that albolabrin inhibits tumor cell metastasis by inhibiting integrin-mediated attachment of melanoma cells to RGD-containing components of the extracellular matrix in the mouse lung.     

Effect of systemic administration of mouse recombinant interferon-gamma on the lung tumor metastases in mice

The purpose of this study was to examine the effective anti-metastatic activity by multiple i.v. administrations of mouse recombinant interferon-gamma (IFN-gamma) against pulmonary metastases of 3LL or B16-BL6 melanoma cells after surgical excision of primary tumors. Multiple treatments with IFN-gamma reduced effectively the incidence of pulmonary tumor metastases. Repeated 4 consecutive treatment modalities with IFN-gamma showed remarkable reduction of lung tumor colonies, and also rendered alveolar macrophages (AM) cytotoxic against B16-BL6 cells. In contrast, 14 consecutive administrations of IFN-gamma at any doses (10(2) and 10(3) U/mouse) could not activate macrophages to become cytotoxic, but were effective in regressing metastases. Thus, antimetastatic activity of IFN-gamma may be due to the stimulation of host immune defense systems such as induction of tumoricidal macrophages, presumably the direct antiproliferative action to tumor cells, or both actions under the appropriate administration conditions. We found that the systemic administration of IFN-gamma under appropriate multiple treatment modalities results in the reduction of the lung metastases and can activate AM to become tumor cytotoxic at relatively low doses (10(2) U). High-dose IFN-gamma in the multiple administration schedule was also effective for the reduction of lung tumor colonies, but strongly suppressed the nonspecific immune function and could not activate tumoricidal properties of AM.     

Role of histamine in natural killer cell-mediated resistance against tumor cells

The formation of lung metastases by i.v.-injected B16 melanoma (F1 and F10 strain) cells in Swiss albino, C57BL/6, and BALB/c mice was reduced by a single dose of histamine given 24 h before tumor cell inoculation. The antimetastatic effect of histamine was specifically mediated by histamine H2-receptors (H2R): it was blocked by the H2R antagonist ranitidine and mimicked by dimaprit, a specific H2R agonist but not by an H2R-inactive structural analog of this compound, nor-dimaprit, or the H1R agonist 2-thiazolyl-ethylamide. A single dose of any of the H2R antagonists ranitidine, tiotidine, famotidine, or cimetidine drastically augmented metastasis. Effects of H2R-interactive compounds on B16 metastasis required intact NK cells, as judged by the inability of histamine or ranitidine to affect B16 metastasis after NK cell depletion in vivo using antibodies to asialo-GM1. NK-cell-mediated lysis of YAC-1 lymphoma cells in vivo was enhanced by histamine and reduced by ranitidine within 4 h after inoculation of tumor cells. The antimetastatic effect of IL-2 was potentiated by histamine; in some experiments, combined treatment with a low dose of IL-2 (6000 U/kg) and histamine completely eliminated metastasis, whereas concomitant treatment with ranitidine abrogated antimetastatic effects of IL-2; animals treated with ranitidine and IL-2 displayed the same level of enhanced metastasis as those treated with ranitidine alone. The presented data are suggestive of an earlier unrecognized role for histamine in NK cell-mediated resistance against metastatic tumor cells.     

Antimetastatic effect of Lactobacillus casei YIT9018 (LC 9018) on a highly metastatic variant of B16 melanoma in C57BL/6J mice

Summary The effect of Lactobacillus casei YIT9018 (LC 9018) on a highly metastatic variant of B16 melanoma, B16-BL6, was determined in C57BL/6 mice. Intralesional (i.l.) injection of LC 9018 inhibited tumor growth and prolonged the survival after s.c. inoculation of B16-BL6 into C57BL/6 mice. Injection of LC 9018 i.v. protected the mice against pulmonary metastasis after i.v. inoculation of B16-BL6. Injection of LC 9018 i.l. before surgical excision of the primary tumor inhibited axillary lymph node metastasis and i.v. injection of LC 9018 after surgical excision of the primary tumor inhibited both axillary lymph node and lung metastases. On the other hand, the combination of i.l. and i.v. injections of LC 9018 markedly inhibited both lymph node and lung metastases. Natural killer cell activity of axillary lymph node cells was augmented by the injection of LC 9018 into a front footpad, while the cytolytic activity of axillary lymph node cells was significantly enhanced. However, the cytolytic activity was diminished by depleting whole lymph node cells of the plastic adherent cells. Furthermore, alveolar macrophage-mediated cytotoxic activity was augmented by the i.v. injection of LC 9018.     

Down-regulation of ras and myc expression associated with mdr-1 overexpression in adriamycin-resistant tumor cells.

The murine melanoma tumor cells, B16-BL6, are a recognized model for experimental and spontaneous metastasis. B16-BL6 cells express a lower metastatic phenotype upon acquisition of resistance to adriamycin. Using this novel system, the role of ras, c-myc, and multidrug-resistant gene (mdr1) expression in the metastatic and drug-resistant phenotype was examined. The metastatic cells expressed a high level of c-Ki-ras and c-myc, whereas down-regulation of both proto-oncogenes was observed in the adriamycin-resistant cells. The mdr1 gene, which encodes P-glycoprotein of the drug-resistant superfamily gene, was overexpressed in drug-resistant melanoma cells. These results suggest that altered expression of genes that regulate cellular proliferation and growth may be a determinant of metastasis and drug sensitivity of tumor cells.     

Flavonoids inhibit melanoma lung metastasis by impairing tumor cells endothelium interactions

Flavonoids comprise a class of low molecular weight compounds displaying a variety of biological activities including inhibition of tumor growth and metastasis. To gain insight into the mechanisms underlying metastasis inhibition, we have employed the B16-BL6 murine melanoma metastasis model. B57BL/6N mice were injected i.v. with tumor cells and Apigenin, Quercetin, or Tamoxifen, each at 50 mg/kg given i.p., and lung tumor cell colonies counted 14-6 days thereafter. Three different injection schedules were used for each drug: (a) daily injection, starting 24 h before injection of the tumor cells; (b) single dose, 24 h preceding tumor challenge; (c) daily injection, starting 24 h after the injection of the tumor cells. All three compounds significantly reduced tumor lung deposits (Apigenin = Quercetin > Tamoxifen). However, when treatment was delayed by 24 h after tumor cells (schedule c), multiple daily doses of Apigenin or Quercetin were less effective that a single dose of the same compound given 24 h before tumor challenge (schedule b). Apigenin and Quercetin, but not Tamoxifen, were found to inhibit VCAM-1 expression in a dose-dependent manner in HUVEC and in murine pulmonary endothelial cells. In ex vivo experiments, the number of tumor cells adhering to lung vessels was significantly diminished in animals treated with a single dose of Apigenin and Quercetin. These findings indicate that the inhibition of tumor cell metastasis by Apigenin or Quercetin may significantly depend on the ability of these compounds to alter the host's microenvironment, further substantiating the role of the intravascular processes in the metastatic cascade.     

Involvement of tumor necrosis factor α and very late activation antigen 4/vascular cell adhesion molecule 1 interaction in surgical-stress-enhanced experimental metastasis

 We examined the influence of surgical stress on hematogenous metastasis of malignant tumor cells. The study was performed by focusing on the involvement of inflammatory cytokines in the serum, raised acutely after surgery, and endothelial adhesion molecules in the metastatic process. Surgical stress, given to C57BL/6 mice before B16-BL6 melanoma inoculation, significantly enhanced the pulmonary metastasis. This enhancement was seen when the surgery lasted for more than 2 h. After the 2-h surgery, the enhancement of pulmonary metastasis was seen most remarkably when B16-BL6 was inoculated 24 h after surgery. The serum level of tumor necrosis factor α (TNFα) in the mice that underwent the 2-h surgery peaked 12 h after the surgery. In contrast, serum interferon γ was not detectable. Administration of an anti-TNFα mAb before the surgery inhibited the enhanced metastasis by inhibiting the increased expression of vascular cell adhesion molecule 1 (VCAM-1) on lung vascular endothelium after the surgery. Pretreatment of B16-BL6 cells with an anti-very late activation antigen 4 (anti-VLA-4) mAb completely inhibited the enhanced metastasis after surgery. Administration of an anti-VCAM-1 mAb before surgery also inhibited the enhancement. These results indicate that serum TNFα , raised by surgical stress, is critically involved in the enhanced pulmonary metastasis of mouse melanoma by inducing VCAM-1 expression on lung vascular endothelium. Received: 22 January 1996 / Accepted: 1 April 1996     

Melanoma cell expression of CD200 inhibits tumor formation and lung metastasis via inhibition of myeloid cell functions

CD200 is a cell surface glycoprotein that functions through engaging CD200 receptor on cells of the myeloid lineage and inhibits their functions. Expression of CD200 has been implicated in a variety of human cancer cells including melanoma cells and has been thought to play a protumor role. To investigate the role of cancer cell expression of CD200 in tumor formation and metastasis, we generated CD200-positive and CD200-negative B16 melanoma cells. Subcutaneous injection of CD200-positive B16 melanoma cells inhibited tumor formation and growth in C57BL/6 mice but not in Rag1^−/−C57BL/6 mice. However, i.v. injection of CD200-positive B16 melanoma cells dramatically inhibited tumor foci formation in the lungs of both C57BL/6 and Rag1^−/−C57BL6 mice. Flow cytometry analysis revealed higher expression of CD200R in Gr1⁺ myeloid cells in the lung than in peripheral myeloid cells. Depletion of Gr1⁺ cells or stimulation of CD200R with an agonistic antibody in vivo dramatically inhibited tumor foci formation in the lungs. In addition, treatment with tumor antigen specific CD4 or CD8 T cells or their combination yielded a survival advantage for CD200 positive tumor bearing mice over mice bearing CD200-negative tumors. Taken together, we have revealed a novel role for CD200-CD200R interaction in inhibiting tumor formation and metastasis. Targeting CD200R may represent a novel approach for cancer immunotherapy.     

Macrosphelide B suppressed metastasis through inhibition of adhesion of sLe(x)/E-selectin molecules

Macrosphelide B (MSB), a 16-membered macrolide from Microsphaeropsis sp. FO-5050, inhibits adhesion of sialyl Lewis(x) (sLe(x))-expressing HL-60 cells to LPS-activated (E-selectin-expressing) human umbilical vein endothelial cells (HUVECs) in vitro. This study examines MSB effects on metastasis of B16/BL6 mouse melanoma cells (B16/BL6 cells) and L5178Y-ML mouse lymphoma cells in vivo and analyzes the MSB antimetastatic activity mechanism. When administered MSB at 20 mg/kg/day, lung metastatic nodules of B16/BL6 cells were significantly decreased (T/C = 45%). However, no inhibition of metastasis of L5178Y-ML cells to the spleen and liver was observed. Flow cytometry analysis showed that B16/BL6 cells expressed high levels of sLe(x) antigen, whereas expression on L5178Y-ML cells was low. Under in vitro conditions, B16/BL6 cells demonstrated a greater degree of adhesion to LPS-activated HUVECs than L5178Y-ML cells, but adhesion was significantly inhibited by MSB and sLe(x) antibody. Combined therapy of MSB and cisplatin (CDDP) induced remarkable lung metastasis inhibition without adverse effects of CDDP to the host. All these findings suggest that MSB suppresses lung metastasis of B16/BL6 cells by inhibiting cell adhesion to endothelial cells through the sLe(x) molecule.     

Heparin inhibits metastatization of experimental melanoma

Heparin treatment, at human equivalent doses, modulates coagulation parameters in mice similarly to the human situation. Heparins were tested in various melanoma metastasis models for their antimetastatic activity. Heparins were active against melanoma metastasis without influencing the primary tumor. Tumor cell-induced platelet aggregation was not the primary target of heparins, since melanoma cells were not active in this respect. Our results support the notion that heparins have antimetastatic activity.     

RAM, an RGDS analog, exerts potent anti-melanoma effects in vitro and in vivo

Peptides containing the RGD sequence are under continuous investigation given their ability to control cell adhesion and apoptosis. Since small peptides are quickly metabolized and degraded in vivo, developing analogs resistant to serum-induced degradation is a challenging task. RGD analogs developed so far are known as molecules mostly inhibiting cell adhesion; this feature may reduce cell proliferation and tumor development but may not induce regression of tumors or metastases already formed. In the current study, carried out in melanoma in vitro and in vivo models, we show that RAM, an RGD-non-peptide Analog-Molecule, strongly inhibits cells adhesion onto plastic, vitronectin, fibronectin, laminin and von Willebrand Factor while it does not inhibit cell adhesion onto collagen IV, similarly to the RGDS template peptide. It also strongly inhibits in vitro cell proliferation, migration and DNA-synthesis, increases melanoma cells apoptosis and reduces survivin expression. All such effects were observed in collagen IV seeded cells, therefore are most likely independent from the anti adhesive properties. Further, RAM is more stable than the template RGDS; in fact it maintains its anti-proliferation and anti-adhesion effects after long serum exposure while RGDS almost completely loses its effects upon serum exposure. In a mouse metastatic melanoma in vivo model, increasing doses of RAM significantly reduce up to about 80% lung metastases development, while comparable doses of RGDS are less potent. In conclusion these data show that RAM is a potent inhibitor of melanoma growth in vitro, strongly reduces melanoma metastases development in vivo and represents a novel candidate for further in vivo investigations in the cancer treatment field.     

Further studies of the therapeutic effectsof murine melanoma-specific monoclonal antibodies

The results presented here further characterize four murine monoclonal antibodies (mAb) that recognize melanoma-specific antigens (9B6, T97, 2-3-1 and 2-3-3). These melanoma-specific mAbs are of the IgG_2b isotype and are significantly therapeutic when administered systemically against established pulmonary melanoma metastases. Here we show a consistent and significantly inhibition of the growth of melanoma lung metastases by all four mAbs and the existence of a time ‘window’ at days 5–8 after tumor inoculation for optimal therapy. Since these mAbs were found not to be cytotoxic or cytolytic in vitro, we looked for host immune response regulation as being responsible for the therapeutic effects. Natural killer (NK) cells were implication as one arm of the host immune system involved in this response since depletion of NK cells in vivo by αasialoGM1 or αNK1.1 antibodies partially abrogated the inhibitory effect of the mAbs. The observed antimetastatic effects could also be partially abrogated using antibodies directed against the T-cell subset surface markers, CD4⁺ and CD8⁺. Intramuscular melanoma tumor growth was also found to be suppressed by mAb 2-3-1, but only if administered in the area of tumor growth and only if multiple inoculations are administered over a 13-day period. The beneficial effect of mAb antimetastatic therapy was found to be useful against several syngeneic melanomas, including JB/MS, B16 and several sublines of the B16 F10 melanoma.     

Identification of an alternatively spliced site in human plasma fibronectin that mediates cell type-specific adhesion

We have compared the molecular specificities of the adhesive interactions of melanoma and fibroblastic cells with fibronectin. Several striking differences were found in the sensitivity of the two cell types to inhibition by a series of synthetic peptides modeled on the Arg-Gly-Asp-Ser (RGDS) tetrapeptide adhesion signal. Further evidence for differences between the melanoma and fibroblastic cell adhesion systems was obtained by examining adhesion to proteolytic fragments of fibronectin. Fibroblastic BHK cells spread readily on fl3, a 75-kD fragment representing the RGDS-containing, "cell-binding" domain of fibronectin, but B16-F10 melanoma cells could not. The melanoma cells were able to spread instead on f9, a 113-kD fragment derived from the large subunit of fibronectin that contains at least part of the type III connecting segment difference region (or "V" region); f7, a fragment from the small fibronectin subunit that lacks this alternatively spliced polypeptide was inactive. Monoclonal antibody and fl3 inhibition experiments confirmed the inability of the melanoma cells to use the RGDS sequence; neither molecule affected melanoma cell spreading, but both completely abrogated fibroblast adhesion. By systematic analysis of a series of six overlapping synthetic peptides spanning the entire type III connecting segment, a novel attachment site was identified in a peptide near the COOH- terminus of this region. The tetrapeptide sequence Arg-Glu-Asp-Val (REDV), which is somewhat related to RGDS, was present in this peptide in a highly hydrophilic region of the type III connecting segment. REDV appeared to be functionally important, since this synthetic tetrapeptide was inhibitory for melanoma cell adhesion to fibronectin but was inactive for fibroblastic cell adhesion. REDV therefore represents a novel adhesive recognition signal in fibronectin that possesses cell type specificity. These results suggest that, for some cell types, regulation of the adhesion-promoting activity of fibronectin may occur by alternative mRNA splicing.     

β-Actin-binding complementarity-determining region 2 of variable heavy chain from monoclonal antibody C7 induces apoptosis in several human tumor cells and is protective against metastatic melanoma

Complementarity-determining regions (CDRs) from monoclonal antibodies tested as synthetic peptides display anti-infective and antitumor activities, independent of the specificity of the native antibody. Previously, we have shown that the synthetic peptide C7H2, based on the heavy chain CDR 2 from monoclonal antibody C7, a mAb directed to a mannoprotein of Candida albicans, significantly reduced B16F10 melanoma growth and lung colony formation by triggering tumor apoptosis. The mechanism, however, by which C7H2 induced apoptosis in tumor cells remained unknown. Here, we demonstrate that C7H2 interacts with components of the tumor cells cytoskeleton, being rapidly internalized after binding to the tumor cell surface. Mass spectrometry analysis and in vitro validation revealed that β-actin is the receptor of C7H2 in the tumor cells. C7H2 induces β-actin polymerization and F-actin stabilization, linked with abundant generation of superoxide anions and apoptosis. Major phenotypes following peptide binding were chromatin condensation, DNA fragmentation, annexin V binding, lamin disruption, caspase 8 and 3 activation, and organelle alterations. Finally, we evaluated the cytotoxic efficacy of C7H2 in a panel of human tumor cell lines. All tumor cell lines studied were equally susceptible to C7H2 in vitro. The C7H2 amide without further derivatization significantly reduced lung metastasis of mice endovenously challenged with B16F10-Nex2 melanoma cells. No significant cytotoxicity was observed toward nontumorigenic cell lines on short incubation in vitro or in naïve mice injected with a high dose of the peptide. We believe that C7H2 is a promising peptide to be developed as an anticancer drug.     

Batroxostatin, an Arg-Gly-Asp-containing peptide from Bothrops atrox, is a potent inhibitor of platelet aggregation and cell interaction with fibronectin

A potent inhibitor of platelet aggregation and cell adhesion was isolated from the venom of Bothrops atrox. This peptide, referred to as batroxostatin, was composed of 71 amino acids and showed a high degree of homology with other snake venom peptides including trigramin, albolabrin, elegantin and applagin: all 12 cysteines and the RGD sequence (standard one-letter amino acid codes) aligned in the same position. Compared on a molar basis, the anti-platelet aggregation activity of batroxostatin was about 1000-times higher than that of RGDS. In addition, batroxostatin was about 400-times more potent than GRGDS at inhibiting melanoma cell adhesion to fibronectin. Batroxostatin covalently attached to plastic promoted adhesion of melanoma cells. The anti-GP140 antibody, recognizing beta 1 integrins, completely inhibited adhesion of mouse melanoma cells to batroxostatin. This observation, in addition to the inhibitory effect of batroxostatin on the adhesion of chick fibroblasts to fibronectin, suggests that batroxostatin interacts with integrins from both the beta 1 and beta 3 subfamilies.     

PRL-3 siRNA inhibits the metastasis of B16-BL6 mouse melanoma cells in vitro and in vivo

Phosphatase of regenerating liver-3 (PRL-3) has been proposed to promote the invasion of tumor cells to metastasis sites. However, the effect of PRL-3 on spontaneous metastasis has not been clearly demonstrated, and whether PRL-3 could become a new therapeutic target in malignant tumor is still unknown. In this study, we used PRL-3 siRNA as a molecular medicine to specifically reduce the expression of PRL-3 in B16-BL6 cells, a highly metastatic melanoma cell line. In vitro, PRL-3 siRNA significantly inhibited cell adhesion and migration, but had no effect on cell proliferation. In the spontaneous metastatic tumor model in vivo, PRL-3 siRNA treatment remarkably inhibited the proliferation of primary tumor, prevented tumor cells from invading the draining lymph nodes, and prolonged the life span of mice. Therefore, our results indicate that PRL-3 plays a critical role in promoting the whole process of spontaneous metastasis and tumor growth initiation, and that inhibiting PRL-3 will improve malignant tumor therapy.