MMP-26 在人正常胎盘滋养层细胞中的表达及激活素 A 对其表达的调节

胚胎植入和胎盘形成涉及细胞外基质的降解和重建,以及细胞的增殖、凋亡、迁移和分化,基质金属蛋白酶 (MMPs) 是参与这些事件的主要蛋白水解酶系统 . MMP-26 是近年来发现的 MMPs 家族的新成员,但其功能所知甚少 . 通过半定量 RT-PCR 、免疫组织化学、荧光免疫细胞化学等手段,发现人胎盘中 MMP-26 主要定位于绒毛滋养层细胞,在绒毛间质细胞中也有少量表达 . 妊娠早期,胎盘中 MMP-26 表达水平较高,至妊娠中期降至最低,但在足月胎盘中其表达又有显著提高,提示 MMP-26 可能参与妊娠早期滋养层细胞的侵润和分娩时的胎盘剥离 . 体外培养的妊娠早期人细胞滋养层细胞能产生一定水平的 MMP-26 ,而其表达受到激活素 A 的剂量依赖性刺激,表明滋养层细胞中存在 MMP-26 表达的自分泌 / 旁分泌调节 .     

Cloning of MMP-26. A novel matrilysin-like proteinase.

A cDNA encoding a novel human matrix metalloproteinase (MMP), named MMP-26, was cloned from fetal cDNA. The deduced 261-amino-acid sequence is homologous to macrophage metalloelastase (51.8% identity). It includes only the minimal characteristic features of the MMP family: a signal peptide, a prodomain and a catalytic domain. As with MMP-7, this new MMP does not comprise the hemopexin domain, which is believed to be involved in substrate recognition. A study of MMP-26 mRNA steady states levels reveals, among the tissue examined, a specific expression in placenta. MMP-26 mRNA could also be detected in several human cell lines such as HEK 293 kidney cells and HFB1 lymphoma cells. Recombinant MMP-26 was produced in mammalian cells and used to demonstrate a proteolytic activity of the enzyme on gelatin and beta-casein.     

Changes in the temporal and spatial expression of H beta 58 during formation and maturation of the chorioallantoic placenta in the Rat

Cloning and sequencing of a cDNA amplified by RNA fingerprinting at the implantation site of pregnant rats revealed 80% similarity with H beta 58, previously shown to be essential for formation of the chorioallantoic placenta in the mouse. H beta 58 mRNA was detected in the endometrium of hormonally sensitized rats stimulated to undergo decidualization and in the contralateral uterine horns lacking a decidual stimulus, indicating that uterine expression of H beta 58 mRNA did not require decidualization or the presence of a blastocyst. Immunodetection in the early postimplantation uterus (Days 6-8 of pregnancy) showed H beta 58 localized in the luminal and glandular epithelia and some stromal cells. Decidual cells at Day 6 of pregnancy expressed H beta 58, and by Day 9 of pregnancy, the protein localized throughout the maternal decidua. The temporal and spatial distribution of H beta 58 in the developing chorioallantoic placenta was assessed at Days 10, 12, and 14 of pregnancy. Immunoreactive H beta 58 localized to erythroid cells within the developing fetal vasculature of the chorioallantoic primordia at Day 10 of pregnancy. By Day 12, the fetal vasculature extended into the placental labyrinth, and the erythroid stem cells continued to strongly express H beta 58. At Day 14 of pregnancy, immunoreactivity became evident in the trophoblast giant cells and syncytiotrophoblast of the fetal placenta. As the chorioallantoic placenta matured (Day 18), H beta 58 mRNA was 3.6-fold higher in the labyrinth compared with the junctional region. Stable cell lines (HRP/LRP) isolated from the rat labyrinthine placenta expressed H beta 58 mRNA and protein. The expression pattern of H beta maternal and fetal placental tissues and its early expression in fetal erythroid stem cells during formation and maturation of the chorioallantoic placenta suggest that H beta 58 plays key roles in the regulatory networks that control hematopoietic development and placentation.     

Expression of lymphatic vascular endothelial hyaluronan receptor-1 (LYVE-1) in the human placenta

BACKGROUND: Lymphatic vascular endothelial hyaluronan receptor-1 (LYVE-1) is a selective marker for lymphatic endothelium and a homolog of CD44, the hyaluronan (HA) receptor. HA in the extracellular matrix plays roles in tissue remodeling, development, and homeostasis, and as an HA receptor, LYVE-1 mediated HA metabolism might regulate these events. Currently, little is known about the lymphatic character within the human placenta. This study therefore determined LYVE-1 and other lymphatic markers in human placentas. METHODS AND RESULTS: Placentas and villous tissue were fixed and immunostained for human LYVE-1 and CD44 and examined by RT-PCR. LYVE-1 was expressed at both protein and mRNA levels in trophoblast cells (TC) and in villous core endothelium (VCE). Predominant protein expression for LYVE-1 was observed in syncytiotrophoblast cells (TCs) of preterm placentas. Neither mRNA or protein for CD44 was expressed. Other blood and lymphatic-lineage molecules (VEGF-A, -C, and -D, Flt-1, KDR, Flt-4, and Prox-1) were examined by RT-PCR. VEGF-A, VEGF-D, and Flt-1 mRNA were observed in TCs and VCEs, while mRNA for VEGF-C, KDR, and Flt-4 was mainly observed in VCEs. Prox-1 was found at the mRNA, but not protein level in TCs and VCEs. Our findings indicate (1) the importance of LYVE-1, but not CD44, in regulation of HA metabolism in the maternal-fetal interface and fetal circulation, and (2) possible dual blood and lymphatic phenotypic characteristics in fetal endothelium. These results provide new insights into HA metabolism and lymphatic-lineage molecule expression in the human placenta.     

Trophoblast-specific knockdown of CSPG4 expression causes pregnancy complications with poor placentation in mice

The multifunctional molecule chondroitin sulfate proteoglycan 4 (CSPG4/NG2) plays key roles in organogenesis and tumorigenesis. However, its roles in placentation remain unclear. In this study, CSPG4 expression in human and mouse placentas was investigated through immunohistochemistry (IHC), qPCR and western blotting. The theoretical structure and function of CSPG4 were assessed using bioinformatic tools, and the functions of CSPG4 in fetal and placental development were investigated using a mouse model established by trophoblast-specific CSPG4 knockdown and a trophoblast cell line with CSPG4 knockout by lentivirus infection. The results showed that CSPG4 was mainly located in trophoblasts in both human placentas and mouse placentas, with a higher level in preeclampsia (PE) placentas than in healthy control placentas. Furthermore, there was a trend of increasing expression in mouse placentas during pregnancy. The 3D structure of CSPG4 was visualized using an M model composed of two chains, and the structure implied that CSPG4 was a multifunctional molecule containing multiple pockets with multiligand binding sites and enzyme active sites. Trophoblast-specific CSPG4 knockdown caused frequent fetal loss, and viable fetal development was restricted by poor placentation, with mice placentas having reduced weight and width. The proliferation and invasion of CSPG4-knockout trophoblasts were significantly inhibited, and as such, the molecular signaling of AKT and ERK phosphorylation was inhibited, and the expression of MMP2 and MMP9 was reduced. In summary, CSPG4 deficiency inhibited trophoblast proliferation and invasion, which was associated with AKT, ERK and MMP signaling. CSPG4 deficiency also caused pregnancy complications with poor placentation in mice.     

Expression of matrix metalloproteinase-26 (MMP-26) mRNA in mouse uterus during the estrous cycle and early pregnancy

Matrix metalloproteinases (MMPs) and their tissue inhibitors play important roles in the remodeling of extracellular matrix (ECM). MMP-26, also called endometase or matrilysin-2, is a novel member of the MMP family. The present study was to investigate the temporal and spatial expression of MMP-26 mRNA in mouse uterus during the estrous cycle and early pregnancy by using in situ hybridization and semi-quantitative RT-PCR. In this study, MMP-26 mRNA was found to be localized to the luminal and glandular epithelium at proestrus and estrus, and the expression level was decreased significantly from metestrus to dioestrus. During pre-implantation period, MMP-26 mRNA was predominantly expressed in luminal and glandular epithelium at much higher level; whereas it switched to stroma during peri-implantation period, and also appeared in the blastocysts and the implantation sites. The results suggested that MMP-26 might play a role in the cycling changes of mouse uterus during the estrous cycle and embryo implantation.     

Developmental changes in extracellular matrix messenger RNAs in the mouse placenta during the second half of pregnancy: possible factors involved in the regulation of placental extracellular matrix expression

Expression of procollagens (Col1a1/2, Col3a1, Col4a1/2, Col5a1/2) and fibronectin 1 (Fn1) in the mouse fetal placental tissue was examined during the second half of pregnancy. Ribonuclease protection assays (RPAs) revealed that levels of these mRNAs noticeably increased between Days 10 and 14 of pregnancy, and they remained at relatively constant levels thereafter. In situ hyridization showed that Col1a1 and Col4a1 mainly localized in the labyrinth, whereas Fn1 was expressed mainly in the spongiotrophoblast. Since members of the transforming growth factor-beta (TGFB) superfamily are involved in the regulation of extracellular matrix (ECM) expression in various tissues, mRNA levels of TGFB family members and their binding proteins were also examined by RPAs. Transforming growth factor-beta1-3 (Tgfb1-3), activin subunits (Inhba, Inhbb), follistatin (Fst), and follistatin-like 3 (Fstl3) were expressed in the placenta, whereas significant expression of myostatin (Mstn) was not detected. Although the expression patterns of Tgfb1-3 and Inhba in the placenta suggest possible involvement of TGFBs and activin A in the regulation of placental ECM expression, neither TGFBs nor activin A affected ECM mRNA levels in vitro. On the other hand, hypoxia significantly decreased Col1a1/2 and Col4a1/2 mRNAs in cultured placental cells, and a high-glucose condition significantly increased Col1a1 and Col3a1 mRNAs. Fn1 expression was increased under the high-glucose condition, although hypoxia also increased Fn1 expression to a lesser degree. These data suggest that an increase in oxygen tension and nutrient supply during placentation rather than TGFB family members may be responsible for the increase in the placental ECM mRNA expression.     

Vascular endothelial expression of indoleamine 2,3-dioxygenase 1 forms a positive gradient towards the feto-maternal interface

We describe the distribution of indoleamine 2,3-dioxygenase 1 (IDO1) in vascular endothelium of human first-trimester and term placenta. Expression of IDO1 protein on the fetal side of the interface extended from almost exclusively sub-trophoblastic capillaries in first-trimester placenta to a nearly general presence on villous vascular endothelia at term, including also most bigger vessels such as villous arteries and veins of stem villi and vessels of the chorionic plate. Umbilical cord vessels were generally negative for IDO1 protein. In the fetal part of the placenta positivity for IDO1 was restricted to vascular endothelium, which did not co-express HLA-DR. This finding paralleled detectability of IDO1 mRNA in first trimester and term tissue and a high increase in the kynurenine to tryptophan ratio in chorionic villous tissue from first trimester to term placenta. Endothelial cells isolated from the chorionic plate of term placenta expressed IDO1 mRNA in contrast to endothelial cells originating from human umbilical vein, iliac vein or aorta. In first trimester decidua we found endothelium of arteries rather than veins expressing IDO1, which was complementory to expression of HLA-DR. An estimation of IDO activity on the basis of the ratio of kynurenine and tryptophan in blood taken from vessels of the chorionic plate of term placenta indicated far higher values than those found in the peripheral blood of adults. Thus, a gradient of vascular endothelial IDO1 expression is present at both sides of the feto-maternal interface.     

Fibulin-5 expression in the human placenta

Fibulin-5 is a secreted extracellular matrix glycoprotein and displays a diverse panel of biological functions, which can be segregated into elastogenic as well as extra-elastogenic functions. While elastogenic functions of fibulin-5 include essential roles in early steps of elastic fibre assembly, extra-elastogenic functions are widespread. Depending on the cell type used, fibulin-5 mediates cell adherence via a subset of integrins, antagonizes angiogenesis and inhibits migration as well as proliferation of endothelial and smooth muscle cells. In this study, we focused on the spatiotemporal expression of fibulin-5 in the human placenta. With progressing gestation, placental fibulin-5 expression increased from first trimester towards term. At term, placental fibulin-5 mRNA expression is lower when compared with other well-vascularized organs such as lung, kidney, heart, uterus and testis. In first trimester, placenta immunohistochemistry localized fibulin-5 in villous cytotrophoblasts and extravillous cytotrophoblasts of the proximal cell column. In term placenta, fibulin-5 was detected in the endothelial basement membrane and adventitia-like regions of vessels in the chorionic plate and stem villi. Cell culture experiments with the villous trophoblast-derived cell line BeWo showed that fibulin-5 expression was downregulated during functional differentiation and intercellular fusion. Moreover, cultivation of BeWo cells under low oxygen conditions impaired intercellular fusion and upregulated fibulin-5 expression. The spatiotemporal shift from the trophoblast compartment in first trimester to the villous vasculature at term suggests a dual role of fibulin-5 in human placental development.     

Serine peptidase HTRA3 is closely associated with human placental development and is elevated in pregnancy serum

HTRA3 is a newly identified serine peptidase of the mammalian HTRA (high-temperature requirement factor A) family, that is upregulated dramatically during mouse placental development. The current study determined whether HTRA3 was involved in human placentation. During the menstrual cycle, HTRA3 was expressed primarily in the endometrial glands, being significantly upregulated toward the mid- to late secretory phases; prominent expression in the stroma detected only in the decidual cells in the late secretory phase. Thus, overall endometrial HTRA3 expression was highest in the late secretory phase, when the endometrium is prepared for maternal-trophoblast interaction. During the first trimester of pregnancy, both glandular and decidual HTRA3 expression increased further with the decidual upregulation being highly significant. The strong link between HTRA3 expression and endometrial stromal cell decidualization was further established in an in vitro model using primary endometrial stromal cells. HTRA3 was also expressed by certain trophoblast subtypes in the first-trimester placenta: strongly in the villous syncytiotrophoblast, trophoblast shell, and endovascular trophoblast and weakly in the distal portion of the trophoblast cell columns but not in villous cytotrophoblast, the proximal region of the cell columns, or interstitial trophoblast. Upregulation of HTRA3 expression in association with placental development was revealed by a significant elevation of this protein in the maternal serum during the first trimester. We thus propose that HTRA3 is a previously unrecognized factor closely associated with and potentially important for human placentation. This study established crucial groundwork for future investigations toward establishing the physiological roles of HTRA3 in human placentation.     

金属蛋白酶-2(MMP-2)和金属蛋白酶抑制因子(TIMP-1,-3)mRNA在小鼠胎盘中的表达

本实验利用原位杂交对小鼠妊娠不同时期胎盘中MMP－2,TIMP－2,－3mRNA的表达进行了研究。结果表明;MMP－2主要在具有很强的侵润能力的海绵滋养层细胞中表达,到妊娠13．5天时,MMP－2的表达明显降低,说明此时的滋养层细胞基本上失去侵润能力。TMIP－1和TMIP－3在滋养层细胞和蜕膜细胞中都有表达,这两种抑制因子的协同表达,一方面能够调控滋养层细胞侵入子宫内膜的深度,另一方面,滋养层细胞自身既表达MMP－2又表达TIMPs,可能对其自身有保护作用,使得MMP的水解功能局限于子宫蜕膜的特定区域。在妊娠10．5天,滋养层巨细胞同时表达TIMP－1,－3mRNA,这可能与其功能的转换是一致的;因为此时小鼠滋养层巨细胞体积最大,且不再增殖,同时其功能屯从侵入型向内分泌型转换。所以,MMPs和TIMPs在小鼠滋养层细胞和子宫蜕膜中的协同表达表明其在着床过程中可能发挥重要作用。     

Hemochorial placentation in the primate: expression of vascular endothelial growth factor, angiopoietins, and their receptors throughout pregnancy

Vascular development and its transformation are necessary for successful hemochorial placentation, and vascular endothelial growth factor (VEGF), angiopoietins, and their receptors may be involved in the molecular regulation of this process. To determine the potential role of these putative regulators in a widely studied primate, the common marmoset, we investigated their mRNA expression and protein location in the placenta throughout pregnancy using in situ hybridization, Northern blot analysis, and immunocytochemistry. VEGF was localized in decidual and cytotrophoblast cells, and its highest expression was found in the maternal decidua. The Flt receptor was exclusively detected in the syncytial trophoblast with increasing expression in placentae from 10 wk to term. Soluble Flt (sFlt) was also detectable by Northern blot analysis. KDR receptor expression was restricted to mesenchymal cells during early placentation and to the fetoplacental vasculature during later placentation. KDR expression increased throughout pregnancy. Angiopoietin-1 (Ang-1) was localized in the syncytial trophoblast, being highly expressed in the second half of gestation. Ang-2 mRNA localized exclusively to maternal endothelial cells, and was highly expressed in 10-wk placentae. The Tie-2 receptor was found in cytotrophoblast cells and in fetal and maternal vessels. High Tie-2 levels were detected in the wall of chorion vessels at 14-wk, 17-wk, and term placentae. These results suggest that the processes of trophoblast invasion, maternal vascular transformation, and fetoplacental vascular differentiation and development are regulated by the specific actions of angiogenic ligand-receptor pairs. Specifically, 1) VEGF/Flt and Ang-1/Tie-2 may promote trophoblast growth, 2) VEGF/KDR and Ang-1/Tie-2 may support fetoplacental vascular development and stabilization, 3) sFlt may balance VEGF actions, and 4) Ang-2/Tie-2 may remodel the maternal vasculature.     

Involvement of placental peptidases associated with renin-angiotensin systems in preeclampsia

Preeclampsia is characterized by pregnancy-induced hypertension accompanied with protein urea and generalized edema. Preeclampsia develops during the second half of pregnancy and resolves postpartum promptly, implicating the placenta as a primary cause in the disorder. Normal pregnancy is associated with reductions in arterial pressure and attenuated pressor response to exogenous infused angiotensin II (ANG II). In contrast, women with preeclampsia show the similar sensitivity to the pressor effect of ANG II as do non-pregnant women. To elucidate the involvement of placental peptidases associated with renin-angiotensin systems, we determined the localization of angiotensin-converting enzyme (ACE) and aminopeptidase A (AP-A), ANG II degrading enzyme, in the placenta and compared the expression of mRNA and protein in uncomplicated and preeclamptic placenta. In addition, AP-A expression in trophoblastic cells treated with ANG II and ACE expression in HUVECs under hypoxic condition were analyzed, respectively. The expression of both peptidases in the preeclamptic placenta was significantly higher than those from uncomplicated. ACE was primarily localized to venous endothelial cells of stem villous whereas AP-A expression was recognized in the trophoblast and pericytes of fetal arterioles and venules within stem villous. Hypoxia induced ACE expression in HUVECs while both hypoxia and ANG II evoked AP-A expression in trophoblast. These results suggested that hypoxic condition in preeclampsia induces ACE activation in feto-placental unit to maintain the fetal hemodynamics and placental AP-A plays a role as a component of the barrier of ANG II between mother and fetus.     

Placental villous mesenchymal cells trigger trophoblast invasion

The successful transformation of uterine spiral arteries by invasion trophoblasts is critical for the formation of the human hemochorial placenta. Placental trophoblast migration and invasion are well regulated by various autocrine/paracrine factors at maternal–fetal interface. Human placental multipotent mesenchymal stromal cells (hPMSCs) are a subpopulation of villous mesenchymal cells and have been shown to produce a wide array of soluble cytokines and growth factors including HGF (hepatocyte growth factor). The function of hPMSCs in placental villous microenvironment has not been explored. The interaction between hPMSCs and trophoblasts was proposed in vitro in a recent article. HGF produced by hPMSCs was able to engage c-Met receptor on trophoblast and induced the trophoblast cAMP expression. The cAMP activated PKA, which in turn, signaled to Rap1 and led to integrin β1 activation. The total integrin β1 protein expression by trophoblasts was not affected by HGF stimulation. Hypoxia downregulated HGF expression by hPMSCs. HGF and PKA activator 6-Bnz-cAMP increased trophoblast adhesion and migration that were inhibited by PKA inhibitor H89 or Rap1 siRNA. Thus, hPMSCs-derived paracrine HGF can regulate trophoblast migration during placentation. These findings provided insight revealing at least one mechanism by which hPMSCs implicated in the development of preeclampsia.     

Expression and localization of SWAP-70 in human fetomaternal interface and placenta during tubal pregnancy and normal placentation.

SWAP-70 has been demonstrated as a multiple functional signaling protein involved in formation of membrane ruffling induced by signal cascade of tyrosine kinase growth factor receptors. In the present study, the spatial and temporal expression pattern of SWAP-70 on human fetomaternal interface was investigated using specimens collected from tubal and normal pregnancies by in situ hybridization, immunohistochemistry, and Western blotting. Data showed an intense expression of SWAP-70 in trophoblasts at weeks 3-6 of fallopian implantation and at weeks 6-7 of normal pregnancy. The most intense expression was exhibited by those highly motile and invasive extravillous trophoblasts. From gestational week 8 on, the level of SWAP-70 in trophoblasts decreased significantly, and the signal was restricted in villous cytotrophoblast cells. In the in vitro cultured human trophoblast cell line, B6Tert-1, colocalization of SWAP-70 with F-actin was verified. Data in human placenta were similar to what we recently reported on rhesus monkey fetomaternal interface. Our results suggest that SWAP-70 may be involved in regulating migration and invasion of trophoblast cells during the processes of embryonic implantation and placentation in primates.     

Placental villous mesenchymal cells trigger trophoblast invasion

The successful transformation of uterine spiral arteries by invasion trophoblasts is critical for the formation of the human hemochorial placenta. Placental trophoblast migration and invasion are well regulated by various autocrine/paracrine factors at maternal–fetal interface. Human placental multipotent mesenchymal stromal cells (hPMSCs) are a subpopulation of villous mesenchymal cells and have been shown to produce a wide array of soluble cytokines and growth factors including HGF (hepatocyte growth factor). The function of hPMSCs in placental villous microenvironment has not been explored. The interaction between hPMSCs and trophoblasts was proposed in vitro in a recent article. HGF produced by hPMSCs was able to engage c-Met receptor on trophoblast and induced the trophoblast cAMP expression. The cAMP activated PKA, which in turn, signaled to Rap1 and led to integrin β1 activation. The total integrin β1 protein expression by trophoblasts was not affected by HGF stimulation. Hypoxia downregulated HGF expression by hPMSCs. HGF and PKA activator 6-Bnz-cAMP increased trophoblast adhesion and migration that were inhibited by PKA inhibitor H89 or Rap1 siRNA. Thus, hPMSCs-derived paracrine HGF can regulate trophoblast migration during placentation. These findings provided insight revealing at least one mechanism by which hPMSCs implicated in the development of preeclampsia.     

Involvement of placental peptidases associated with renin–angiotensin systems in preeclampsia

Preeclampsia is characterized by pregnancy-induced hypertension accompanied with protein urea and generalized edema. Preeclampsia develops during the second half of pregnancy and resolves postpartum promptly, implicating the placenta as a primary cause in the disorder. Normal pregnancy is associated with reductions in arterial pressure and attenuated pressor response to exogenous infused angiotensin II (ANG II). In contrast, women with preeclampsia show the similar sensitivity to the pressor effect of ANG II as do non-pregnant women. To elucidate the involvement of placental peptidases associated with renin–angiotensin systems, we determined the localization of angiotensin-converting enzyme (ACE) and aminopeptidase A (AP-A), ANG II degrading enzyme, in the placenta and compared the expression of mRNA and protein in uncomplicated and preeclamptic placenta. In addition, AP-A expression in trophoblastic cells treated with ANG II and ACE expression in HUVECs under hypoxic condition were analyzed, respectively. The expression of both peptidases in the preeclamptic placenta was significantly higher than those from uncomplicated. ACE was primarily localized to venous endothelial cells of stem villous whereas AP-A expression was recognized in the trophoblast and pericytes of fetal arterioles and venules within stem villous. Hypoxia induced ACE expression in HUVECs while both hypoxia and ANG II evoked AP-A expression in trophoblast. These results suggested that hypoxic condition in preeclampsia induces ACE activation in feto-placental unit to maintain the fetal hemodynamics and placental AP-A plays a role as a component of the barrier of ANG II between mother and fetus.     

Variability in Melanoma Metalloproteinase Expression Profiling

The proteolytic activities of a disintegrin and metalloproteinase (ADAM); a disintegrin and metalloproteinase with thrombospondin motifs (ADAMTS), and matrix metalloproteinase (MMP) families play important roles in normal and multiple pathological conditions. These metalloproteases have potential roles in the degradation of the ECM and in the processing of bioactive molecules. In the present study, RNA was isolated from multiple normal fibroblast and metastatic melanoma cell lines, as well as the isogenic normal tissue and tumor samples, and the gene expression levels of six ADAMs, eight MMPs, and four ADAMTSs were analyzed by real-time PCR. This approach allowed for detected changes in mRNA expression of the individual metalloproteinase genes to be compared between normal and metastatic states and also between tissue and cultured cells. Increased gene expression of several ADAM and MMP family members (MMP1, MMP8, MMP15, and ADAM15) occurred in melanoma tissue and was replicated in tissue cultures. In general, the level of ADAM and MMP mRNA expression was several-fold higher in cultured cells compared with the isogenic tissue from which they were derived. Passage-dependent expression patterns were observed for MMP8 and MMP9 in in-house-derived metastatic melanoma cell lines. This reiterates earlier suggestions that experiments using cells that have been maintained in culture should be interpreted with great care.